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WO2014106324A1 - 一种定位的方法、装置及系统 - Google Patents

一种定位的方法、装置及系统 Download PDF

Info

Publication number
WO2014106324A1
WO2014106324A1 PCT/CN2013/070025 CN2013070025W WO2014106324A1 WO 2014106324 A1 WO2014106324 A1 WO 2014106324A1 CN 2013070025 W CN2013070025 W CN 2013070025W WO 2014106324 A1 WO2014106324 A1 WO 2014106324A1
Authority
WO
WIPO (PCT)
Prior art keywords
terminal
positioning
information
parameter
measurement
Prior art date
Application number
PCT/CN2013/070025
Other languages
English (en)
French (fr)
Inventor
肖登坤
崔杰
李红
米尔⋅亚瑟
朱江波
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to PCT/CN2013/070025 priority Critical patent/WO2014106324A1/zh
Priority to CN201380065935.1A priority patent/CN104854932B/zh
Priority to EP13870036.4A priority patent/EP2928242B1/en
Publication of WO2014106324A1 publication Critical patent/WO2014106324A1/zh
Priority to US14/789,254 priority patent/US9801088B2/en

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W64/00Locating users or terminals or network equipment for network management purposes, e.g. mobility management
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/0009Transmission of position information to remote stations
    • G01S5/0018Transmission from mobile station to base station
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/0009Transmission of position information to remote stations
    • G01S5/0018Transmission from mobile station to base station
    • G01S5/0036Transmission from mobile station to base station of measured values, i.e. measurement on mobile and position calculation on base station
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/0009Transmission of position information to remote stations
    • G01S5/0045Transmission from base station to mobile station
    • G01S5/0063Transmission from base station to mobile station of measured values, i.e. measurement on base station and position calculation on mobile
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/02Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves
    • G01S5/0205Details
    • G01S5/021Calibration, monitoring or correction
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W64/00Locating users or terminals or network equipment for network management purposes, e.g. mobility management
    • H04W64/003Locating users or terminals or network equipment for network management purposes, e.g. mobility management locating network equipment
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/02Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves
    • G01S5/0205Details
    • G01S5/0236Assistance data, e.g. base station almanac
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/08Access point devices

Definitions

  • the present invention relates to the field of communications, and in particular, to a method, an apparatus, and a system for positioning. Background technique
  • CID Cell Identification
  • the CID positioning is to characterize the geographic location of the UE according to the ID (identification) of the base station where the UE is located. According to the ID of the base station in the cellular network, the network side can know which base station and the geographical information of the base station, so that the geographical location of the UE can be determined.
  • the positioning of the UE can be implemented by using the CID positioning mode. However, the positioning mode is only based on the ID of the serving base station of the UE, and the positioning accuracy is low.
  • Embodiments of the present invention provide a method, apparatus, and system for positioning to improve positioning accuracy.
  • an embodiment of the present invention provides a method for locating, including: determining, by a server, a positioning measurement parameter, and generating measurement configuration information that carries the positioning measurement parameter; the positioning measurement parameter is measured by a server requesting a terminal, And a parameter for locating the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator PMI/rank indicating RI feature and multipath number of the terminal, and a handover failure rate measured by the terminal, The radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal; the server transmitting the measurement configuration information to the terminal by using the base station; The configuration response information returned by the terminal; the configuration response information carries a positioning response parameter; the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal; and the server is configured according to the configuration response information.
  • the positioning response parameter carried is used to locate the terminal.
  • the method before the determining, by the server, the positioning measurement parameter, the method further includes: the server sending a request message for acquiring terminal scenario information to the base station, and from the base station Obtaining the scene information of the terminal in the feedback response message
  • the determining, by the server, the positioning measurement parameter includes: determining, by the server, the positioning measurement parameter according to the acquired scene information of the terminal.
  • the determining, by the server, the positioning measurement parameter, according to the obtained scenario information of the terminal includes at least one of the following:
  • the information includes: carrier aggregation CA scenario information, where the server determines a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal as positioning measurement parameters;
  • the scenario information of the terminal includes: jointly transmitting CoMP scene information, and the server uses the signal to interference and noise ratio of the terminal, the number of strong interference cells received by the terminal, and the PMI/RI feature and multipath number of the terminal.
  • the server determines, by the terminal, a handover failure rate measured by the terminal, and a radio link failure rate measured by the terminal as Position measurement parameters.
  • the determining, by the server, the positioning measurement parameter according to the acquired scenario information of the terminal further includes at least one of the following:
  • the information includes: the CA scenario information, the server further determines the number of carriers used by the terminal, and the rotation angle measured by the gyroscope of the terminal with respect to the true north direction as a positioning measurement parameter;
  • the information includes: the CoMP scenario information, where the server further determines the number of measurement access points and the signal strength used by the terminal, and the rotation angle of the terminal measured by the gyroscope relative to the north direction as the positioning measurement parameter.
  • the scenario information of the terminal includes: a wide area network WAN or a wireless high-fidelity WiFi scenario information
  • the server further determines the number of access points and the access point identifier detected by the terminal as positioning measurement parameters.
  • the positioning measurement parameter further includes the following At least one of a parameter or a combination of parameters: the number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation measured by the gyroscope of the terminal relative to the true north direction, and the access point detected by the terminal Number and access point identification.
  • the server before the server locates the terminal according to the positioning response parameter carried in the configuration response information, the server further includes: After the save network is rasterized, each raster corresponds to Locating the terminal according to the positioning response parameter carried in the configuration response information by the server: the server compares the positioning response parameter with a positioning parameter value corresponding to each grid A grid having a positioning parameter value closest to the positioning response parameter is used as a matching grid, and a position of the matching grid is used as a location of the terminal.
  • the embodiment of the present invention provides a method for locating, including: acquiring, by a terminal, measurement configuration information sent by a server through a base station; the measurement configuration information carrying a positioning measurement parameter; the positioning measurement parameter is the server The parameter for the terminal is required to be measured by the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature, and a multipath number, measured by the terminal.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal; and the terminal sends a configuration to the server by using a base station Response information, the configuration response information carries the positioning response Parameters, so that the server for the terminal in response to positioning of said positioning parameters.
  • the positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, and the terminal receives The number of the strong interfering cell, and the PMI/RI feature and the multipath number of the terminal; or, if the scenario information of the terminal includes: the joint multi-point transmission CoMP scenario information, the positioning measurement parameter includes: The noise ratio, the number of strong interference cells received by the terminal, and the PMI/RI feature and the multipath number of the terminal; or, if the scenario information of the terminal includes: minimum driving test MDT scenario information, the positioning measurement parameter includes : The handover failure rate measured by the terminal and the radio link failure rate measured by the terminal.
  • the positioning measurement parameter further includes: a carrier used by the terminal And the number of rotations measured by the gyro of the terminal relative to the true north direction; or, if the scene information of the terminal includes: the scenario information of the CoMP, the positioning measurement parameter further includes: the measurement connection used by the terminal The number of in-points and the signal strength, and the angle of rotation of the terminal with respect to the true north direction measured by the gyroscope; or, if the scene information of the terminal includes: scene information of a wide area network WAN or wireless high-fidelity WiFi,
  • the positioning measurement parameters further include: the number of access points detected by the terminal and the access point identifier.
  • the positioning measurement parameter further includes at least one of the following parameters or a combination of parameters: number of carriers used by the terminal The number of access points and signal strength used by the terminal, the angle of rotation measured by the gyroscope of the terminal relative to the north direction, and the access, number, and access point identifier of the terminal.
  • the embodiment of the present invention provides a method for locating, including: receiving, by a base station, measurement configuration information sent by a server; the measurement configuration information carrying a positioning measurement parameter; a parameter for locating the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, and a handover failure rate measured by the terminal, The radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal; the base station transmitting the measurement configuration information to the terminal; and the base station receiving the terminal to send Configuration response information, the configuration response information carries a positioning response parameter; the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal; the base station sends the configuration response information to the a server, such that the server performs the terminal on the terminal according to the positioning response parameter Positioning.
  • the sending, by the base station, the measurement configuration information to the terminal includes: the base station parsing the measurement configuration information, acquiring the positioning measurement parameter; a measurement configuration information, the positioning measurement parameter is added to the first measurement configuration information; the first measurement configuration information is sent to the terminal; and the base station receiving the configuration response information sent by the terminal includes: the base station receiving the a first configuration response information sent by the terminal, where the first configuration response information carries a positioning response parameter; the base station parses the first configuration response information, and acquires the positioning response parameter; The configured configuration response information is added to the configuration response information.
  • the positioning measurement parameter includes The signal to interference and noise ratio of the terminal, the number of strong interference cells received by the terminal, and the PMI/RI feature and the multipath number of the terminal; or if the scenario information of the terminal includes: joint multipoint transmission CoMP scenario information, The positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI characteristic of the terminal. And the multipath number; or if the scenario information of the terminal includes: a minimum driving test MDT scenario information, the positioning measurement parameter includes: a handover failure rate measured by the terminal, and a wireless chain of the terminal Road failure rate.
  • the positioning measurement parameter further includes: a carrier used by the terminal And the number of rotations measured by the gyro of the terminal relative to the true north direction; or, if the scene information of the terminal includes: the scenario information of the CoMP, the positioning measurement parameter further includes: the measurement connection used by the terminal The number of in-points and the signal strength, and the angle of rotation of the terminal with respect to the true north direction measured by the gyroscope; or, if the scene information of the terminal includes: scene information of a wide area network WAN or wireless high-fidelity WiFi, the positioning The measurement parameters further include: the number of access points detected by the terminal and the access point identifier.
  • the positioning measurement parameter further includes the following parameters Or at least one of the parameter combinations: the number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation measured by the gyroscope of the terminal relative to the true north direction, and the access points detected by the terminal Number and access point identification.
  • the embodiment of the present invention provides a server, including: a processing unit, configured to determine a positioning measurement parameter, generate measurement configuration information that carries the positioning measurement parameter, and send the measurement configuration to a terminal by using a sending unit.
  • the positioning measurement parameter is a parameter used by the server to request the terminal to locate the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator PMI/rank indicator RI feature of the terminal And the number of multipaths, the handover failure rate measured by the terminal, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal; and the sending unit, configured to send to the terminal through the base station
  • the measurement configuration information generated by the processing unit, the receiving unit configured to receive configuration response information returned by the terminal by using the base station, where the configuration response information carries a positioning response parameter, where the positioning response parameter is the terminal Measured measurement result of the positioning measurement parameter; the processing unit Is also used to
  • the processing unit is further configured to send a request message for acquiring terminal scenario information to the base station, and obtain the The scene information of the terminal is used by the processing unit to determine the positioning measurement parameter, including: determining the positioning measurement parameter according to the acquired scene information of the terminal.
  • the processing unit is configured to determine, according to the acquired scenario information of the terminal, the positioning measurement parameter, where the at least one of the following is included:
  • the scenario information of the terminal includes: carrier aggregation CA scenario information, determining a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal as positioning measurement parameters;
  • the scenario information of the terminal includes: jointly transmitting CoMP scene information, and determining a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal as positioning. If the scenario information of the terminal includes: the minimum driver test MDT scenario information, the handover failure rate measured by the terminal and the radio link failure rate measured by the terminal are determined as the positioning measurement parameters.
  • the processing unit is configured to determine, according to the acquired scenario information of the terminal, the positioning measurement parameter, and further includes at least one of the following:
  • the scenario information of the terminal includes: the CA scenario information, and the number of carriers used by the terminal, and the rotation angle of the terminal measured by the gyroscope relative to the north direction are determined as positioning measurement parameters; if the scenario information of the terminal includes : the CoMP scene information, the number of measured access points and the signal strength used by the terminal, and the rotation angle measured by the gyroscope of the terminal relative to the north direction are determined as positioning measurement parameters;
  • the scenario information includes: the WAN WAN or the wireless high-fidelity WiFi scenario information, and determining the number of access points and the access point identifier detected by the terminal as positioning measurement parameters.
  • the positioning measurement parameter The method further includes at least one of the following parameters or a combination of parameters: the number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation of the terminal measured by the gyroscope relative to the true north direction, and the detection of the terminal Number of access points and access point identification.
  • the processing unit is configured to perform, according to the positioning response parameter carried in the configuration response information received by the receiving unit, the terminal
  • the locating includes: comparing the positioning response parameter with a positioning parameter value corresponding to each raster that is rasterized by the network, and using a grid whose positioning parameter value is closest to the positioning response parameter as a matching grid Grid, and the matching grid The position of the grid is the location of the terminal.
  • an embodiment of the present invention provides a terminal, including: a receiving unit, configured to acquire measurement configuration information sent by a server; the measurement configuration information carries a positioning measurement parameter; the positioning measurement parameter is a server requesting terminal.
  • the measured parameter used to locate the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator PMI/rank indicating RI feature and multipath number of the terminal, and the handover failure measured by the terminal Rate, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal; the processing unit, configured to carry according to the measurement configuration information received by the receiving unit
  • the positioning measurement parameter is measured to obtain a positioning response parameter; the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal; and the sending unit is configured to send configuration response information to the server by using a base station, where
  • the configuration response information carries the positioning response parameter, where the configuration is ringing Response information carries the positioning
  • the positioning measurement parameter received by the receiving unit includes: The ratio of the strong interference cell received by the terminal, and the PMI/RI feature and the multipath number of the terminal; or, if the scenario information of the terminal includes: joint multipoint transmission CoMP scenario information, the receiving unit receives the location
  • the positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal; or, if the scenario information of the terminal includes: a minimum driver
  • the MDT scenario information is tested, and the positioning measurement parameters received by the receiving unit include: a handover failure rate measured by the terminal, and a radio link failure rate measured by the terminal.
  • the positioning measurement parameter received by the receiving unit is further The method includes: a carrier number used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the true north direction; or, if the scene information of the terminal includes: the scene information of the CoMP, the receiving unit receives the location
  • the positioning measurement parameter further includes: a measurement access point number and a signal strength used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the true north direction; or, if the scene information of the terminal includes: a wide area network WAN or
  • the positioning measurement parameter received by the receiving unit further includes: the number of access points detected by the terminal and the access point identifier.
  • the positioning measurement parameter received by the receiving unit further includes the following parameters Or at least one of the parameter combinations: the number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation measured by the gyroscope of the terminal relative to the true north direction, and the access points detected by the terminal Number and access point identification.
  • an embodiment of the present invention provides a base station, including: a receiving unit, configured to receive measurement configuration information sent by a server; where the measurement configuration information carries a positioning measurement parameter; the positioning measurement parameter is a server requesting terminal The measured parameter used to locate the terminal; the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator PMI/rank indicating RI feature and multipath number of the terminal, and the handover failure measured by the terminal Rate, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interference cells received by the terminal; the sending unit, configured to send the measurement configuration information received by the receiving unit to the terminal; The receiving unit is further configured to receive configuration response information sent by the terminal, where the configuration response information carries a positioning response parameter, where the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal; The sending unit is further configured to: receive the configuration response message received by the receiving unit The information is sent to the server, so that the
  • the processing unit is configured to parse the measurement configuration information received by the receiving unit, to obtain the positioning measurement parameter, and the processing unit is further configured to generate the first Measure the configuration information, and add the positioning measurement parameter to the first measurement configuration information.
  • the sending unit is configured to send the measurement configuration information received by the receiving unit to the terminal, including: sending the The first measurement configuration information generated by the processing unit; the receiving, by the receiving unit, the configuration response information sent by the terminal, includes: receiving, by the terminal, first configuration response information, where the first configuration response information is carried
  • the processing unit is further configured to parse the first configuration response information received by the receiving unit to obtain the positioning response parameter, and the processing unit is further configured to generate the server Sending configuration response information, and adding the positioning response parameter to the configuration response information;
  • Means for receiving the receiving means in response to said configuration information to the server comprises: the processing unit generates in response to the configuration information to the server.
  • the receiving unit receives The positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal; or If the scenario information of the terminal includes: jointly transmitting CoMP scene information, the positioning measurement parameter received by the receiving unit includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and The PMI/RI feature and the multipath number of the terminal; or, if the scenario information of the terminal includes: the minimum driving test MDT scenario information, the positioning measurement parameter received by the receiving unit includes: The handover failure rate and the radio link failure rate measured by the terminal.
  • the positioning measurement parameter received by the receiving unit further includes: a number of carriers used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the true north direction; or, if the scene information of the terminal includes: scene information of the CoMP, the receiving unit receives
  • the positioning measurement parameter further includes: a measurement access point number and a signal strength used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the north direction; or, if the scene information of the terminal includes: a wide area network WAN Or the scenario information of the wireless high-fidelity WiFi, the positioning measurement parameter received by the receiving unit further includes: the number of access points detected by the terminal and the access point identifier.
  • the receiving unit receives the positioning
  • the measurement parameter further includes at least one of the following parameters or a combination of parameters: the number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation of the terminal measured by the gyroscope relative to the true north direction, and the terminal The number of access points detected and the access point identifier.
  • the embodiment of the present invention provides a system for locating, including: a server, a terminal, and a base station; the server is the server described in the foregoing embodiment;
  • the base station is the base station described in the above embodiment.
  • the embodiment of the invention provides a method, a device and a system for positioning.
  • the server sends the measurement configuration information carrying the positioning measurement parameter, so that the base station sends the measurement configuration information to the terminal when receiving the measurement configuration information.
  • the terminal receives the measurement configuration information, performs measurement according to the positioning measurement parameter carried in the measurement configuration information, obtains the positioning response parameter, and sends the configuration response information carrying the positioning response parameter to the server through the base station.
  • the server receives the configuration response information, the terminal is located according to the positioning response parameter.
  • the server sends the positioning measurement parameter to the terminal, so that the terminal performs measurement according to the positioning measurement parameter, and returns the measurement result to the server in the form of the positioning response parameter, and the server responds according to the positioning.
  • the terminal is positioned according to the parameter, so that the server locates the terminal according to at least one parameter related to the terminal location of the terminal, which can more accurately locate the position of the terminal, thereby improving the positioning accuracy.
  • FIG. 1 is a schematic diagram of a method for positioning according to an embodiment of the present invention
  • FIG. 2 is a schematic diagram of another method for positioning according to an embodiment of the present invention
  • FIG. 3 is a schematic diagram of another method for positioning according to an embodiment of the present invention
  • FIG. 4 is a schematic diagram of another method for positioning according to an embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of a server according to an embodiment of the present invention
  • FIG. 6 is a schematic structural diagram of a terminal according to an embodiment of the present disclosure
  • FIG. 7 is a schematic structural diagram of a base station according to an embodiment of the present disclosure.
  • FIG. 8 is a schematic structural diagram of another base station according to an embodiment of the present invention
  • FIG. 9 is a schematic structural diagram of another server according to an embodiment of the present disclosure
  • FIG. 10 is a schematic structural diagram of another terminal according to an embodiment of the present invention
  • FIG. 11 is a schematic structural diagram of another base station according to an embodiment of the present disclosure
  • FIG. 12 is a schematic diagram of a system for positioning according to an embodiment of the present invention.
  • the embodiment of the invention provides a method for positioning, as shown in FIG. 1 , including:
  • the server determines positioning measurement parameters, and generates measurement configuration information that carries the positioning measurement parameters.
  • the positioning measurement parameter is a parameter used by the server to request the terminal, and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a PMI (Precoding Matrix Indicator) of the terminal, an IRI ( Rank Indicator), and a multipath number, and the handover failure measured by the terminal Rate, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal.
  • the positioning measurement parameter may also be other parameters that enable the server to locate the terminal, which is not limited by the present invention.
  • the server determines the positioning measurement parameter, and adds the positioning measurement parameter to the measurement configuration information when generating the measurement configuration information. Further, the server may determine the positioning measurement parameter corresponding to the terminal to be located according to the different scenarios in which the terminal to be located is located, and the server needs to obtain the scenario information of the terminal first.
  • the method for the server to obtain the scenario information of the terminal may be that the server sends a request message to the terminal by using the base station to obtain scenario information of the terminal.
  • the base station parses the request message after receiving the request message, and the base station analyzes the request message.
  • the base station sends the acquired scenario information of the terminal to the server.
  • the base station may send the request message to the terminal, so that the terminal returns the scenario information. Send the scene information returned by the terminal to the service.
  • the base station sends the message to the terminal directly after receiving the request message.
  • the terminal returns the scenario information, and after receiving the scenario information of the terminal, the base station directly sends the scenario information to the server.
  • the base station In the request message of the LPP specification, the base station only performs the function of forwarding, and parses the request message, that is, transparently transmits the request message to the terminal, and transparently transmits the received scene information of the terminal to the server.
  • the server may also obtain scene information of the terminal by other methods.
  • the invention is not limited thereto.
  • the scenario information of the terminal includes: CA (Carrier Aggregation) scenario information
  • the server uses the signal to interference and noise ratio of the terminal, the number of strong interference cells received by the terminal, and the PMI/RI feature of the terminal. And the number of multipaths is determined as the positioning measurement parameter.
  • the scenario information of the terminal includes: CoMP (Coordinated Multi-Point) scenario information
  • the server performs a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a terminal
  • the PMI/RI feature and multipath number are determined as positioning measurement parameters.
  • the server determines a handover failure rate measured by the terminal, and determines a radio link failure rate measured by the terminal. To locate the measurement parameters.
  • the scenario information of the terminal includes: WiFi (Wireless Fidelity) or WAN (Wide Area Network) scenario information
  • the server combines at least one of the following parameters or parameter combinations: a precoding matrix indicator of the terminal
  • the PMI/rank indicates the RI feature and the multipath number
  • the handover failure rate measured by the terminal, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interference cells received by the terminal are determined as the positioning measurement parameters.
  • the scenario information of the terminal includes: the CA scenario information
  • the server further determines the number of carriers used by the terminal, and the rotation angle of the terminal measured by the gyroscope relative to the true north direction as positioning. Measurement parameters.
  • the server further uses the measured access point number and signal strength used by the terminal, and the gyro measured by the terminal to rotate relative to the north direction. The angle is determined as the positioning measurement parameter.
  • the server further determines the number of access points and the access point identifier detected by the terminal as positioning measurement parameters. If the scenario information of the terminal includes: MDT scenario information, the server will also end The number of carriers used by the terminal, the number of measured access points used by the terminal, and the signal strength, the angle of rotation measured by the gyroscope of the terminal relative to the north direction, and the number of access points detected by the terminal and the access point identifier are determined as Position measurement parameters.
  • the positioning measurement parameter further includes at least one of the following parameters or a combination of parameters: a number of carriers used by the terminal, a number of measurement access points used by the terminal, and a signal strength, and a gyro of the terminal The angle of rotation measured by the instrument relative to the north direction, and the number of access points detected by the terminal and the access point identifier.
  • the server determines that the positioning measurement parameter corresponding to the terminal to be located can also be based on the service information of the terminal, which is not limited by the present invention.
  • the server sends the measurement configuration information to a terminal by using a base station.
  • the measurement configuration information carries the positioning measurement parameter.
  • the server can be a location server or a Coordinator.
  • the positioning server may directly send the measurement configuration information to the base station. After receiving the measurement configuration information, the base station does not parse the measurement configuration information, but directly forwards the measurement configuration information to the terminal that needs to be located. So that the terminal performs measurement according to the positioning measurement parameter of the measurement configuration information, and returns configuration response information carrying the positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the measurement configuration information may be measurement configuration information of an LPP (Long-Term Evolution) Positioning Protocol (LTE) protocol specification.
  • the positioning server may send the positioning measurement parameter to the terminal by using the measurement configuration signaling of the eCID (enhanced cell ID).
  • the positioning server may add the determined positioning measurement parameter in the measurement configuration signaling of the eCID, and send the measurement configuration signaling information of the eCID as the measurement configuration information to the base station, and send, by the base station, the measurement configuration signaling of the eCID.
  • Information is forwarded directly to the terminal.
  • the positioning server may also directly add the positioning measurement parameter to the new signaling, and send the newly added signaling information as measurement configuration information to the terminal through the base station.
  • the positioning server sends the measurement configuration information of the LPP specification to the base station, after receiving the measurement configuration information, the base station does not parse the measurement configuration information and directly sends the measurement configuration information to the terminal. That is, the positioning server sends the measurement configuration information to the base station, and the base station forwards the measurement configuration information to the terminal. That is, the base station transparently transmits the measurement configuration information sent by the positioning server to the terminal.
  • the base station is a base station serving the terminal that the positioning server is to locate.
  • the measurement configuration information may also be measurement configuration information of an LPPa (Long-Term Evolution) Positioning Protocol A (LTE) protocol specification.
  • the positioning server may add the positioning measurement parameter in the measurement configuration signaling information of the eCID, and send the measurement configuration signaling information of the eCID to the base station as the measurement configuration information.
  • LPPa Long-Term Evolution Positioning Protocol A
  • the positioning server can also directly add the positioning measurement parameters to the new signaling, and send the newly added signaling information as measurement configuration information to the base station. Further, if the positioning server sends the measurement configuration information of the LPPa specification to the base station, the base station, after receiving the measurement configuration information, parses the positioning measurement parameter carried in the measurement configuration information to generate a first measurement configuration. Information, and transmitting the first measurement configuration information to a corresponding terminal. That is, after receiving the measurement configuration information sent by the service, the base station parses the received measurement configuration information, parses the positioning measurement parameter in the measurement configuration information, and after generating the first measurement configuration information, The first measurement configuration information is sent to the corresponding terminal.
  • the first measurement configuration information is that after receiving the measurement configuration information sent by the server, the base station parses the positioning measurement parameter in the measurement configuration information, and generates a required terminal according to the positioning measurement parameter. Information for measuring the positioning measurement parameters.
  • the positioning measurement parameter is carried in the first measurement configuration information.
  • the server may send the measurement configuration information to the base station, so that after receiving the measurement configuration information, the base station parses the positioning measurement parameter carried in the measurement configuration information, and generates The first measurement configuration information is sent to the corresponding terminal.
  • the measurement configuration information can also be directly sent to the terminal through the base station.
  • the server may also be another server that can locate the terminal, which is not limited by the present invention.
  • the server receives, by using the base station, configuration response information returned by the terminal.
  • the first configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the server directly sends the measurement configuration information to the terminal through the base station
  • the server receives the configuration response information sent by the base station and is sent by the base station to the terminal, but does not parse the configuration response information directly forwarded to the server.
  • the terminal sends the configuration response information of the LPP specification to the base station, and the base station directly forwards the information to the server.
  • the configuration response information sent by the server and sent by the base station is: After receiving the first configuration response information returned by the terminal, parsing the positioning response parameter carried in the first configuration response information, and generating configuration response information for transmitting to the server that carries the positioning response parameter.
  • the terminal sends the first configuration response information of the LPPa specification to the base station, and the base station parses the first configuration response information, and generates configuration response information for sending to the server base station, and sends the configuration response information to the server.
  • the server locates the terminal according to the positioning response parameter carried in the configuration response information.
  • the method may include: rasterizing the network; and performing data collection on each raster (for example, using a road test (DT) or mathematical modeling Mode), each grid corresponds to a set of parameter values, and the parameter values corresponding to all the grids in the network are saved to the server. That is to say, corresponding to different types of positioning measurement parameters, the corresponding parameter values of the grid are also different.
  • the parameter value corresponding to the grid can be referred to as the positioning parameter value.
  • the server stores the positioning parameter values corresponding to the respective rasters after the network is rasterized.
  • the server may perform positioning on the terminal according to the positioning response parameter, and the server may: compare the positioning response parameter with a positioning parameter value corresponding to each grid, and compare the positioning parameter value with the positioning response parameter.
  • Grid as a matching grid, and The position of the matching grid is taken as the location of the terminal.
  • the server compares the parameter value actually measured by the UE with the parameter value corresponding to each grid, and uses a grid whose parameter value is closest to the parameter value actually measured by the UE as a matching grid; then, the server will match
  • the position of the grid is the current location of the terminal.
  • the location information can then be sent to the UE, and of course other operations can be performed.
  • the server After receiving the configuration response information, the server locates the terminal according to the positioning response parameter carried in the configuration response information.
  • the positioning response parameter includes at least one of the following parameters or a combination of parameters: a PMI/RI feature of the terminal and a measured value of the multipath number, a measured value of the handover failure rate measured by the terminal, and a radio link failure rate measured by the terminal. The measured value, the measured value of the signal to interference and noise ratio of the terminal, and the measured value of the number of strong interfering cells received by the terminal.
  • the positioning response parameter includes: a measured value of a signal to interference and noise ratio of the terminal, a measured value of a strong interference cell received by the terminal, and a terminal. PMI/RI characteristics and measurements of multipath numbers.
  • the positioning response parameter includes: a measured value of a signal to interference and noise ratio of the terminal, a measured value of a strong interference cell received by the terminal, and a terminal PMI/RI characteristics and measurements of multipath numbers.
  • the positioning response parameter includes: a measured value of the handover failure rate measured by the terminal, and a measured value of the radio link failure rate measured by the terminal.
  • the positioning response parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator PMI/rank indicator RI feature and multipath of the terminal. The measured value of the number, the measured value of the switching failure rate measured by the terminal, the measured value of the radio link failure rate measured by the terminal, the measured value of the signal to interference and noise ratio of the terminal, and the measurement of the number of strong interfering cells received by the terminal value.
  • the scenario information of the terminal includes: CA scenario information, where the positioning response parameter further includes: a measured value of the number of carriers used by the terminal, and a measurement of a rotation angle of the terminal measured by the gyroscope relative to the north direction value.
  • CA scenario information where the positioning response parameter further includes: a measured value of the number of carriers used by the terminal, and a measurement of a rotation angle of the terminal measured by the gyroscope relative to the north direction value.
  • the positioning response parameter The number also includes: the measured value of the number of access points and the signal strength used by the terminal, and the measured value of the angle of rotation of the terminal measured by the gyroscope relative to the true north direction. or,
  • the positioning response parameter further includes: a number of access points detected by the terminal and a measured value of the access point identifier.
  • the positioning response parameter includes: a measured value of the number of carriers used by the terminal, a measured access point number used by the terminal, and a measured value of the signal strength, and the terminal gyroscope The measured value of the rotation angle with respect to the true north direction, and the number of access points detected by the terminal and the measured value of the access point identifier.
  • the positioning response parameter further includes at least one of the following parameters or a combination of parameters: a measured value of the number of carriers used by the terminal, a number of measured access points used by the terminal, and a signal strength.
  • the specific positioning response parameters of the server are exemplified herein, and the positioning response parameters of other embodiments are similar.
  • An embodiment of the present invention provides a method for positioning, where a server sends measurement configuration information carrying a positioning measurement parameter, so that the terminal performs measurement according to the positioning measurement parameter, and obtains a positioning response parameter.
  • An embodiment of the present invention provides a method for positioning, as shown in FIG. 2, including:
  • the terminal acquires measurement configuration information sent by the server by using the base station.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal.
  • the positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI of the terminal.
  • the positioning measurement parameter further includes: a number of carriers used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the true north direction; or If the scenario information of the terminal includes: the scenario information of the CoMP, the positioning measurement parameter further includes: a number of measurement access points and a signal strength used by the terminal, and a measured relative to the gyroscope of the terminal The north direction rotation angle; or, if the scene information of the terminal includes: the wide area network WAN or the wireless high-fidelity WiFi scene information, the positioning measurement parameter further includes: the number of access points detected by the terminal and the access point identifier.
  • the positioning measurement parameter further includes at least one of the following parameters or a combination of parameters: a number of carriers used by the terminal, a number of measurement access points used by the terminal, and a signal strength, where the terminal The angle of rotation measured by the gyroscope relative to the north direction, and the number of access points detected by the terminal and the access point identifier.
  • the terminal may receive the measurement configuration information sent by the server forwarded by the base station. After receiving the measurement configuration information sent by the server, the base station does not parse the measurement configuration information and directly forwards the measurement configuration information to the terminal. That is to say, the measurement configuration information received by the terminal is the measurement configuration information sent by the server.
  • the terminal may also receive first measurement configuration information generated by the base station according to the measurement configuration information sent by the server.
  • the base station After receiving the measurement configuration information sent by the server, the base station generates first measurement configuration information, and sends the first measurement configuration information to the terminal, where the terminal receives the first measurement configuration information.
  • the measurement configuration information includes: first measurement configuration information.
  • the first measurement configuration information carries the positioning measurement parameters.
  • the first measurement configuration information may be the same as or different from the measurement configuration information sent by the server.
  • the base station may add information about a specific implementation manner when the terminal measures the positioning measurement parameter, for example, the terminal period, based on the measurement configuration information sent by the server. Whether the configuration returns the configuration response information to the base station or the information that the configuration response information is returned to the base station in a sudden manner.
  • the sudden return configuration response information to the base station means that the terminal returns the configuration response information to the base station only when receiving the measurement configuration information. When the terminal does not receive the measurement configuration information, it does not return configuration response information to the base station.
  • the terminal performs measurement according to the positioning measurement parameter carried in the measurement configuration information, acquires a positioning response parameter, and generates configuration response information that carries the positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the terminal after receiving the measurement configuration information, the terminal performs measurement according to the positioning measurement parameter carried in the measurement configuration information, and uses the result of the measured positioning measurement parameter required by the server as the positioning response parameter, and according to the received measurement configuration.
  • the information generates corresponding configuration response information.
  • location response parameter returned by the terminal is the same as the location response parameter carried in the configuration response information received by the server through the base station, and is not described here.
  • the terminal sends configuration response information to the server by using a base station, where the configuration response information carries the positioning response parameter, so that the server locates the terminal according to the positioning response parameter.
  • the terminal After obtaining the positioning response parameter, the terminal adds the positioning response parameter to the configuration response information. If the terminal receives the measurement configuration information that is sent by the server and is not parsed by the base station in step 201, the terminal adds the positioning response parameter to the configuration response information, and forwards the data to the server through the base station.
  • the terminal receives the measurement configuration information sent by the base station, and the terminal may send the positioning response parameter to the measurement configuration of the added eCID of the LPP specification, and send the signaling configuration information of the eCID as the configuration response information to the configuration response information. server.
  • the terminal may also add the positioning response parameter to the reporting signaling of the LPP specification, add the positioning response parameter to the newly added reporting signaling, and send the newly added reporting signaling information as configuration response information to the server through the base station.
  • the configuration information indicates that after receiving the measurement configuration information sent by the server, the base station parses the measurement configuration information and generates first measurement configuration information. At this time, the terminal adds the positioning response parameter to the first configuration response information.
  • the terminal sends the first configuration response information to the base station, so that after receiving the first configuration response information, the base station generates configuration response information sent to the server, and sends the configuration response information to The server, where the configuration response information carries the positioning response parameter. Further, the terminal may send the configuration response report signaling that adds the positioning response parameter to the eCID to the base station as the first configuration response information.
  • the terminal may also send a new report signaling to the base station as the first configuration response information.
  • the embodiment of the invention provides a method for positioning, and the terminal receives the measurement configuration information carrying the positioning 'J quantity parameter, and performs measurement according to the positioning measurement parameter to obtain the positioning response parameter.
  • the positioning response parameter is added to the configuration response information and sent to the server by the base station, so that when the server receives the configuration response information carrying the positioning response parameter, the terminal is located according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a positioning method, as shown in FIG. 3, including:
  • the base station receives measurement configuration information sent by the server.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and is used to locate the terminal.
  • the positioning measurement parameter may include at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a wireless link measured by the terminal. Failure rate, the signal to interference and noise ratio of the terminal, and the number of strong interference cells received by the terminal.
  • the positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI of the terminal.
  • the scenario information of the terminal includes: jointly transmitting CoMP scene information
  • the positioning measurement parameter includes: a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI of the terminal.
  • RI characteristics and multipath numbers if the scenario information of the terminal includes: a minimum driver test MDT
  • the positioning measurement parameter includes: a handover failure rate measured by the terminal, and a radio link failure rate measured by the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters:
  • the precoding matrix indicator PMI/rank indicates the RI feature and multipath number, the handover failure rate measured by the terminal, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the strong interfering cell received by the terminal. number.
  • the positioning measurement parameter further includes: a number of carriers used by the terminal, and a rotation angle of the terminal measured by the gyroscope relative to the true north direction.
  • the positioning measurement parameter further includes: a number of measurement access points and a signal strength used by the terminal, and a measured by the gyroscope of the terminal The angle of rotation in the north direction.
  • the positioning measurement parameter further includes: the number of access points detected by the terminal and the access point identifier.
  • the positioning measurement parameter further includes: a number of carriers used by the terminal, a number of measured access points used by the terminal, and a signal strength, which are measured by the terminal of the gyroscope. The angle of rotation relative to the north direction, and the access, number, and access point identification of the terminal.
  • the positioning measurement parameter further includes at least one of the following parameters or a combination of parameters: a number of carriers used by the terminal, a number of measurement access points used by the terminal, and a signal strength, where the terminal The angle of rotation measured by the gyroscope relative to the north direction, and the number of access points detected by the terminal and the access point identifier.
  • the base station may receive the measurement configuration information sent by the positioning server, and may also receive the measurement configuration information sent by the Coordinator.
  • the base station sends the measurement configuration information to a terminal. Specifically, if the measurement configuration information sent by the server to the base station cannot be resolved, the base station directly sends the measurement configuration information to the terminal. For example, the server sends the measurement configuration information of the LPP specification to the base station. At this time, the base station cannot parse the measurement configuration information, and after receiving the measurement configuration information, the base station directly forwards the measurement configuration information to the terminal. Further, the base station can learn, by the server, which terminal the server needs to be located. If the measurement configuration information sent by the server to the base station can be parsed, the base station parses the measurement configuration information to obtain the positioning measurement parameter. The base station generates first measurement configuration information, and adds the positioning measurement parameter to the first measurement configuration information.
  • the base station needs to parse the measurement configuration information, parse the positioning measurement parameter carried in the measurement configuration information, and generate the first measurement configuration information that is sent to the terminal.
  • the server sends the measurement configuration information of the LPPa specification to the base station, and after receiving the measurement configuration information, the base station parses the measurement configuration information to obtain the positioning measurement parameter in the measurement configuration information. And generating first measurement configuration information for sending to the terminal, adding the positioning measurement parameter to the first measurement configuration information, and transmitting the information to the terminal.
  • the base station may add the positioning measurement parameter to the measurement signaling, and send the measurement signaling information to the terminal as the first measurement configuration information.
  • the base station can know which terminal the server needs to locate.
  • the base station receives configuration response information sent by the terminal.
  • the configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal. Specifically, if the base station forwards the measurement configuration information sent by the server to the terminal without parsing, the terminal acquires the positioning response parameter, generates configuration response information in the same format as the measurement configuration information, and sets the positioning response parameter. Add to the positioning response parameters and send to the base station. After receiving the configuration response information, the base station does not parse the configuration response information, and directly forwards the configuration response information to the server.
  • the base station parses the measurement configuration information sent by the server in step 302, the first measurement configuration information is sent to the terminal. At this time, the base station receives the first configuration response information sent by the terminal.
  • the first configuration response information carries a positioning response parameter.
  • the base station parses the first configuration response information, and obtains the positioning response parameter.
  • the base station generates configuration response information sent to the server, and adds the positioning response parameter to the configuration response information.
  • the location response parameter returned by the terminal and the server receive through the base station.
  • the positioning response parameters carried in the configuration response information are the same and will not be described here.
  • the base station sends the configuration response information to the server.
  • the configuration response information that is sent by the base station to be sent to the server is sent to the server.
  • the base station forwards the configuration response information sent by the received terminal to the server.
  • the base station may add a positioning response parameter to the configuration response of the eCID, and the base station sends the configuration response report signaling of the eCID to the server as the configuration response information.
  • the base station may also add a positioning response parameter to the newly added report signaling, and send the newly added report signaling information to the server as configuration response information.
  • the embodiment of the present invention provides a method for locating. After receiving the measurement configuration information sent by the server, if the base station cannot parse the measurement configuration information, the base station directly sends the measurement configuration information to the terminal.
  • the positioning measurement parameter carried in the measurement configuration information is parsed, and the positioning measurement parameter is added to the first measurement configuration information and sent to the terminal, so that the terminal receives the positioning measurement parameter.
  • the first measurement configuration information is measured according to the positioning measurement parameter, and the positioning response parameter is obtained.
  • the base station sends the obtained configuration response information to the server, so that when the server receives the configuration response information carrying the positioning response parameter, the base station locates the terminal according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a method for positioning, as shown in FIG. 4, including:
  • the server acquires scenario information of the terminal.
  • the method for the server to obtain the scenario information of the terminal may be: the server sends a request message for acquiring the terminal scenario information to the base station, and acquires scenario information of the terminal from the response message fed back by the base station. If the server sends the request message of the LPPa specification to the base station, the base station sends the acquired scene information of the terminal to the server when the base station has acquired the scenario information of the terminal after receiving the request message. In the case that the base station does not obtain the scenario information of the terminal, the base station may send the request message to the terminal, so that the terminal returns the response information carrying the scenario information. The base station sends the response information carrying the scenario information to the server.
  • the base station directly sends the request message to the terminal after receiving the request message. After receiving the response information of the scenario information of the terminal, the base station directly sends the response information to the server.
  • the implementation scheme of the request message sent by the server to the LPPa specification or the LPP specification is similar to the solution in the foregoing embodiment, and details are not described herein again.
  • the server can obtain the scene information of the terminal by other methods. The invention is not limited thereto.
  • step 101 The same as step 101, and details are not described herein again.
  • the server sends the measurement configuration information to the base station.
  • the base station receives measurement configuration information. Specifically, the server sends the measurement configuration information to the base station, and may refer to step 102.
  • the base station receives the measurement configuration information, and may refer to step 301, and details are not described herein again.
  • the base station sends the measurement configuration information to a terminal, where the terminal acquires measurement configuration information.
  • the sending, by the base station, the measurement configuration information to the terminal may be the same as the step 302, and the terminal acquiring the measurement configuration information may refer to step 201, and details are not described herein again.
  • step 202 The same as step 202, and details are not described herein again.
  • the terminal sends configuration response information to the base station, and the base station receives the second configuration response information. Specifically, the terminal sends configuration response information to the base station, and may refer to step 203, and the base station receives configuration response information, which may be referred to in step 303, and details are not described herein again.
  • the base station sends configuration response information to the server, where the server receives configuration response information returned by the terminal sent by the base station.
  • the base station sends the first configuration response information to the server, and may refer to step 304.
  • the server receives the first configuration response information, and may refer to step 103, and details are not described herein again.
  • the embodiment of the present invention provides a method for locating a measurement configuration information that carries a positioning measurement parameter to a base station. After receiving the measurement configuration information carrying the positioning measurement parameter, the base station can parse the measurement configuration information sent by the server. And parsing the positioning measurement parameter, adding the positioning measurement parameter to the first measurement configuration information, and sending the first measurement configuration information to the terminal. If the measurement configuration information sent by the server cannot be parsed, it is forwarded to the terminal. After receiving the measurement configuration information, the terminal performs measurement according to the positioning measurement parameter to obtain a positioning response parameter. The positioning response parameter is added to the configuration response information and sent to the base station, and the base station sends the configuration response information to the server.
  • the server When receiving the first configuration response information carrying the positioning response parameter, the server locates the terminal according to the positioning response parameter. In this way, the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a server, as shown in FIG. 5, including:
  • the processing unit 601 is configured to determine a positioning measurement parameter, and generate measurement configuration information that carries the positioning measurement parameter, and send the measurement configuration information to the terminal by using the sending unit 602.
  • the positioning measurement parameter is a parameter used by the server to request the terminal, and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal.
  • processing unit 601 is further configured to send a request message for acquiring the terminal scenario information to the base station, and acquire scenario information of the terminal from the response message fed back by the base station.
  • the determining, by the processing unit 601, the positioning measurement parameter includes: determining the positioning measurement parameter according to the acquired scene information of the terminal.
  • the processing unit 601 is configured to determine, according to the obtained scenario information of the terminal, that the positioning measurement parameter includes at least one of the following: if the scenario information of the terminal includes: carrier aggregation CA scenario information, The dry-to-noise ratio, the number of strong interfering cells received by the terminal, and the PMI/RI characteristics and multipath numbers of the terminal are determined as positioning measurement parameters.
  • scenario information of the terminal includes: jointly transmitting CoMP scenario information, determining a signal to interference and noise ratio of the terminal, a number of strong interference cells received by the terminal, and a PMI/RI feature and a multipath number of the terminal are determined as Position measurement parameters.
  • scenario information of the terminal includes: a minimum driving test MDT scenario information, determining a handover failure rate measured by the terminal and a radio link failure rate measured by the terminal as a positioning measurement parameter.
  • the scenario information of the terminal includes: a wireless high-fidelity WiFi or a wide area network WAN scenario Information
  • the processing unit 601 is configured to determine, according to the obtained scenario information of the terminal, the positioning measurement parameter, the method further includes: at least one of the following: if the scenario information of the terminal includes: the CA scenario information, and the carrier used by the terminal The number, and the angle of rotation of the terminal's gyroscope relative to the true north direction are determined as the positioning measurement parameters.
  • scenario information of the terminal includes: the CoMP scenario information, the number of measured access points and the signal strength used by the terminal, and the rotation angle of the gyroscope 'J of the terminal relative to the true north direction are determined. To locate the measurement parameters. If the scenario information of the terminal includes: a wide area network WAN or a wireless high-fidelity WiFi scenario information, the number of access points detected by the terminal and the access point identifier are also determined as positioning measurement parameters.
  • the positioning measurement parameter is a positioning measurement parameter determined and sent by the server in the embodiment of the present invention, and details are not described herein again.
  • the sending unit 602 is configured to send, by using the base station, the measurement configuration information generated by the processing unit 601 to the terminal. among them.
  • the positioning measurement parameter is carried in the first measurement configuration information.
  • the sending unit 602 is specifically configured to: send measurement configuration information to the base station, so that after receiving the measurement configuration information, the base station generates first measurement configuration information, and sends the first measurement configuration information.
  • the first measurement configuration information is that after receiving the measurement configuration information sent by the server, the base station parses the positioning measurement parameter in the measurement configuration information, and generates a required terminal according to the positioning measurement parameter.
  • Information for measuring the positioning measurement parameter; the first measurement configuration information carries the positioning measurement parameter.
  • the receiving unit 603 is configured to receive, by using the base station, configuration response information returned by the terminal.
  • the configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the processing unit 601 is further configured to locate the terminal according to the positioning response parameter carried in the configuration response information received by the receiving unit 603. Bit parameter value.
  • the processing unit 601 is configured to locate the terminal according to the positioning response parameter that is carried in the configuration response information that is received by the receiving unit, and includes: comparing, comparing the positioning parameter value The grid closest to the positioning response parameter is used as a matching grid, and the position of the matching grid is taken as the location of the terminal.
  • An embodiment of the present invention provides a server, where a server sends measurement configuration information that carries a positioning measurement parameter, so that the terminal performs measurement according to the positioning measurement parameter, and obtains a positioning response parameter.
  • the terminal locates the terminal according to the positioning response parameter. In this way, the server locates the terminal according to at least one parameter related to the terminal position of the terminal, which can more accurately locate the position of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a terminal, as shown in FIG. 6, including:
  • the receiving unit 701 is configured to acquire measurement configuration information that is sent by the server by using the base station.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal. It should be noted that the positioning measurement parameters received by the terminal are the same as the positioning measurement parameters that are determined and sent by the server, and are not described here.
  • the receiving unit 701 is specifically configured to receive the first measurement configuration information that is sent by the base station.
  • the first measurement configuration information is that after receiving the measurement configuration information sent by the server, the base station parses the positioning measurement parameter in the measurement configuration information, and generates a required terminal according to the positioning measurement parameter.
  • Information for measuring the positioning measurement parameter; the first measurement configuration information carries the positioning measurement parameter.
  • the processing unit 702 is configured to perform measurement according to the positioning measurement parameter carried in the measurement configuration information received by the receiving unit, obtain a positioning response parameter, and generate configuration response information that carries the positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the sending unit 703 is configured to send configuration response information generated by the processing unit 702 to the server by using a base station.
  • the configuration response information carries the positioning response parameter.
  • the configuration response information includes: first configuration response information.
  • the sending unit 703 is specifically configured to: send the first configuration response information to the base station, so that after receiving the first configuration response information, the base station generates configuration response information that is sent to the server, where Configuration response information is sent to the server.
  • the configuration response information carries the positioning response parameter.
  • An embodiment of the present invention provides a terminal, where a terminal receives measurement configuration information that carries a positioning measurement parameter, performs measurement according to the positioning measurement parameter, and acquires a positioning response parameter.
  • the positioning response parameter is added to the configuration response information and sent to the server by the base station, so that when the server receives the configuration response information carrying the positioning response parameter, the terminal is located according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a base station, as shown in FIG. 7, including:
  • the receiving unit 801 is configured to receive measurement configuration information sent by the server.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the number of strong interfering cells received by the terminal.
  • the sending unit 802 is configured to send the measurement configuration information received by the receiving unit 801 to the terminal.
  • the receiving unit 801 is further configured to receive configuration response information sent by the terminal, where the configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the sending unit 802 is further configured to send the configuration response information received by the receiving unit 801 to the server.
  • the foregoing base station as shown in FIG. 8, further includes:
  • the processing unit 803 is configured to parse the measurement configuration information received by the receiving unit 801, and obtain a positioning measurement parameter.
  • the processing unit 803 is further configured to generate first measurement configuration information, and add the positioning measurement parameter to the first measurement configuration information.
  • the sending unit 802 configured to send the measurement configuration information received by the receiving unit to the terminal, includes: sending the first measurement configuration information generated by the processing unit 803 to the terminal.
  • the receiving, by the receiving unit 801, the configuration response information sent by the terminal includes: receiving, by the terminal, first configuration response information, where the first configuration response The location carries the positioning response parameters.
  • the processing unit 803 is further configured to parse the first configuration response information received by the receiving unit 801, and obtain the positioning response parameter.
  • the processing unit 803 is further configured to generate configuration response information that is sent to the server, and add the positioning response parameter to the configuration response information.
  • the sending, by the sending unit 802, the sending the configuration response information received by the receiving unit to the server includes: sending the configuration response information generated by the processing unit 803 to the server.
  • the embodiment of the present invention provides a base station.
  • the embodiment of the present invention provides a method for positioning. After receiving the measurement configuration information sent by the server, if the base station cannot parse the measurement configuration information, the base station directly sends the measurement configuration information. To the terminal. If the measurement configuration information is parsed, the positioning measurement parameter carried in the measurement configuration information is parsed, and the positioning measurement parameter is added to the first measurement configuration information and sent to the terminal, so that the terminal receives the positioning measurement parameter.
  • the first measurement configuration information is measured according to the positioning measurement parameter, and the positioning response parameter is obtained.
  • the base station sends the obtained configuration response information to the server, so that when the server receives the configuration response information carrying the positioning response parameter, the base station locates the terminal according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • the embodiment of the present invention provides a server. As shown in FIG. 9, the server includes: a transmitter 901, a receiver 902, a memory 903, and a processor 904 connected to the transmitter 901, the receiver 902, and the memory 903, respectively.
  • the memory 903 stores a set of program codes
  • the processor 904 is configured to call the program code stored in the memory 903 for performing the following operations: the processor 904 is configured to determine positioning measurement parameters, and generate the positioning The measurement configuration information of the measurement parameter is measured, and the measurement configuration information is transmitted to the terminal through the transmitter 901.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure, and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters: a precoding matrix indicator of the terminal, a PMI/rank indicating RI feature and a multipath number, a handover failure rate measured by the terminal, and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the terminal The number of strong interference cells.
  • a precoding matrix indicator of the terminal a PMI/rank indicating RI feature and a multipath number
  • a handover failure rate measured by the terminal and a radio link failure measured by the terminal Rate, the signal to interference and noise ratio of the terminal, and the terminal The number of strong interference cells.
  • the processor 904 is further configured to send a request message for acquiring the terminal scenario information to the base station, and obtain scenario information of the terminal from the response message fed back by the base station.
  • the determining, by the processor 904, the positioning measurement parameter includes: determining the positioning measurement parameter according to the acquired scene information of the terminal.
  • the transmitter 901 is configured to measure configuration information by using the base station to the terminal.
  • the first measurement configuration information carries the positioning measurement parameter.
  • the transmitter 901 is specifically configured to: send measurement configuration information to the base station, so that after receiving the measurement configuration information, the base station generates first measurement configuration information, and sends the first measurement configuration information. To the corresponding terminal.
  • the first measurement configuration information is that after receiving the measurement configuration information sent by the server, the base station parses the positioning measurement parameter in the measurement configuration information, and generates a required terminal according to the positioning measurement parameter.
  • Information for measuring the positioning measurement parameter; the first measurement configuration information carries the positioning measurement parameter.
  • the receiver 902 is configured to receive, by using the base station, configuration response information returned by the terminal.
  • the configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the processor 904 is further configured to locate the terminal according to the positioning response parameter carried in the configuration response information.
  • the processor 904 is configured to locate the terminal according to the positioning response parameter that is carried in the configuration response information that is received by the receiving unit, and includes: comparing the positioning parameter to the comparison A grid whose value is closest to the positioning response parameter is used as a matching grid, and the position of the matching grid is taken as the location of the terminal.
  • An embodiment of the present invention provides a server, where a server sends measurement configuration information that carries a positioning measurement parameter, so that the terminal performs measurement according to the positioning measurement parameter, and obtains a positioning response parameter. When the server receives the configuration response information carrying the positioning response parameter, the terminal locates the terminal according to the positioning response parameter.
  • the server locates the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • the embodiment of the present invention provides a terminal, as shown in FIG. 10, including: a transmitter 1001, a receiver 1002, a memory 1003, and a processor 1004 connected to the transmitter 1001, the receiver 1002, and the memory 1003, respectively.
  • the memory 1003 stores a set of program codes
  • the processor 1004 is configured to call the program code stored in the memory 1003 for performing the following operations:
  • the receiver 1002 is configured to acquire measurement configuration information sent by the server through the base station.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and is used to locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters:
  • the precoding matrix indicator PMI/rank of the terminal indicates the RI feature and multipath number, the handover failure rate measured by the terminal, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the strong interference received by the terminal.
  • the number of cells The number of cells.
  • the various possible implementations of the positioning measurement parameters carried in the measurement configuration information acquired by the receiver 1002 are the same as the implementations of the terminal receiving positioning measurement parameters in the foregoing embodiment, and details are not described herein again.
  • the measurement configuration information includes: the first measurement configuration information
  • the receiver 1002 is specifically configured to receive the first measurement configuration information that is sent by the base station.
  • the first measurement configuration information is that after receiving the measurement configuration information sent by the server, the base station parses the positioning measurement parameter in the measurement configuration information, and generates a request terminal according to the positioning measurement parameter.
  • Information for measuring the positioning measurement parameter; the first measurement configuration information carries the positioning measurement parameter.
  • the processor 1004 is configured to perform measurement according to the positioning measurement parameter carried in the measurement configuration information, obtain a positioning response parameter, and generate configuration response information that carries the positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the transmitter 1001 is configured to send, by using a base station, configuration response information generated by the processor 1004 to the server.
  • the configuration response information carries the positioning response parameter.
  • the configuration response information includes: first configuration response information.
  • the transmitter 1001 is specifically configured to: send the first configuration response information to the base station, so that after receiving the first configuration response information, the base station generates configuration response information that is sent to the server, where the configuration response is Information is sent to the server.
  • the configuration response information carries the positioning response parameter.
  • An embodiment of the present invention provides a terminal, where a terminal receives measurement configuration information that carries a positioning measurement parameter, performs measurement according to the positioning measurement parameter, and acquires a positioning response parameter.
  • the positioning response parameter is added to the configuration response information and sent to the server by the base station, so that when the server receives the configuration response information carrying the positioning response parameter, the terminal is located according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • the embodiment of the present invention provides a base station, as shown in FIG. 11, comprising: a transmitter 1101, a receiver 1102, a memory 1103, and a processor 1104 connected to the transmitter 1101, the receiver 1102, and the memory 1103, respectively.
  • the memory 1103 stores a set of program codes, and the processor 1104 is configured to call the program code stored in the memory 1103 to perform the following operations:
  • the receiver 1102 is configured to receive measurement configuration information sent by the server.
  • the measurement configuration information carries a positioning measurement parameter.
  • the positioning measurement parameter is a parameter that the server requires the terminal to measure and locate the terminal.
  • the positioning measurement parameter includes at least one of the following parameters or a combination of parameters:
  • the precoding matrix indicator ⁇ /rank of the terminal indicates the RI feature and the multipath number, and the terminal measures The handover failure rate, the radio link failure rate measured by the terminal, the signal to interference and noise ratio of the terminal, and the number of strong interference cells received by the terminal.
  • the transmitter 1101 is configured to send the measurement configuration information to the terminal.
  • the receiver 1102 is further configured to receive configuration response information sent by the terminal, where the configuration response information carries a positioning response parameter.
  • the positioning response parameter is a measurement result of the positioning measurement parameter measured by the terminal.
  • the transmitter 1101 is further configured to send the configuration response information to the server.
  • the processor 1104 is configured to parse the measurement configuration information received by the receiver 1102 to obtain a positioning measurement parameter.
  • the processor 1104 is further configured to generate first measurement configuration information, and add the positioning measurement parameter to the first measurement configuration information.
  • the sending, by the transmitter 1101, the measurement configuration information received by the receiving unit to the terminal includes: sending, by the terminal, the first measurement configuration information generated by the processor 1104.
  • the receiving, by the receiver, the configuration response information sent by the terminal includes: receiving, by the terminal, first configuration response information, where the first configuration response information carries a positioning response parameter.
  • the processor 1104 is further configured to parse the first configuration response information received by the receiver 1102, and obtain the positioning response parameter.
  • the processor 1104 is further configured to generate configuration response information for sending to the server, and add the positioning response parameter to the configuration response information used for sending to the server.
  • the sending, by the transmitter 1101, the configuration response information received by the receiving unit to the server includes: sending the processor to the server
  • the configuration response information generated by 1104 is sent to the server.
  • the embodiment of the present invention provides a base station.
  • the embodiment of the present invention provides a method for positioning. After receiving the measurement configuration information sent by the server, if the base station cannot parse the measurement configuration information, the base station directly sends the measurement configuration information. To the terminal. If the measurement configuration information is parsed, the positioning measurement parameter carried in the measurement configuration information is parsed, and the positioning measurement parameter is added to the first measurement configuration information and sent to the terminal, so that the terminal receives the positioning measurement parameter.
  • the first measurement configuration information is measured according to the positioning measurement parameter, and the positioning response parameter is obtained.
  • the base station sends the obtained configuration response information to the server, so that when the server receives the configuration response information carrying the positioning response parameter, the base station locates the terminal according to the positioning response parameter.
  • the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.
  • An embodiment of the present invention provides a positioning system. As shown in FIG. 12, the system includes: a server 1201, a terminal 1202, and a base station 1203.
  • the server 1201 is the server described in the foregoing embodiment.
  • the terminal 1202 is a terminal provided by the foregoing embodiment.
  • the base station 1203 is the base station provided by the above embodiment.
  • the embodiment of the present invention provides a method, a device, and a system for positioning.
  • the server sends the measurement configuration information carrying the positioning measurement parameter to the base station. After receiving the measurement configuration information carrying the positioning measurement parameter, the base station can analyze the measurement sent by the server. After the configuration information is parsed, the positioning measurement parameter is parsed, the positioning measurement parameter is added to the first measurement configuration information, and the first measurement configuration information is sent to the terminal. If the measurement configuration information sent by the server cannot be parsed, it is forwarded to the terminal, so that after receiving the measurement configuration information, the terminal performs measurement according to the positioning measurement parameter to obtain the positioning response parameter.
  • the positioning response parameter is added to the configuration response information and sent to the base station, and the base station sends the configuration response information to the server.
  • the server locates the terminal according to the positioning response parameter. In this way, the server can locate the terminal according to at least one parameter related to the terminal location of the terminal, and can more accurately locate the location of the terminal, thereby improving the positioning accuracy.

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Abstract

本发明实施例提供了一种定位的方法、装置及系统,涉及通信领域,用于提高定位的精度。所述方法,包括:服务器确定定位测量参数,并生成携带有所述定位测量参数的测量配置信息;所述定位测量参数是服务器要求终端测量的、且用于定位终端的参数;所述服务器通过基站向终端发送所述测量配置信息;所述服务器通过所述基站接收所述终端返回的配置响应信息;所述配置响应信息中携带有定位响应参数;所述定位响应参数是所述终端测量的所述定位测量参数的测量结果;所述服务器根据所述配置响应信息中携带的所述定位响应参数对所述终端进行定位。本发明适用于对终端进行定位的场景。

Description

一种定位的方法、 装置及系统 技术领域 本发明涉及通信领域, 尤其涉及一种定位的方法、 装置及系统。 背景技术
在现有技术中, 蜂窝移动通信中常用的定位方式是 CID ( Cell Identification, 基站小区号)定位。 CID定位是根据 UE所处的基站的 ID ( Identification, 小区号) 来表征 UE的地理位置。 根据蜂窝网中基站的 ID , 网络侧可以获知是哪一个基站以及此基站的地理信息, 从而可以确 定 UE所处的地理位置。 通过 CID定位方式可以实现对 UE进行定位。 但是此种定位方式只 是根据 UE的服务基站的 ID进行定位, 定位的精度较低。
发明内容 本发明的实施例提供一种定位的方法、 装置及系统, 用于提高定位 的精度。
为达到上述目的, 本发明的实施例釆用如下技术方案:
第一方面, 本发明实施例提供了一种定位的方法, 包括: 服务器确 定定位测量参数, 并生成携带有所述定位测量参数的测量配置信息; 所 述定位测量参数是服务器要求终端测量的、 且用于定位终端的参数; 所 述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码 矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得的切换失败率, 终端 测得的无线链路失败率, 终端的信干噪比, 以及终端所受到的强干扰小 区数; 所述服务器通过基站向终端发送所述测量配置信息; 所述服务器 通过所述基站接收所述终端返回的配置响应信息; 所述配置响应信息中 携带有定位响应参数; 所述定位响应参数是所述终端测量的所述定位测 量参数的测量结果; 所述服务器根据所述配置响应信息中携带的所述定 位响应参数对所述终端进行定位。
在第一方面的第一种可能的实现方式中, 在所述服务器确定定位测 量参数之前, 还包括: 所述服务器向所述基站发送用于获取终端场景信 息的请求消息, 并从所述基站反馈的响应消息中获取所述终端的场景信 息; 所述服务器确定定位测量参数包括: 所述服务器根据获取的所述终 端的场景信息确定定位测量参数。
结合第一方面的第一种可能的实现方式, 在第二种可能的实现方式 中, 所述服务器根据获取的所述终端的场景信息确定定位测量参数包括 以下至少一个: 若所述终端的场景信息包括: 载波聚合 CA场景信息, 则 所述服务器将所述终端的信干噪比, 终端所受到的强干扰小区数, 以及 终端的 PMI/ RI 特征和多径数确定为定位测量参数; 若所述终端的场景 信息包括: 联合多点传输 CoMP 场景信息, 则所述服务器将所述终端的 信干噪比, 终端所受到的强干扰小区数, 及终端的 PMI/ RI 特征和多径 数确定为定位测量参数; 若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所述服务器将所述终端测得的切换失败率, 及终端测 得的无线链路失败率确定为定位测量参数。
第一方面的第二种可能的实现方式, 在第三种可能的实现方式中, 所述服务器根据获取的所述终端的场景信息确定定位测量参数还包括以 下至少一个: 若所述终端的场景信息包括: 所述 CA场景信息, 则所述服 务器还将所述终端使用的载波数, 以及终端的陀螺仪测得的相对于正北 方向旋转角度确定为定位测量参数; 若所述终端的场景信息包括: 所述 CoMP场景信息,则所述服务器还将所述终端使用的测量接入点个数和信 号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度确定为定位 测量参数;若所述终端的场景信息包括:广域网 WAN或无线高保真 WiFi 场景信息, 则所述服务器还将所述终端探测的接入点个数及接入点标识 确定为定位测量参数。
结合第一方面, 或第一方面的第一种可能的实现方式, 或第一方面 的第二种可能的实现方式中, 在第四种可能的实现方式中, 所述定位测 量参数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正 北方向旋转角度, 以及终端探测的接入点个数及接入点标识。
结合第一方面, 或第一方面的第一种可能的实现方式, 或第一方面 的第二种可能的实现方式, 或第一方面的第三种可能的实现方式, 或第 一方面的第四种可能的实现方式, 在第五种可能的实现方式中, 在所述 服务器根据所述配置响应信息中携带的所述定位响应参数对所述终端进 行定位之前, 还包括: 所述服务器中保存网络被栅格化后各个栅格对应 的定位参数值; 所述服务器根据所述配置响应信息中携带的所述定位响 应参数对所述终端进行定位包括: 所述服务器将所述定位响应参数与各 个栅格对应的定位参数值进行比较, 将定位参数值与定位响应参数最接 近的栅格作为匹配栅格, 并将所述匹配栅格的位置作为所述终端所在的 位置。
第二方面, 本发明实施例提供了一种定位的方法, 包括: 终端获取 服务器通过基站发送的测量配置信息; 所述测量配置信息中携带有定位 测量参数; 所述定位测量参数是所述服务器要求终端测量的, 用于定位 终端的参数; 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数,终端测得的切换 失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受 到的强干扰小区数; 所述终端根据所述测量配置信息中携带的所述定位 测量参数进行测量, 获取定位响应参数, 以及生成携带所述定位响应参 数的配置响应信息; 所述定位响应参数是所述终端测量的所述定位测量 参数的测量结果; 所述终端通过基站向所述服务器发送配置响应信息, 所述配置响应信息中携带所述定位响应参数, 以使得所述服务器根据所 述定位响应参数对所述终端进行定位。
在第二方面的第一种可能的实现方式中, 若所述终端的场景信息包 括: 载波聚合 CA场景信息, 则所述定位测量参数包括: 所述终端的信干 噪比, 终端所受到的强干扰小区数, 以及终端的 PMI/ RI 特征和多径数; 或者, 若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则 所述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小 区数, 及终端的 PMI/ RI 特征和多径数; 或者, 若所述终端的场景信息 包括: 最小的驱动测试 MDT场景信息, 则所述定位测量参数包括: 所述 终端测得的切换失败率, 及终端测得的无线链路失败率。
结合第二方面的第一种可能的实现方式, 在第二种可能的实现方式 中, 若所述终端的场景信息包括: 所述 CA场景信息, 所述定位测量参数 还包括: 终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方向 旋转角度; 或者, 若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述定位测量参数还包括: 终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端 的场景信息包括: 广域网 WAN或无线高保真 WiFi的场景信息, 则所述 定位测量参数还包括: 终端探测的接入点个数及接入点标识。
结合第二方面, 或第二方面的第一种可能的实现方式, 在第三种可 能的实现方式中, 所述定位测量参数还包括以下参数或参数组合中的至 少一个: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋转角度, 以及终端探 'J的接入,、 个数及接入点标识。
第三方面, 本发明实施例提供了一种定位的方法, 包括: 基站接收 服务器发送的测量配置信息; 所述测量配置信息中携带有定位测量参数; 所述定位测量参数是服务器要求终端测量的, 用于定位终端的参数; 所 述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码 矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得的切换失败率, 终端 测得的无线链路失败率, 终端的信干噪比, 以及终端所受到的强干扰小 区数; 所述基站将所述测量配置信息发送至所述终端; 所述基站接收所 述终端发送的配置响应信息, 所述配置响应信息中携带有定位响应参数; 所述定位响应参数是所述终端测量的所述定位测量参数的测量结果; 所 述基站将所述配置响应信息发送至所述服务器, 以使得所述服务器根据 所述定位响应参数对所述终端进行定位。
在第三方面的第一种可能的实现方式中, 所述基站将所述测量配置 信息发送至终端包括: 所述基站解析所述测量配置信息, 获取所述定位 测量参数; 所述基站生成第一测量配置信息, 将所述定位测量参数添加 至所述第一测量配置信息; 向终端发送所述第一测量配置信息; 所述基 站接收终端发送的配置响应信息包括: 所述基站接收所述终端发送的第 一配置响应信息, 所述第一配置响应信息中携带有定位响应参数; 所述 基站解析所述第一配置响应信息, 获取所述定位响应参数; 所述基站生 成向所述服务器发送的配置响应信息, 将所述定位响应参数添加至所述 配置响应信息中。
结合第三方面, 或第三方面的第一种可能的实现方式, 在第二种可 能的实现方式中, 若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰 小区数, 以及终端的 PMI/ RI 特征和多径数; 或者若所述终端的场景信 息包括: 联合多点传输 CoMP场景信息, 则所述定位测量参数包括: 所 述终端的信干噪比, 终端所受到的强干扰小区数, 及终端的 PMI/ RI 特 征和多径数; 或者若所述终端的场景信息包括: 最小的驱动测试 MDT场 景信息, 则所述定位测量参数包括: 所述终端测得的切换失败率, 及终 端 'J得的无线链路失败率。
结合第三方面的第二种可能的实现方式, 在第三种可能的实现方式 中, 若所述终端的场景信息包括: 所述 CA场景信息, 所述定位测量参数 还包括: 终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方向 旋转角度; 或者, 若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述定位测量参数还包括: 终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端 的场景信息包括: 广域网 WAN或无线高保真 WiFi的场景信息, 则所述 定位测量参数还包括: 终端探测的接入点个数及接入点标识。
结合第三方面, 或第三方面的第一种可能的实现方式, 或第三方面 的第二种可能的实现方式, 在第四种可能的实现方式中, 所述定位测量 参数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终 端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北 方向旋转角度, 以及终端探测的接入点个数及接入点标识。
第四方面, 本发明实施例提供了一种服务器, 包括: 处理单元, 用 于确定定位测量参数, 生成携带有所述定位测量参数的测量配置信息, 并通过发送单元向终端发送所述测量配置信息; 所述定位测量参数是服 务器要求终端测量的, 用于定位终端的参数; 所述定位测量参数包括以 下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受到的强干扰小区数; 发送单元, 用于通 过基站向终端发送所述处理单元生成的所述测量配置信息; 接收单元, 用于通过所述基站接收终端返回的配置响应信息; 所述配置响应信息中 携带有定位响应参数; 所述定位响应参数是所述终端测量的所述定位测 量参数的测量结果; 所述处理单元, 还用于根据所述接收单元接收到的 所述配置响应信息中携带的所述定位响应参数对所述终端进行定位。
在第四方面的第一种可能的实现方式中, 所述处理单元, 还用于向 所述基站发送用于获取终端场景信息的请求消息, 并从所述基站反馈的 响应消息中获取所述终端的场景信息; 所述处理单元用于确定定位测量 参数包括: 根据获取的所述终端的场景信息确定定位测量参数。 结合第四方面的第一种可能的实现方式, 在第二种可能的实现方式 中, 所述处理单元用于根据获取的所述终端的场景信息确定定位测量参 数包括以下至少一个: 若所述终端的场景信息包括: 载波聚合 CA场景信 息, 则将所述终端的信干噪比, 终端所受到的强干扰小区数, 以及终端 的 PMI/ RI 特征和多径数确定为定位测量参数; 若所述终端的场景信息 包括: 联合多点传输 CoMP 场景信息, 则将所述终端的信干噪比, 终端 所受到的强干扰小区数, 及终端的 PMI/ RI 特征和多径数确定为定位测 量参数; 若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则将所述终端测得的切换失败率, 及终端测得的无线链路失败率确定为 定位测量参数。
结合第四方面的第二种可能的实现方式, 在第三种可能的实现方式 中, 所述处理单元用于根据获取的所述终端的场景信息确定定位测量参 数还包括以下至少一个: 若所述终端的场景信息包括: 所述 CA场景信 息, 还将终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方向 旋转角度确定为定位测量参数; 若所述终端的场景信息包括: 所述 CoMP 场景信息, 则还将所述终端使用的测量接入点个数和信号强度, 以及终 端的陀螺仪测得的相对于正北方向旋转角度确定为定位测量参数; 若所 述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi场景信息, 则 还将所述终端探测的接入点个数及接入点标识确定为定位测量参数。
结合第四方面, 或第四方面的第一种可能的实现方式, 或第四方面 的第二种可能的实现方式, 在第四方面的第四种可能的实现方式中, 所 述定位测量参数还包括以下参数或参数组合中的至少一个: 终端使用的 载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的 相对于正北方向旋转角度, 以及终端探测的接入点个数及接入点标识。
结合第四方面, 或第四方面的第一种可能的实现方式, 或第四方面 的第二种可能的实现方式, 或第四方面的第三种可能的实现方式, 或第 四方面的第四种可能的实现方式, 在第五种可能的实现方式中, 所述处 处理单元用于根据所述接收单元接收到的所述配置响应信息中携带的所 述定位响应参数对所述终端进行定位, 包括: 将所述定位响应参数与网 络被栅格化后的各个栅格所对应的定位参数值进行比较, 将所述定位参 数值与所述定位响应参数最接近的栅格作为匹配栅格, 并将所述匹配栅 格的位置作为所述终端所在的位置。
第五方面, 本发明实施例提供了一种终端, 包括: 接收单元, 用于 获取服务器发送的测量配置信息; 所述测量配置信息中携带有定位测量 参数; 所述定位测量参数是服务器要求终端测量的, 用于定位终端的参 数; 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的 预编码矩阵指示符 PMI/秩指示 RI 特征和多径数, 终端测得的切换失败 率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受到的 强干扰小区数; 处理单元, 用于根据所述接收单元接收的所述测量配置 信息中携带的所述定位测量参数进行测量, 获取定位响应参数; 所述定 位响应参数是所述终端测量的所述定位测量参数的测量结果; 发送单元, 用于通过基站向所述服务器发送配置响应信息, 所述配置响应信息中携 带所述定位响应参数, 所述配置响应信息中携带所述定位响应参数。
在第五方面的第一种可能的实现方式中, 若所述终端的场景信息包 括: 载波聚合 CA场景信息, 则所述接收单元接收的所述定位测量参数包 括: 所述终端的信干噪比,终端所受到的强干扰小区数, 以及终端的 PMI/ RI 特征和多径数; 或者, 若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所述接收单元接收的所述定位测量参数包括: 所述终 端的信干噪比, 终端所受到的强干扰小区数, 及终端的 PMI/ RI 特征和 多径数; 或者, 若所述终端的场景信息包括: 最小的驱动测试 MDT场景 信息, 则所述接收单元接收的所述定位测量参数包括: 所述终端测得的 切换失败率, 及终端测得的无线链路失败率。
结合第五方面的第一种可能的实现方式, 在第二种可能的实现方式 中, 若所述终端的场景信息包括: 所述 CA场景信息, 所述接收单元接收 的所述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺仪测 得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 所 述 CoMP的场景信息, 则所述接收单元接收的所述定位测量参数还包括: 终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测得的相对 于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN 或无线高保真 WiFi的场景信息, 则所述接收单元接收的所述定位测量参 数还包括: 终端探测的接入点个数及接入点标识。
结合第五方面或第五方面的第一种可能的实现方式, 在第三种可能 的实现方式中, 所述接收单元接收的所述定位测量参数还包括以下参数 或参数组合中的至少一个: 终端使用的载波数, 终端使用的测量接入点 个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋转角度, 以及 终端探测的接入点个数及接入点标识。
第六方面, 本发明实施例提供了一种基站, 包括: 接收单元, 用于 接收服务器发送的测量配置信息; 所述测量配置信息中携带有定位测量 参数; 所述定位测量参数是服务器要求终端测量的, 用于定位终端的参 数; 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的 预编码矩阵指示符 PMI/秩指示 RI 特征和多径数, 终端测得的切换失败 率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受到的 强干扰小区数; 发送单元, 用于将所述接收单元接收的所述测量配置信 息发送至终端; 所述接收单元, 还用于接收所述终端发送的配置响应信 息, 所述配置响应信息中携带有定位响应参数; 所述定位响应参数是所 述终端测量的所述定位测量参数的测量结果; 所述发送单元, 还用于将 所述接收单元接收的所述配置响应信息发送至所述服务器, 以使得所述 服务器根据所述定位响应参数对所述终端进行定位。
在第六方面的第一种可能的实现方式中, 处理单元, 用于解析所述 接收单元接收的所述测量配置信息, 获取所述定位测量参数; 所述处理 单元, 还用于生成第一测量配置信息, 并将所述定位测量参数添加至所 述第一测量配置信息; 所述发送单元用于将所述接收单元接收的所述测 量配置信息发送至终端, 包括: 向终端发送所述处理单元生成的所述第 一测量配置信息; 所述接收单元用于接收所述终端发送的配置响应信息 包括: 接收所述终端发送的第一配置响应信息, 所述第一配置响应信息 中携带有定位响应参数; 所述处理单元, 还用于解析所述接收单元接收 的所述第一配置响应信息, 获取所述定位响应参数; 所述处理单元, 还 用于生成用于向所述服务器发送的配置响应信息, 并将所述定位响应参 数添加至所述配置响应信息中; 发送单元用于将所述接收单元接收的所 述配置响应信息发送至所述服务器包括: 将所述处理单元生成的所述配 置响应信息发送至所述服务器。
结合第六方面, 或第六方面的第一种可能的实现方式, 在第二种可 能的实现方式中, 若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述接收单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小区数, 以及终端的 PMI/ RI 特征和多径数; 或者, 若所述终端的场景信息包括: 联合多点传输 CoMP 场景信息, 则所述接 收单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端所受 到的强干扰小区数, 及终端的 PMI/ RI 特征和多径数; 或者, 若所述终 端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所述接收单元接 收的所述定位测量参数包括: 所述终端测得的切换失败率, 及终端测得 的无线链路失败率。
结合第六方面的第二种可能的实现方式, 在第三种可能的实现方式 中, 若所述终端的场景信息包括: 所述 CA场景信息, 则所述接收单元接 收的所述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺仪 测得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 所述 CoMP 的场景信息, 则所述接收单元接收的所述定位测量参数还包 括: 终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测得的 相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场景信息, 则所述接收单元接收的所述定位 测量参数还包括: 终端探测的接入点个数及接入点标识。
结合第六方面, 或第六方面的第一种可能的实现方式, 或第六方面 的第二种可能的实现方式, 在第四种可能的实现方式中, 所述接收单元 接收的所述定位测量参数还包括以下参数或参数组合中的至少一个: 终 端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺 仪测得的相对于正北方向旋转角度, 以及终端探测的接入点个数及接入 点标识。
第七方面, 本发明实施例提供了一种定位的系统, 包括: 服务器, 终端, 基站; 所述服务器为上述实施例所述的服务器; 所述终端为上述 实施例所述的终端, 所述基站为上述实施例所述的基站。 本发明实施例提供了定位的方法、 装置及系统, 服务器发送携带有 定位测量参数的测量配置信息, 以使得基站在接收到测量配置信息时, 将测量配置信息发送至终端。 终端在收到测量配置信息, 根据测量配置 信息中携带的定位测量参数进行测量, 获取定位响应参数, 并将携带有 定位响应参数的配置响应信息通过基站发送至服务器。 在服务器接收到 配置响应信息时, 根据定位响应参数对终端进行定位。 这样, 服务器通 过将定位测量参数发送至终端, 以使得终端根据定位测量参数进行测量, 并将测量结果以定位响应参数的形式返回至服务器, 服务器根据定位响 应参数对终端进行定位, 使得服务器根据终端的至少一个与终端位置有 关的参数对终端进行定位, 能够更准确的对终端的位置进行定位, 从而 提高了定位的精度。 附图说明 为了更清楚地说明本发明实施例或现有技术中的技术方案, 下面将 对实施例或现有技术描述中所需要使用的附图作简单地介绍, 显而易见 地, 下面描述中的附图仅仅是本发明的一些实施例, 对于本领域普通技 术人员来讲, 在不付出创造性劳动的前提下, 还可以根据这些附图获得 其他的附图。 图 1为本发明实施例提供的一种定位的方法的示意图;
图 2为本发明实施例提供的另一种定位的方法的示意图; 图 3为本发明实施例提供的另一种定位的方法的示意图;
图 4为本发明实施例提供的另一种定位的方法的示意图;
图 5为本发明实施例提供的一种服务器的结构示意图; 图 6为本发明实施例提供的一种终端的结构示意图;
图 7为本发明实施例提供的一种基站的结构示意图;
图 8为本发明实施例提供的另一种基站的结构示意图; 图 9为本发明实施例提供的另一种服务器的结构示意图;
图 10为本发明实施例提供的另一种终端的结构示意图; 图 11为本发明实施例提供的另一种基站的结构示意图;
图 12为本发明实施例提供的一种定位的系统的示意图。
具体实施方式 下面将结合本发明实施例中的附图, 对本发明实施例中的技术方案 进行清楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明一部分实 施例, 而不是全部的实施例。 基于本发明中的实施例, 本领域普通技术 人员在没有做出创造性劳动前提下所获得的所有其他实施例, 都属于本 发明保护的范围。 本发明实施例提供了一种定位的方法, 如图 1所示, 包括:
101、 服务器确定定位测量参数, 并生成携带有所述定位测量参数的 测量配置信息。 其中, 所述定位测量参数是所述服务器要求终端测量的, 用于定位 终端的参数。 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的 PMI ( Precoding Matrix Indicator, 预编码矩阵指示符) I RI ( Rank Indicator , 秩指示)和多径数, 终端测得的切换失败率, 终端测 得的无线链路失败率, 终端的信干噪比, 以及终端所受到的强干扰小区 数。
需要说明的是, 定位测量参数还可是其他能够使得服务器对终端进 行定位的参数, 本发明对此不做限制。
具体的, 服务器确定出定位测量参数, 在生成测量配置信息时, 将 定位测量参数添加至测量配置信息中。 进一步的, 服务器可以根据需要定位的终端所在的不同场景确定出 需要定位的终端对应的定位测量参数, 此时服务器需先获取终端的场景 信息。
具体的, 服务器获取所述终端的场景信息的方法可以是, 服务器通 过基站向终端发送请求消息, 以获取终端的场景信息。
其中, 若服务器将 LPPa ( LTE ( Long-Term Evolution, 长期演进) Positioning Protocol A, LTE定位协议 a ) 规范的请求消息发送至基站, 则基站接收到请求消息后, 解析此请求消息, 并在基站中已获取了终端 的场景信息的情况下, 则基站将获取的终端的场景信息发送至服务器。 在基站没有获取终端的场景信息的情况下, 基站可以向终端发送此请求 消息, 以使得终端返回场景信息。 并将终端返回的场景信息发送至服务 哭口 o
若月良务器将 LPP( LTE ( Long-Term Evolution,长期演进 Positioning Protocol , LTE定位协议)规范的请求消息发送至基站, 则基站接收到此 请求消息后, 直接将此消息发送至终端, 以使得终端返回场景信息, 并 基站在接收到终端的场景信息后, 直接发送至服务器。 也就是说, 在对 于 LPP规范的请求消息, 基站只是转发的作用, 并作对请求消息进行解 析, 即为将请求消息透传至终端, 并将接收到的终端的场景信息透传至 服务器。
需要说明的是, 服务器还可通过其他方法获取终端的场景信息。 本 发明对此不做限制。 若所述终端的场景信息包括: CA ( Carrier Aggregation, 载波聚合) 场景信息, 则所述服务器将所述终端的信干噪比, 终端所受到的强干扰 小区数, 以及终端的 PMI/ RI 特征和多径数确定为定位测量参数。 若所述终端的场景信息包括: CoMP ( Coordinated Multi-Point, 联 合多点传输) 场景信息, 则所述服务器将所述终端的信干噪比, 终端所 受到的强干扰小区数, 及终端的 PMI/ RI 特征和多径数确定为定位测量 参数。
若所述终端的场景信息包括: MDT ( Minimization of Drive Tests, 最小的驱动测试) 场景信息, 则所述服务器将所述终端测得的切换失败 率, 及终端测得的无线链路失败率确定为定位测量参数。 若所述终端的场景信息包括: WiFi ( Wireless Fidelity, 无线高保真) 或 WAN ( Wide Area Network, 广域网)场景信息, 则服务器将以下参数 或参数组合中的至少一个:终端的预编码矩阵指示符 PMI/秩指示 RI特征 和多径数, 终端测得的切换失败率, 终端测得的无线链路失败率, 终端 的信干噪比, 以及终端所受到的强干扰小区数确定为定位测量参数。 进一步的, 若所述终端的场景信息包括: 所述 CA场景信息, 则所 述服务器还将所述终端使用的载波数, 以及终端的陀螺仪测得的相对于 正北方向旋转角度确定为定位测量参数。
若所述终端的场景信息包括: 所述 CoMP场景信息, 则所述服务器 还将所述终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测 得的相对于正北方向旋转角度确定为定位测量参数。
若所述终端的场景信息包括: WAN或 WiFi场景信息, 则所述服务 器还将所述终端探测的接入点个数及接入点标识确定为定位测量参数。 若所述终端的场景信息包括: MDT场景信息, 则所述服务器还将终 端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺 仪测得的相对于正北方向旋转角度, 以及终端探测的接入点个数及接入 点标识确定为定位测量参数。
或者, 在没有获取终端的场景信息时, 所述定位测量参数还包括以 下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用的测量 接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋转角度, 以及终端探测的接入点个数及接入点标识。 需要说明的是, 服务器确定需定位的终端对应的定位测量参数还可 根据此终端的业务信息, 本发明对此不做限制。
102、 所述服务器通过基站向终端发送所述测量配置信息。
其中, 所述测量配置信息中携带有所述定位测量参数。 具体的, 服务器可以是定位服务器, 也可是 Coordinator (协调服务 器) 。
若服务器为定位服务器, 则定位服务器可以将测量配置信息直接发 送至基站, 基站接收到测量配置信息后, 并不对测量配置信息进行解析, 而是直接将此测量配置信息转发至需要定位的终端, 以使得终端根据所 述测量配置信息的定位测量参数进行测量, 并返回携带有定位响应参数 的配置响应信息。 其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
进一步的, 测量配置信息可以为 LPP ( LTE ( Long-Term Evolution, 长期演进) Positioning Protocol , LTE定位协议) 规范的测量配置信息。 此时,定位服务器可以将定位测量参数通过 eCID ( enhanced cell ID , 增强的小区标识) 的测量配置信令由基站发送至终端。 具体的,定位服务器可以通过在 eCID的测量配置信令中添加确定的 定位测量参数,并将 eCID的测量配置信令信息作为测量配置信息发送至 基站, 并由基站发送将 eCID的测量配置信令信息直接转发至终端。 定位服务器也可以直接将定位测量参数增加至新的信令中, 将新增 加的信令信息作为测量配置信息通过基站发送至终端。 进一步的, 若定位服务器将 LPP规范的测量配置信息发送至基站, 此时基站接收到测量配置信息后, 并不解析此测量配置信息, 直接发送 至终端。 也就是说, 定位服务器将测量配置信息发送至基站, 基站转发 测量配置信息至终端。 即为, 基站将定位服务器发送的测量配置信息透 传至终端。 需要说明的是, 在本发明所有实施例中, 基站为定位服务器要定位 的终端服务的基站。 进一步的, 测量配置信息还可以为 LPPa ( LTE ( Long-Term Evolution, 长期演进) Positioning Protocol A, LTE定位协议 a ) 规范的 测量配置信息。定位服务器可以在通过 eCID的测量配置信令信息中添加 定位测量参数,将 eCID的测量配置信令信息作为测量配置信息发送至基 站。
定位服务器也可以直接将定位测量参数直接增加至新的信令中, 将 新增加的信令信息作为测量配置信息发送至基站。 进一步的, 若定位服务器将 LPPa规范的测量配置信息发送至基站, 此时所述基站接收到测量配置信息后, 解析出所述测量配置信息中携带 的所述定位测量参数, 生成第一测量配置信息, 并将所述第一测量配置 信息发送至相应的终端。 也就是说, 基站在接收到服务发送的测量配置 信息后, 基站对接收到的测量配置信息进行解析, 解析出测量配置信息 中的定位测量参数, 并在生成第一测量配置信息后, 将所述第一测量配 置信息发送至相应的终端。
其中, 所述第一测量配置信息为所述基站在接收到所述服务器发送 的测量配置信息后, 解析出所述测量配置信息中的定位测量参数, 根据 所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信 息。 所述第一测量配置信息中携带有所述定位测量参数。
若服务器为 Coordinator (协调服务器 ) , 则 Coordinator可以将测量 配置信息发送至基站, 以使得所述基站接收到测量配置信息后, 解析出 所述测量配置信息中携带的所述定位测量参数, 并生成第一测量配置信 息, 将所述第一测量配置信息发送至相应的终端。 也可以将测量配置信 息通过基站直接发送至终端。 需要说明的是,服务器还可以是其他能够对终端进行定位的服务器, 本发明对此不做限制。
103、 所述服务器通过所述基站接收所述终端返回的配置响应信息。 其中, 所述第一配置响应信息中携带有定位响应参数。 所述定位响 应参数是所述终端测量的所述定位测量参数的测量结果。
具体的, 若服务器将测量配置信息通过基站直接发送至终端的情况 下, 服务器将接收到基站发送的、 在基站接到终端发送的配置响应信息 后, 而未解析直接转发至服务器的配置响应信息。 可选的, 终端将 LPP规范的配置响应信息发送至基站, 基站直接转 发至服务器。 在服务器将测量配置信息发送至基站, 基站对测量配置信息进行解 析后, 生成携带有定位测量参数的第一测量配置信息的情况下, 服务器 接收到的、 基站发送的配置响应信息为: 基站在接到终端返回的第一配 置响应信息, 解析出第一配置响应信息中携带的定位响应参数后, 生成 的携带有定位响应参数的、 用于发送至服务器的配置响应信息。
可选的, 终端将 LPPa规范的第一配置响应信息发送至基站,基站对 所述第一配置响应信息进行解析, 并生成用于发送至服务器基站的配置 响应信息, 发送至服务器。
104、所述服务器根据所述配置响应信息中携带的所述定位响应参数 对所述终端进行定位。
具体来说, 该服务器根据定位响应参数对终端进行定位之前, 可以 包括: 将网络进行栅格化; 以及对各栅格进行数据釆集 (比如, 可以釆 用路测 (DT ) 或数学建模方式) , 每个栅格对应有一套参数值, 将网络 中所有栅格对应的参数值都保存到服务器中。 也就是说, 对应不同类型 的定位测量参数, 栅格对应的参数值也相应地有所不同。 在此可以将栅 格对应的参数值称为定位参数值。 此时, 所述服务器中保存网络被栅格 化后各个栅格对应的定位参数值。
相应地, 该服务器根据定位响应参数对终端进行定位则可以包括: 所述服务器将所述定位响应参数与各个栅格对应的定位参数值进行比 较, 将定位参数值与定位响应参数最接近的栅格作为匹配栅格, 并将所 述匹配栅格的位置作为所述终端所在的位置。
其中, 服务器将 UE 实际测得的参数值与每个栅格所对应的参数值 进行比较,将参数值与 UE实际测得的参数值最为接近的栅格作为匹配栅 格; 然后, 服务器将匹配栅格的位置作为终端目前所在的位置。 之后即 可将该位置信息下发给 UE , 当然也可以执行其他操作。
该服务器的具体定位处理在此举例说明, 其他实施例的处理方法类 似。 进一步的, 服务器在接收到配置响应信息后, 根据配置响应信息中 携带的定位响应参数对终端进行定位。 其中, 定位响应参数包括以下参 数或参数组合中的至少一个: 终端的 PMI/ RI特征和多径数的测量值, 终 端测得的切换失败率的测量值, 终端测得的无线链路失败率的测量值, 终端的信干噪比的测量值, 以及终端所受到的强干扰小区数的测量值。 进一步的, 若所述终端的场景信息包括: CA场景信息, 则所述定位 响应参数包括: 所述终端的信干噪比的测量值, 终端所受到的强干扰小 区数的测量值, 以及终端的 PMI/ RI 特征和多径数的测量值。 或者, 若所述终端的场景信息包括: CoMP场景信息, 则所述定位响应参 数包括: 所述终端的信干噪比的测量值, 终端所受到的强干扰小区数的 测量值, 及终端的 PMI/ RI 特征和多径数的测量值。 或者,
若所述终端的场景信息包括: MDT 场景信息, 则所述定位响应参 数包括: 所述终端测得的切换失败率的测量值, 及终端测得的无线链路 失败率的测量值。 或者, 若所述终端的场景信息包括: WAN或 WiFi场景信息, 则所述定位 响应参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指 示符 PMI/秩指示 RI特征和多径数的测量值,终端测得的切换失败率的测 量值, 终端测得的无线链路失败率的测量值, 终端的信干噪比的测量值, 以及终端所受到的强干扰小区数的测量值。 进一步的, 所述终端的场景信息包括: CA场景信息, 则所述定位响 应参数还包括: 终端使用的载波数的测量值, 以及终端的陀螺仪测得的 相对于正北方向旋转角度的测量值。 或者,
若所述终端的场景信息包括: CoMP 场景信息, 则所述定位响应参 数还包括: 终端使用的测量接入点个数和信号强度的测量值, 以及终端 的陀螺仪测得的相对于正北方向旋转角度的测量值。 或者,
若所述终端的场景信息包括: WAN或 WiFi场景信息, 则所述定位 响应参数还包括: 终端探测的接入点个数及接入点标识的测量值。 或者, 若所述终端的场景信息包括: MDT 场景信息, 则定位响应参数包 括: 终端使用的载波数的测量值, 终端使用的测量接入点个数和信号强 度的测量值, 终端的陀螺仪测得的相对于正北方向旋转角度的测量值, 以及终端探测的接入点个数及接入点标识的测量值。 或者, 在没有获取终端的场景信息时, 所述定位响应参数还包括以 下参数或参数组合中的至少一个: 终端使用的载波数的测量值, 终端使 用的测量接入点个数和信号强度的测量值, 终端的陀螺仪测得的相对于 正北方向旋转角度的测量值, 以及终端探测的接入点个数及接入点标识 的测量值。 该服务器的具体定位响应参数在此举例说明, 其他实施例的定位响 应参数类似。 本发明实施例提供了一种定位的方法, 服务器发送携带有定位测量 参数的测量配置信息, 以使得终端根据定位测量参数进行测量, 获取定 位响应参数。 在服务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应参数对终端进行定位。 这样, 服务器根据终端的至少一个 与终端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进 行定位, 从而提高了定位的精度。 本发明实施例提供了一种定位的方法, 如图 2所示, 包括:
201、 终端获取服务器通过基站发送的测量配置信息。
其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参 数是服务器要求终端测量的, 用于定位终端的参数。 所述定位测量参数 包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。 进一步的, 若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰 小区数, 以及终端的 PMI/ RI 特征和多径数; 或者, 若所述终端的场景 信息包括: 联合多点传输 CoMP 场景信息, 则所述定位测量参数包括: 所述终端的信干噪比,终端所受到的强干扰小区数,及终端的 PMI/ RI 特 征和多径数; 或者, 若所述终端的场景信息包括: 最小的驱动测试 MDT 场景信息, 则所述定位测量参数包括: 所述终端测得的切换失败率, 及 终端测得的无线链路失败率。
更进一步的, 若所述终端的场景信息包括: 所述 CA场景信息, 所 述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺仪测得的 相对于正北方向旋转角度;或者,若所述终端的场景信息包括:所述 CoMP 的场景信息, 则所述定位测量参数还包括: 终端使用的测量接入点个数 和信号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场景信 息, 则所述定位测量参数还包括: 终端探测的接入点个数及接入点标识。
或者, 在服务器没有获取终端的场景信息时, 所述定位测量参数还 包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用 的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋 转角度, 以及终端探测的接入点个数及接入点标识。 具体的,所述终端可以接收基站转发的服务器发送的测量配置信息, 此时, 基站接收到服务器发送的测量配置信息后, 不对测量配置信息进 行解析, 直接转发至终端。 也就是说, 终端接收到的测量配置信息是服 务器发送的测量配置信息。
或者, 所述终端也可接收基站根据服务器发送的测量配置信息生成 的第一测量配置信息。 此时, 基站接收到服务器发送的测量配置信息后, 生成第一测量配置信息, 并将第一测量配置信息发送至终端, 终端接收 第一测量配置信息。 此时, 测量配置信息包括: 第一测量配置信息。 第 一测量配置信息中携带有定位测量参数。
需要说明的是, 第一测量配置信息与服务器发的测量配置信息可以 相同, 也可不同。 例如, 基站可以在服务器发送的测量配置信息的基础 上添加终端测量定位测量参数时的具体实现方式的信息, 例如终端周期 性向基站返回配置响应信息, 还是突发性向基站返回配置响应信息的信 息。
需要说明的是, 突发性向基站返回配置响应信息是指终端只有在接 收到测量配置信息时, 才向基站返回配置响应信息。 终端在没有接收到 测量配置信息时, 不向基站返回配置响应信息。
202、所述终端根据所述测量配置信息中携带的所述定位测量参数进 行测量, 获取定位响应参数, 以及生成携带所述定位响应参数的配置响 应信息。
其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
具体的, 终端接收到测量配置信息后, 根据测量配置信息中携带的 定位测量参数进行测量, 将测得的服务器定位所需的定位测量参数的结 果作为定位响应参数, 并根据接收到的测量配置信息生成相应的配置响 应信息。
需要说明的是, 终端返回的定位响应参数与服务器通过基站接收的 配置响应信息中携带的定位响应参数相同, 在此不再赘述。
203、 所述终端通过基站向所述服务器发送配置响应信息, 所述配置 响应信息中携带所述定位响应参数, 以使得所述服务器根据所述定位响 应参数对所述终端进行定位。
具体的, 终端在获取定位响应参数后, 将定位响应参数添加至配置 响应信息中。 若终端在步骤 201 中, 接收到测量配置信息为服务器发送 的, 基站未进行解析的测量配置信息, 则将定位响应参数添加至配置响 应信息中, 通过基站转发至服务器。
进一步的, 终端接收基站发送的测量配置信息, 则终端可以将定位 响应参数在 LPP规范的添加 eCID的测量配置上 信令中, 将 eCID的测 量配置上报信令信息作为配置响应信息通过基站发送至服务器。 终端也 可以将定位响应参数新增加至 LPP规范的上报信令, 将定位响应参数添 加至新增加的上报信令中, 将新增加的上报信令信息作为配置响应信息 通过基站发送至服务器。
若终端在步骤 201 中, 接收到测量配置信息为基站发送的第一测量 配置信息, 则说明基站是接收到服务器发送的测量配置信息后, 对此测 量配置信息进行了解析, 并生成第一测量配置信息。 此时, 终端将定位 响应参数添加至第一配置响应信息中。 所述终端向所述基站发送所述第 一配置响应信息, 以使得基站接收到所述第一配置响应信息后, 生成向 所述服务器发送的配置响应信息, 并将所述配置响应信息发送至所述服 务器, 其中, 所述配置响应信息中携带有所述定位响应参数。 进一步的,终端可以将定位响应参数添加至 eCID的配置响应上报信 令作为第一配置响应信息发送至基站。 或者, 终端也可定位响应参数增 加新的上报信令作为第一配置响应信息发送至基站。 本发明实施例提供了一种定位的方法, 终端接收到携带有定位 'J量 参数的测量配置信息, 根据定位测量参数进行测量, 获取定位响应参数。 将定位响应参数添加至配置响应信息中通过基站发送至服务器, 以使得 在服务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应 参数对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终 端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定 位, 从而提高了定位的精度。 本发明实施例提供了一种定位方法, 如图 3所示, 包括:
301、 基站接收服务器发送的测量配置信息。
其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参 数是服务器要求终端测量的, 用于定位终端的参数。 所述定位测量参数 可以包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。
进一步的, 若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰 小区数, 以及终端的 PMI/ RI 特征和多径数。 或者, 若所述终端的场景 信息包括: 联合多点传输 CoMP 场景信息, 则所述定位测量参数包括: 所述终端的信干噪比,终端所受到的强干扰小区数,及终端的 PMI/ RI 特 征和多径数。 或者, 若所述终端的场景信息包括: 最小的驱动测试 MDT 场景信息, 则所述定位测量参数包括: 所述终端测得的切换失败率, 及 终端测得的无线链路失败率。 或者, 若所述终端的场景信息包括: WiFi ( Wireless Fidelity, 无线高保真)或 WAN ( Wide Area Network, 广域网) 场景信息, 则所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数,终端测得的切换 失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受 到的强干扰小区数。
更进一步的, 若所述终端的场景信息包括: 所述 CA场景信息, 所 述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺仪测得的 相对于正北方向旋转角度。或者,若所述终端的场景信息包括:所述 CoMP 的场景信息, 则所述定位测量参数还包括: 终端使用的测量接入点个数 和信号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度。 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场景信 息, 则所述定位测量参数还包括: 终端探测的接入点个数及接入点标识。 或者, 若所述终端的场景信息包括: MDT场景信息, 则所述定位测量参 数还包括: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋转角度, 以及终端探 'J的接入,、 个数及接入点标识。
或者, 在服务器没有获取终端的场景信息时, 所述定位测量参数还 包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用 的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方向旋 转角度, 以及终端探测的接入点个数及接入点标识。 可选的, 基站可以接收定位服务器发送的测量配置信息, 也可接收 Coordinator发送的测量配置信息。
302、 所述基站将所述测量配置信息发送至终端。 具体的, 若服务器向基站发送的测量配置信息基站无法解析, 则基 站将此测量配置信息直接发送至终端。 例如, 服务器向基站发送 LPP规 范的测量配置信息, 此时基站无法解析此测量配置信息, 则基站接收到 测量配置信息后, 将此测量配置信息直接转发至终端。 进一步的, 基站可以通过服务器获知服务器需对其服务的哪个终端 进行定位。 若服务器向基站发送的测量配置信息基站可以解析, 此时, 基站解 析所述测量配置信息, 获取所述定位测量参数。 所述基站生成第一测量 配置信息, 将所述定位测量参数添加至所述第一测量配置信息。 向终端 发送所述第一测量配置信息。 具体的, 若基站可以解析服务器发送的测量配置信息, 则此时基站 需解析此测量配置信息, 解析出测量配置信息中携带的定位测量参数, 并生成用于发送至终端的第一测量配置信息, 将此第一测量配置信息发 送至终端。 例如, 服务器向基站发送 LPPa规范的测量配置信息, 基站接 收到此测量配置信息后, 解析此测量配置信息, 获取测量配置信息中的 定位测量参数。 并生成用于发送至终端的第一测量配置信息, 将定位测 量参数添加至第一测量配置信息中, 发送至终端。 进一步的, 基站可以将定位测量参数添加至测量信令中, 并将测量 信令信息作为第一测量配置信息发送至终端。
更进一步的, 基站在解析出定位测量参数时, 能够获知服务器需对 其服务的哪个终端进行定位。
303、 所述基站接收终端发送的配置响应信息。 其中, 所述配置响应信息中携带有定位响应参数。 所述定位响应参 数是所述终端测量的所述定位测量参数的测量结果。 具体的, 若在步骤 302 中, 基站将服务器发送的测量配置信息没有 解析直接转发至终端, 则终端获取了定位响应参数后, 生成与测量配置 信息相同格式的配置响应信息, 并将定位响应参数添加至定位响应参数, 发送至基站。 基站接收到此配置响应信息后, 不解析此配置响应信息, 直接将此配置响应信息转发至服务器。
若在步骤 302 中, 基站将服务器发送的测量配置信息进行解析, 向 终端发送了第一测量配置信息。 此时, 基站接收到终端发送的第一配置 响应信息。 所述第一配置响应信息中携带有定位响应参数。 基站解析所 述第一配置响应信息, 获取所述定位响应参数。 所述基站生成向所述服 务器发送的配置响应信息, 将所述定位响应参数添加至所述配置响应信 息中。
需要说明的是, 终端返回的定位响应参数与服务器通过基站接收的 配置响应信息中携带的定位响应参数相同, 在此不再赘述。
304、 所述基站将所述配置响应信息发送至所述服务器。
具体的, 基站将生成的, 所述用于向所述服务器发送的配置响应信 息发送至所述服务器。 或者, 基站将接收的终端发送的配置响应信息转 发至服务器。 进一步的,基站可以在 eCID的配置响应上 ^艮信令中添加定位响应参 数, 基站将 eCID的配置响应上报信令作配置响应信息发送至服务器。 基 站也可以通过在新增加的上报信令中添加定位响应参数, 并将新增加的 上报信令信息作为配置响应信息发送至服务器。 本发明实施例提供了一种定位的方法, 基站接收到服务器发送的测 量配置信息后, 若基站不能解析此测量配置信息, 则直接将此测量配置 信息发送至终端。 若能够解析此测量配置信息, 则解析出此测量配置信 息中携带的定位测量参数, 并将定位测量参数添加至第一测量配置信息 中发送至终端, 以使得终端接收到携带有定位测量参数的第一测量配置 信息, 根据定位测量参数进行测量, 获取定位响应参数。 基站将获取的 配置响应信息中发送至服务器, 以使得在服务器接收到携带有定位响应 参数的配置响应信息时, 根据定位响应参数对终端进行定位。 这样, 使 得服务器能够根据终端的至少一个与终端位置有关的参数对终端进行定 位, 能够更准确的对终端的位置进行定位, 从而提高了定位的精度。 本发明实施例提供了一种定位的方法, 如图 4所示, 包括:
401、 所述服务器获取所述终端的场景信息。 具体的, 所述服务器获取所述终端的场景信息的方法可以是, 服务 器向所述基站发送用于获取终端场景信息的请求消息, 并从所述基站反 馈的响应消息中获取终端的场景信息。 其中, 若服务器将 LPPa规范的请求消息发送至基站, 则基站接收到 请求消息后, 在基站中已获取了终端的场景信息的情况下, 将获取的终 端的场景信息发送至服务器。 在基站没有获取终端的场景信息的情况下, 基站可以向终端发送此请求消息, 以使得终端返回携带有场景信息的响 应信息。 基站将携带有场景信息的响应信息发送至服务器。 若服务器将 LPP规范的请求消息发送至基站, 则基站接收到此请求 消息后, 直接将此消息发送至终端。 并基站在接收到终端的场景信息的 响应信息后, 直接发送至服务器。 需要说明的是, 服务器发送 LPPa规范或 LPP规范的请求消息的实 现方案, 与前述实施例中的方案类似, 在此不再赘述。 另外, 服务器还 可通过其他方法获取终端的场景信息。 本发明对此不做限制。
402、 与步骤 101相同, 在此不再赘述。
403、 服务器将测量配置信息发送至基站。 基站接收测量配置信息。 具体的, 服务器将测量配置信息发送至基站, 可参考步骤 102 , 基 站接收测量配置信息, 可参考步骤 301 , 在此不再赘述。
404、 所述基站将所述测量配置信息发送至终端, 终端获取测量配置 信息。
具体的, 所述基站将所述测量配置信息发送至终端可参考步骤 302 相同, 终端获取测量配置信息可参考步骤 201 , 在此不再赘述。
405、 与步骤 202相同, 在此不再赘述。
406、 终端向基站发送配置响应信息, 基站接收第二配置响应信息。 具体的, 终端向基站发送配置响应信息, 可参考步骤 203 , 基站接 收配置响应信息, 可参考步骤 303 , 在此不再赘述。
407、 基站向服务器发送配置响应信息, 服务器接收基站发送的终端 返回的配置响应信息。
具体的, 基站向服务器发送第一配置响应信息, 可参考步骤 304 , 服务器接收第一配置响应信息, 可参考步骤 103 , 在此不再赘述。
408、 与步骤 104相同, 在此不再赘述。 本发明实施例提供了一种定位的方法, 服务器将携带有定位测量参 数的测量配置信息发送至基站, 基站接收到携带有定位测量参数的测量 配置信息后, 若能解析服务器发送的测量配置信息, 则解析出定位测量 参数, 将此定位测量参数添加至第一测量配置信息, 并向终端发送第一 测量配置信息。 若不能解析服务器发送的测量配置信息, 则转发至终端, 使得终端接收到测量配置信息后, 根据定位测量参数进行测量, 获取定 位响应参数。 将定位响应参数添加至配置响应信息中发送至基站, 基站 将配置响应信息发送至服务器; 服务器在接收到携带有定位响应参数的 第一配置响应信息时, 根据定位响应参数对终端进行定位。 这样, 使得 服务器能够根据终端的至少一个与终端位置有关的参数对终端进行定 位, 能够更准确的对终端的位置进行定位, 从而提高了定位的精度。 本发明实施例提供了一种服务器, 如图 5所示, 包括:
处理单元 601 , 用于确定定位测量参数, 并生成携带有所述定位测 量参数的测量配置信息, 并通过发送单元 602 向终端发送所述测量配置 信息。
其中, 所述定位测量参数是服务器要求终端测量的, 用于定位终端 的参数。 所述定位测量参数包括以下参数或参数组合中的至少一个: 终 端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数,终端测得的切换失 败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受到 的强干扰小区数。
进一步的, 所述处理单元 601 , 还用于向所述基站发送用于获取终 端场景信息的请求消息, 并从所述基站反馈的响应消息中获取所述终端 的场景信息。
此时, 所述处理单元 601 用于确定定位测量参数包括: 根据获取的 所述终端的场景信息确定定位测量参数。
具体的, 所述处理单元 601 用于根据获取的所述终端的场景信息确 定定位测量参数包括以下至少一个: 若所述终端的场景信息包括: 载波 聚合 CA场景信息, 则将所述终端的信干噪比, 终端所受到的强干扰小区 数, 以及终端的 PMI/ RI 特征和多径数确定为定位测量参数。
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则将 所述终端的信干噪比,终端所受到的强干扰小区数,及终端的 PMI/ RI 特 征和多径数确定为定位测量参数。
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则将 所述终端测得的切换失败率, 及终端测得的无线链路失败率确定为定位 测量参数。
若所述终端的场景信息包括: 无线高保真 WiFi或广域网 WAN场景 信息, 则将以下参数或参数组合中的至少一个: 终端的预编码矩阵指示 符 PMI/秩指示 RI特征和多径数, 终端测得的切换失败率, 终端测得的无 线链路失败率, 终端的信干噪比, 以及终端所受到的强干扰小区数确定 为定位测量参数。
进一步的, 所述处理单元 601用于根据获取的所述终端的场景信息 确定定位测量参数还包括以下至少一个: 若所述终端的场景信息包括: 所述 CA场景信息,还将终端使用的载波数, 以及终端的陀螺仪测得的相 对于正北方向旋转角度确定为定位测量参数。
若所述终端的场景信息包括: 所述 CoMP场景信息, 则还将所述终 端使用的测量接入点个数和信号强度, 以及终端的陀螺仪 'J得的相对于 正北方向旋转角度确定为定位测量参数。 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi场景 信息, 则还将所述终端探测的接入点个数及接入点标识确定为定位测量 参数。
若所述终端的场景信息包括: MDT场景信息, 则还将终端使用的载 波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相 对于正北方向旋转角度, 以及终端探测的接入点个数及接入点标识确定 为定位测量参数。 或者, 在所述服务器没有获取终端的场景信息时, 所述定位测量参 数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端 使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北方 向旋转角度, 以及终端探测的接入点个数及接入点标识。 需要说明的是, 在本发明所有实施例中, 定位测量参数是本发明实 施例中服务器确定并发送的定位测量参数, 在此不再赘述。
发送单元 602 , 用于通过基站向终端发送所述处理单元 601 生成的 所述测量配置信息。 其中。 所述第一测量配置信息中携带有所述定位测量参数。
具体的, 所述发送单元 602具体用于, 向基站发送测量配置信息, 以使得所述基站接收到所述测量配置信息后, 生成第一测量配置信息, 并将所述第一测量配置信息发送至相应的终端。 其中, 所述第一测量配置信息为所述基站在接收到所述服务器发送 的测量配置信息后, 解析出所述测量配置信息中的定位测量参数, 根据 所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信 息; 所述第一测量配置信息中携带有所述定位测量参数。
接收单元 603 , 用于通过所述基站接收终端返回的配置响应信息。 其中, 所述配置响应信息中携带有定位响应参数。 所述定位响应参 数是所述终端测量的所述定位测量参数的测量结果。
所述处理单元 601 , 还用于根据所述接收单元 603接收到的所述配 置响应信息中携带的所述定位响应参数对所述终端进行定位。 位参数值。
此时, 所述处理单元 601用于根据所述接收单元接收到的所述配置 响应信息中携带的所述定位响应参数对所述终端进行定位, 包括: 将所 比较, 将所述定位参数值与所述定位响应参数最接近的栅格作为匹配栅 格, 并将所述匹配栅格的位置作为所述终端所在的位置。 本发明实施例提供了一种服务器, 服务器发送携带有定位测量参数 的测量配置信息, 以使得终端根据定位测量参数进行测量, 获取定位响 应参数。 在服务器接收到携带有定位响应参数的配置响应信息时, 根据 定位响应参数对终端进行定位。 这样, 服务器根据终端的至少一个与终 端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定 位, 从而提高了定位的精度。 本发明实施例提供了一种终端, 如图 6所示, 包括:
接收单元 701 , 用于获取服务器通过基站发送的测量配置信息。 其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参 数是服务器要求终端测量的, 用于定位终端的参数。 所述定位测量参数 包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。 需要说明的是, 终端接收的定位测量参数与服务器确定并发送的定 位测量参数相同, 在此不再赘述。 具体的, 在所述测量配置信息包括: 第一测量配置信息的情况下, 所述接收单元 701具体用于, 接收基站发送的所述第一测量配置信息。 其中, 所述第一测量配置信息为所述基站在接收到所述服务器发送 的测量配置信息后, 解析出所述测量配置信息中的定位测量参数, 根据 所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信 息; 所述第一测量配置信息中携带有所述定位测量参数。
处理单元 702 , 用于根据所述接收单元接收的所述测量配置信息中 携带的所述定位测量参数进行测量, 获取定位响应参数, 以及生成携带 所述定位响应参数的配置响应信息。 其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
发送单元 703 , 用于通过基站向所述服务器发送所述处理单元 702 生成的配置响应信息。 其中, 所述配置响应信息中携带所述定位响应参数。
具体的, 若接收单元 701接收到基站发送的第一测量配置信息, 则 所述配置响应信息包括: 第一配置响应信息。 所述发送单元 703具体用于, 向所述基站发送所述第一配置响应信 息, 以使得基站接收到所述第一配置响应信息后, 生成向所述服务器发 送的配置响应信息, 将所述配置响应信息发送至所述服务器。
其中, 所述配置响应信息中携带有将所述定位响应参数。 本发明实施例提供了一种终端, 终端接收到携带有定位测量参数的 测量配置信息, 根据定位测量参数进行测量, 获取定位响应参数。 将定 位响应参数添加至配置响应信息中通过基站发送至服务器, 以使得在服 务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应参数 对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终端位 置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定位, 从而提高了定位的精度。 本发明实施例提供了一种基站, 如图 7所示, 包括:
接收单元 801 , 用于接收服务器发送的测量配置信息。
其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参数是服务器要求终端测量的,用于定位终端的参数。 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。
需要说明的是, 基站接收的定位测量参数与服务器确定并发送的定 位测量参数相同, 在此不再赘述。 发送单元 802 , 用于将所述接收单元 801 接收的所述测量配置信息 发送至终端。 所述接收单元 801 , 还用于接收所述终端发送的配置响应信息, 所 述配置响应信息中携带有定位响应参数。 其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
所述发送单元 802 , 还用于将所述接收单元 801 接收的所述配置响 应信息发送至所述服务器。
上述基站, 如图 8所示, 还包括:
处理单元 803 , 用于解析所述接收单元 801 接收的所述测量配置信 息, 获取定位测量参数。
所述处理单元 803 , 还用于生成第一测量配置信息, 并将所述定位 测量参数添加至所述第一测量配置信息。
此时, 所述发送单元 802用于将所述接收单元接收的所述测量配置 信息发送至终端, 包括: 向终端发送所述处理单元 803 生成的所述第一 测量配置信息。
进一步的, 所述接收单元 801用于接收所述终端发送的配置响应信 息包括: 接收所述终端发送的第一配置响应信息, 所述第一配置响应信 息中携带有定位响应参数。 所述处理单元 803 , 还用于解析所述接收单元 801 接收的所述第一 配置响应信息, 获取所述定位响应参数。
所述处理单元 803 , 还用于生成用于向所述服务器发送的配置响应 信息, 并将所述定位响应参数添加至所述配置响应信息中。
此时, 发送单元 802用于将所述接收单元接收的所述配置响应信息 发送至所述服务器包括: 将所述处理单元 803 生成的所述配置响应信息 发送至所述服务器。 本发明实施例提供了一种基站, 本发明实施例提供了一种定位的方 法, 基站接收到服务器发送的测量配置信息后, 若基站不能解析此测量 配置信息, 则直接将此测量配置信息发送至终端。 若能够解析此测量配 置信息, 则解析出此测量配置信息中携带的定位测量参数, 并将定位测 量参数添加至第一测量配置信息中发送至终端, 以使得终端接收到携带 有定位测量参数的第一测量配置信息, 根据定位测量参数进行测量, 获 取定位响应参数。 基站将获取的配置响应信息中发送至服务器, 以使得 在服务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应 参数对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终 端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定 位, 从而提高了定位的精度。 本发明实施例提供了一种服务器, 如图 9所示, 包括: 发射机 901、 接收机 902、 存储器 903 以及分别与发射机 901、 接收机 902和存储器 903连接的处理器 904。 所述存储器 903中存储一组程序代码, 且处理器 904用于调用存储 器 903中存储的程序代码, 用于执行以下操作: 处理器 904 , 用于确定定位测量参数, 并生成携带有所述定位测量 参数的测量配置信息, 并通过发射机 901向终端发送所述测量配置信息。 其中, 所述定位测量参数是服务器要求终端测量的, 用于定位终端 的参数。 所述定位测量参数包括以下参数或参数组合中的至少一个: 终 端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数,终端测得的切换失 败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受到 的强干扰小区数。 需要说明的是, 处理器 904确定定位测量参数的各种可能实现与前 述实施例中服务器确定定位测量参数的各种实现相同, 在此不再赘述。
进一步的, 所述处理器 904 , 还用于向所述基站发送用于获取终端 场景信息的请求消息, 并从所述基站反馈的响应消息中获取所述终端的 场景信息。
此时, 所述处理器 904用于确定定位测量参数包括: 根据获取的所 述终端的场景信息确定定位测量参数。 发射机 901 , 用于通过基站向终端所述测量配置信息。 其中, 所述第一测量配置信息中携带有所述定位测量参数。
具体的, 所述发射机 901具体用于, 向基站发送测量配置信息, 以 使得所述基站接收到所述测量配置信息后, 生成第一测量配置信息, 并 将所述第一测量配置信息发送至相应的终端。
其中, 所述第一测量配置信息为所述基站在接收到所述服务器发送 的测量配置信息后, 解析出所述测量配置信息中的定位测量参数, 根据 所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信 息; 所述第一测量配置信息中携带有所述定位测量参数。
接收机 902 , 用于通过所述基站接收终端返回的配置响应信息。 其中, 所述配置响应信息中携带有定位响应参数。 所述定位响应参 数是所述终端测量的所述定位测量参数的测量结果。
所述处理器 904 , 还用于根据所述配置响应信息中携带的所述定位 响应参数对所述终端进行定位。
参数值。
此时, 所述处理器 904用于根据所述接收单元接收到的所述配置响 应信息中携带的所述定位响应参数对所述终端进行定位, 包括: 将所述 较, 将所述定位参数值与所述定位响应参数最接近的栅格作为匹配栅格, 并将所述匹配栅格的位置作为所述终端所在的位置。 本发明实施例提供了一种服务器, 服务器发送携带有定位测量参数 的测量配置信息, 以使得终端根据定位测量参数进行测量, 获取定位响 应参数。 在服务器接收到携带有定位响应参数的配置响应信息时, 根据 定位响应参数对终端进行定位。 这样, 服务器根据终端的至少一个与终 端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定 位, 从而提高了定位的精度。 本发明实施例提供了一种终端, 如图 10所示, 包括: 发射机 1001、 接收机 1002、 存储器 1003 以及分别与发射机 1001、 接收机 1002和存 储器 1003连接的处理器 1004。 所述存储器 1003中存储一组程序代码, 且处理器 1004用于调用存 储器 1003中存储的程序代码, 用于执行以下操作: 接收机 1002 , 用于获取服务器通过基站发送的测量配置信息。
其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参 数是服务器要求终端测量的, 用于定位终端的参数。 所述定位测量参数 包括以下参数或参数组合中的至少一个:
终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。
需要说明的是,接收机 1002获取的测量配置信息中携带的定位测量 参数的各种可能实现与前述实施例中终端接收定位测量参数的各种实现 相同, 在此不再赘述。 具体的, 在所述测量配置信息包括: 第一测量配置信息的情况下, 接收机 1002具体用于, 接收基站发送的所述第一测量配置信息。 其中, 所述第一测量配置信息为所述基站在接收到所述服务器发送 的测量配置信息后, 解析出所述测量配置信息中的定位测量参数, 根据 所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信 息; 所述第一测量配置信息中携带有所述定位测量参数。
处理器 1004 , 用于根据所述测量配置信息中携带的所述定位测量参 数进行测量, 获取定位响应参数, 以及生成携带所述定位响应参数的配 置响应信息。 其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
发射机 1001 , 用于通过基站向所述服务器发送所述处理器 1004 生 成的配置响应信息。 其中, 所述配置响应信息中携带所述定位响应参数。
具体的, 若接收机 1002接收到基站发送的第一测量配置信息, 则所 述配置响应信息包括: 第一配置响应信息。 发射机 1001具体用于, 向所述基站发送所述第一配置响应信息, 以 使得基站接收到所述第一配置响应信息后, 生成向所述服务器发送的配 置响应信息, 将所述配置响应信息发送至所述服务器。 其中, 所述配置响应信息中携带有将所述定位响应参数。 本发明实施例提供了一种终端, 终端接收到携带有定位测量参数的 测量配置信息, 根据定位测量参数进行测量, 获取定位响应参数。 将定 位响应参数添加至配置响应信息中通过基站发送至服务器, 以使得在服 务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应参数 对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终端位 置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定位, 从而提高了定位的精度。 本发明实施例提供了一种基站, 如图 11所示, 包括: 发射机 1101、 接收机 1102、存储器 1103 以及分别与发射机 1101、接收机 1102和存储 器 1103连接的处理器 1104。 所述存储器 1103中存储一组程序代码, 且处理器 1104用于调用存 储器 1103中存储的程序代码, 用于执行以下操作: 接收机 1102 , 用于接收服务器发送的测量配置信息。
其中, 所述测量配置信息中携带有定位测量参数。 所述定位测量参数是服务器要求终端测量的,用于定位终端的参数。 所述定位测量参数包括以下参数或参数组合中的至少一个:
终端的预编码矩阵指示符 ΡΜΙ/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数。
需要说明的是,接收机 1102获取的测量配置信息中携带的定位测量 参数的各种可能实现与前述实施例中基站接收定位测量参数的各种实现 相同, 在此不再赘述。 发射机 1101 , 用于将所述测量配置信息发送至终端。
接收机 1102 , 还用于接收所述终端发送的配置响应信息, 所述配置 响应信息中携带有定位响应参数。 其中, 所述定位响应参数是所述终端测量的所述定位测量参数的测 量结果。
发射机 1101 , 还用于将所述配置响应信息发送至所述服务器。
进一步的, 所述处理器 1104 , 用于解析所述接收机 1102接收的所 述测量配置信息, 获取定位测量参数。
所述处理器 1104 , 还用于生成第一测量配置信息, 并将所述定位测 量参数添加至所述第一测量配置信息。
此时,所述发射机 1101用于将所述接收单元接收的所述测量配置信 息发送至终端, 包括: 向终端发送所述处理器 1104生成的所述第一测量 配置信息。
进一步的,所述接收机 1102用于接收所述终端发送的配置响应信息 包括: 接收所述终端发送的第一配置响应信息, 所述第一配置响应信息 中携带有定位响应参数。
所述处理器 1104 , 还用于解析所述接收机 1102接收的所述第一配 置响应信息, 获取所述定位响应参数。 所述处理器 1104 , 还用于生成用于向所述服务器发送的配置响应信 息, 并将所述定位响应参数添加至所述用于向所述服务器发送的配置响 应信息中。
此时,所述发射机 1101用于将所述接收单元接收的所述配置响应信 息发送至所述服务器包括: 将所述用于向所述服务器发送所述处理器 1104生成的所述配置响应信息发送至所述服务器。 本发明实施例提供了一种基站, 本发明实施例提供了一种定位的方 法, 基站接收到服务器发送的测量配置信息后, 若基站不能解析此测量 配置信息, 则直接将此测量配置信息发送至终端。 若能够解析此测量配 置信息, 则解析出此测量配置信息中携带的定位测量参数, 并将定位测 量参数添加至第一测量配置信息中发送至终端, 以使得终端接收到携带 有定位测量参数的第一测量配置信息, 根据定位测量参数进行测量, 获 取定位响应参数。 基站将获取的配置响应信息中发送至服务器, 以使得 在服务器接收到携带有定位响应参数的配置响应信息时, 根据定位响应 参数对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终 端位置有关的参数对终端进行定位, 能够更准确的对终端的位置进行定 位, 从而提高了定位的精度。 本发明实施例提供了一种定位的系统, 如图 12所示, 包括: 服务器 1201 , 终端 1202 , 基站 1203。 其中, 所述服务器 1201为上述实施例所述的服务器。
所述终端 1202为上述实施例提供的终端。 所述基站 1203为上述实施例提供的基站。 本发明实施例提供了定位的方法、 装置及系统, 服务器将携带有定 位测量参数的测量配置信息发送至基站, 基站接收到携带有定位测量参 数的测量配置信息后, 若能解析服务器发送的测量配置信息, 则解析出 定位测量参数, 将此定位测量参数添加至第一测量配置信息, 并向终端 发送第一测量配置信息。 若不能解析服务器发送的测量配置信息, 则转 发至终端, 使得终端接收到测量配置信息后, 根据定位测量参数进行测 量, 获取定位响应参数。 将定位响应参数添加至配置响应信息中发送至 基站, 基站将配置响应信息发送至服务器; 服务器在接收到携带有定位 响应参数的第一配置响应信息时, 根据定位响应参数对终端进行定位。 这样, 使得服务器能够根据终端的至少一个与终端位置有关的参数对终 端进行定位, 能够更准确的对终端的位置进行定位, 从而提高了定位的 精度。
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围并不 局限于此, 任何熟悉本技术领域的技术人员在本发明揭露的技术范围 可轻易想到变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 发明的保护范围应以所述权利要求的保护范围为准。

Claims

权 利 要 求 书
1、 一种定位的方法, 其特征在于, 包括:
服务器确定定位测量参数, 并生成携带有所述定位测量参数的测量 配置信息; 所述定位测量参数是服务器要求终端测量的、 且用于定位终 端的参数; 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数;
所述服务器通过基站向终端发送所述测量配置信息;
所述服务器通过所述基站接收所述终端返回的配置响应信息; 所述 配置响应信息中携带有定位响应参数; 所述定位响应参数是所述终端测 量的所述定位测量参数的测量结果;
所述服务器根据所述配置响应信息中携带的所述定位响应参数对所 述终端进行定位。
2、 根据权利要求 1所述的方法, 其特征在于, 在所述服务器确定定 位测量参数之前, 还包括:
所述服务器向所述基站发送用于获取终端场景信息的请求消息, 并 从所述基站反馈的响应消息中获取所述终端的场景信息;
所述服务器确定定位测量参数包括:
所述服务器根据获取的所述终端的场景信息确定定位测量参数。
3、 根据权利要求 2所述的方法, 其特征在于,
所述服务器根据获取的所述终端的场景信息确定定位测量参数包括 以下至少一个:
若所述终端的场景信息包括: 载波聚合 CA 场景信息, 则所述服务 器将所述终端的信干噪比,终端所受到的强干扰小区数,以及终端的 PMI/ RI 特征和多径数确定为定位测量参数;
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所 述服务器将所述终端的信干噪比, 终端所受到的强干扰小区数, 及终端 的 PMI/ RI 特征和多径数确定为定位测量参数;
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所 述服务器将所述终端测得的切换失败率, 及终端测得的无线链路失败率 确定为定位测量参数。
4、 根据权利要求 3所述的方法, 其特征在于, 所述服务器根据获取 的所述终端的场景信息确定定位测量参数还包括以下至少一个:
若所述终端的场景信息包括: 所述 CA 场景信息, 则所述服务器还 将所述终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方向旋 转角度确定为定位测量参数;
若所述终端的场景信息包括: 所述 CoMP场景信息, 则所述服务器 还将所述终端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测 得的相对于正北方向旋转角度确定为定位测量参数;
若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi场景 信息, 则所述服务器还将所述终端探测的接入点个数及接入点标识确定 为定位测量参数。
5、 根据权利要求 1-3任一项所述的方法, 其特征在于, 所述定位测 量参数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正 北方向旋转角度, 以及终端探测的接入点个数及接入点标识。
6、 根据权利要求 1-5任一项所述的方法, 其特征在于, 所述服务器 通过基站向终端发送测量配置信息包括:
所述服务器向基站发送测量配置信息, 以使得所述基站接收到测量 配置信息后, 生成第一测量配置信息, 并将所述第一测量配置信息发送 至相应的终端; 其中, 所述第一测量配置信息为所述基站在接收到所述 服务器发送的测量配置信息后, 解析出所述测量配置信息中的定位测量 参数, 根据所述定位测量参数生成的、 要求终端对所述定位测量参数进 行测量的信息; 所述第一测量配置信息中携带有所述定位测量参数。
7、 根据权利要求 1-6任一项所述的方法, 其特征在于, 在所述服务 器根据所述配置响应信息中携带的所述定位响应参数对所述终端进行定 位之前, 还包括:
所述服务器中保存网络被栅格化后各个栅格对应的定位参数值; 所述服务器根据所述配置响应信息中携带的所述定位响应参数对所 述终端进行定位包括:
所述服务器将所述定位响应参数与各个栅格对应的定位参数值进行 比较, 将定位参数值与定位响应参数最接近的栅格作为匹配栅格, 并将 所述匹配栅格的位置作为所述终端所在的位置。
8、 根据权利要求 1-7任一项所述的方法, 其特征在于, 所述服务器 包括: 定位服务器或者协调服务器 Coordinator
9、 一种定位的方法, 其特征在于, 包括:
终端获取服务器通过基站发送的测量配置信息; 所述测量配置信息 中携带有定位测量参数; 所述定位测量参数是所述服务器要求终端测量 的, 用于定位终端的参数; 所述定位测量参数包括以下参数或参数组合 中的至少一个:
终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数;
所述终端根据所述测量配置信息中携带的所述定位测量参数进行 'J 量, 获取定位响应参数, 以及生成携带所述定位响应参数的配置响应信 息; 所述定位响应参数是所述终端测量的所述定位测量参数的测量结果; 所述终端通过基站向所述服务器发送配置响应信息, 所述配置响应 信息中携带所述定位响应参数, 以使得所述服务器根据所述定位响应参 数对所述终端进行定位。
10、 根据权利要求 9所述的方法, 其特征在于,
若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述定位 测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小区数, 以 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所 述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小区 数, 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所 述定位测量参数包括: 所述终端测得的切换失败率, 及终端测得的无线 链路失败率。
11、 根据权利要求 10所述的方法, 其特征在于,
若所述终端的场景信息包括: 所述 CA 场景信息, 所述定位测量参 数还包括: 终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方 向旋转角度; 或者,
若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述定位 测量参数还包括: 终端使用的测量接入点个数和信号强度, 以及终端的 陀螺仪测得的相对于正北方向旋转角度; 或者,
若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场 景信息, 则所述定位测量参数还包括: 终端探测的接入点个数及接入点 标识。
12、 根据权利要求 9或 10所述的方法, 其特征在于, 所述定位测量 参数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终 端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对于正北 方向旋转角度, 以及终端探测的接入点个数及接入点标识。
13、 根据权利要求 9-12任一项所述的方法, 其特征在于, 所述测量 配置信息包括: 第一测量配置信息;
所述终端获取服务器发送的测量配置信息包括:
所述终端接收基站发送的所述第一测量配置信息, 所述第一测量配 置信息为所述基站在接收到所述服务器发送的测量配置信息后, 解析出 所述测量配置信息中的定位测量参数, 根据所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信息; 所述第一测量配置信息 中携带有所述定位测量参数;
所述配置响应信息包括: 第一配置响应信息;
所述终端通过基站向所述服务器发送配置响应信息包括:
所述终端向所述基站发送所述第一配置响应信息, 以使得基站接收 到所述第一配置响应信息后, 生成向所述服务器发送的配置响应信息, 并将所述配置响应信息发送至所述服务器, 其中, 所述配置响应信息中 携带有所述定位响应参数。
14、 一种定位的方法, 其特征在于, 包括:
基站接收服务器发送的测量配置信息; 所述测量配置信息中携带有 定位测量参数; 所述定位测量参数是服务器要求终端测量的, 用于定位 终端的参数; 所述定位测量参数包括以下参数或参数组合中的至少一个: 终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数,终端测得的切换 失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终端所受 到的强干扰小区数;
所述基站将所述测量配置信息发送至所述终端;
所述基站接收所述终端发送的配置响应信息, 所述配置响应信息中 携带有定位响应参数; 所述定位响应参数是所述终端测量的所述定位测 量参数的测量结果;
所述基站将所述配置响应信息发送至所述服务器, 以使得所述服务 器根据所述定位响应参数对所述终端进行定位。
15、 根据权利要求 14所述的方法, 其特征在于, 所述基站将所述测 量配置信息发送至终端包括:
所述基站解析所述测量配置信息, 获取所述定位测量参数; 所述基站生成第一测量配置信息, 将所述定位测量参数添加至所述 第一测量配置信息;
向终端发送所述第一测量配置信息;
所述基站接收终端发送的配置响应信息包括:
所述基站接收所述终端发送的第一配置响应信息, 所述第一配置响 应信息中携带有定位响应参数;
所述基站解析所述第一配置响应信息, 获取所述定位响应参数; 所述基站生成向所述服务器发送的配置响应信息, 将所述定位响应 参数添加至所述配置响应信息中。
16、 根据权利要求 14或 15所述的方法, 其特征在于,
若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述定位 测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小区数, 以 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所 述定位测量参数包括: 所述终端的信干噪比, 终端所受到的强干扰小区 数, 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所 述定位测量参数包括: 所述终端测得的切换失败率, 及终端测得的无线 链路失败率。
17、 根据权利要求 16所述的方法, 其特征在于,
若所述终端的场景信息包括: 所述 CA 场景信息, 所述定位测量参 数还包括: 终端使用的载波数, 以及终端的陀螺仪测得的相对于正北方 向旋转角度; 或者,
若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述定位 测量参数还包括: 终端使用的测量接入点个数和信号强度, 以及终端的 陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场 景信息, 则所述定位测量参数还包括: 终端探测的接入点个数及接入点 标识。
18、 根据权利要求 14-16 任一项所述的方法, 其特征在于, 所述定 位测量参数还包括以下参数或参数组合中的至少一个: 终端使用的载波 数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪测得的相对 于正北方向旋转角度, 以及终端探测的接入点个数及接入点标识。
19、 一种服务器, 其特征在于, 包括:
处理单元, 用于确定定位测量参数, 生成携带有所述定位测量参数 的测量配置信息, 并通过发送单元向终端发送所述测量配置信息; 所述 定位测量参数是服务器要求终端测量的, 用于定位终端的参数; 所述定 位测量参数包括以下参数或参数组合中的至少一个:
终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数;
发送单元, 用于通过基站向终端发送所述处理单元生成的所述测量 配置信息;
接收单元, 用于通过所述基站接收终端返回的配置响应信息; 所述 配置响应信息中携带有定位响应参数; 所述定位响应参数是所述终端测 量的所述定位测量参数的测量结果;
所述处理单元, 还用于根据所述接收单元接收到的所述配置响应信 息中携带的所述定位响应参数对所述终端进行定位。
20、 根据权利要求 19所述的服务器, 其特征在于,
所述处理单元, 还用于向所述基站发送用于获取终端场景信息的请 求消息, 并从所述基站反馈的响应消息中获取所述终端的场景信息; 所述处理单元用于确定定位测量参数包括: 根据获取的所述终端的 场景信息确定定位测量参数。
21、 根据权利要求 20所述的服务器, 其特征在于,
所述处理单元用于根据获取的所述终端的场景信息确定定位测量参 数包括以下至少一个:
若所述终端的场景信息包括: 载波聚合 CA场景信息, 则将所述终 端的信干噪比, 终端所受到的强干扰小区数, 以及终端的 PMI/ RI 特征 和多径数确定为定位测量参数;
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则将 所述终端的信干噪比,终端所受到的强干扰小区数,及终端的 PMI/ RI 特 征和多径数确定为定位测量参数;
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则将 所述终端测得的切换失败率, 及终端测得的无线链路失败率确定为定位 测量参数。
22、 根据权利要求 21所述的服务器, 其特征在于,
所述处理单元用于根据获取的所述终端的场景信息确定定位测量参 数还包括以下至少一个:
若所述终端的场景信息包括: 所述 CA场景信息, 还将终端使用的 载波数, 以及终端的陀螺仪测得的相对于正北方向旋转角度确定为定位 测量参数;
若所述终端的场景信息包括: 所述 CoMP场景信息, 则还将所述终 端使用的测量接入点个数和信号强度, 以及终端的陀螺仪测得的相对于 正北方向旋转角度确定为定位测量参数;
若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi场景 信息, 则还将所述终端探测的接入点个数及接入点标识确定为定位测量 参数。
23、 根据权利要求 19-21任一项所述的服务器, 其特征在于, 所述定位测量参数还包括以下参数或参数组合中的至少一个: 终端 使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀螺仪 测得的相对于正北方向旋转角度, 以及终端探测的接入点个数及接入点 标识。
24、 根据权利要求 19-23任一项所述的服务器, 其特征在于, 所述发送单元具体用于, 向基站发送测量配置信息, 以使得所述基 站接收到所述测量配置信息后, 生成第一测量配置信息, 并将所述第一 测量配置信息发送至相应的终端; 其中, 所述第一测量配置信息为所述 基站在接收到所述服务器发送的测量配置信息后, 解析出所述测量配置 信息中的定位测量参数, 根据所述定位测量参数生成的、 要求终端对所 述定位测量参数进行测量的信息; 所述第一测量配置信息中携带有所述 定位测量参数。
25、 根据权利要求 19-24任一项所述的服务器, 其特征在于, 数值;
所述处理单元用于根据所述接收单元接收到的所述配置响应信息中 携带的所述定位响应参数对所述终端进行定位, 包括: 将所述定位响应 述定位参数值与所述定位响应参数最接近的栅格作为匹配栅格, 并将所 述匹配栅格的位置作为所述终端所在的位置。
26、 一种终端, 其特征在于, 包括:
接收单元, 用于获取服务器通过基站发送的测量配置信息; 所述测 量配置信息中携带有定位测量参数; 所述定位测量参数是服务器要求终 端测量的, 用于定位终端的参数; 所述定位测量参数包括以下参数或参 数组合中的至少一个:终端的预编码矩阵指示符 PMI/秩指示 RI特征和多 径数, 终端测得的切换失败率, 终端测得的无线链路失败率, 终端的信 干噪比, 以及终端所受到的强干扰小区数;
处理单元, 用于根据所述接收单元接收的所述测量配置信息中携带 的所述定位测量参数进行测量, 获取定位响应参数, 以及生成携带所述 定位响应参数的配置响应信息; 所述定位响应参数是所述终端测量的所 述定位测量参数的测量结果;
发送单元, 用于通过基站向所述服务器发送所述处理单元生成的配 置响应信息, 所述配置响应信息中携带所述定位响应参数。
27、 根据权利要求 26所述的终端, 其特征在于,
若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述接收 单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端所受到 的强干扰小区数, 以及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所 述接收单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端 所受到的强干扰小区数, 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所 述接收单元接收的所述定位测量参数包括: 所述终端测得的切换失败率, 及终端测得的无线链路失败率。
28、 根据权利要求 27所述的终端, 其特征在于, 若所述终端的场景信息包括: 所述 CA 场景信息, 所述接收单元接 收的所述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺仪 测得的相对于正北方向旋转角度; 或者,
若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述接收 单元接收的所述定位测量参数还包括: 终端使用的测量接入点个数和信 号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场 景信息, 则所述接收单元接收的所述定位测量参数还包括: 终端探测的 接入点个数及接入点标识。
29、 根据权利要求 26或 27所述的终端, 其特征在于, 所述接收单 元接收的所述定位测量参数还包括以下参数或参数组合中的至少一个: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端的陀 螺仪测得的相对于正北方向旋转角度, 以及终端探测的接入点个数及接 入点标识。
30、 根据权利要求 26-29任一项所述的终端, 其特征在于,
在所述测量配置信息包括第一测量配置信息的情况下, 所述接收单 元具体用于, 接收基站发送的所述第一测量配置信息, 所述第一测量配 置信息为所述基站在接收到所述服务器发送的测量配置信息后, 解析出 所述测量配置信息中的定位测量参数, 根据所述定位测量参数生成的、 要求终端对所述定位测量参数进行测量的信息; 所述第一测量配置信息 中携带有所述定位测量参数;
所述配置响应信息包括: 第一配置响应信息;
所述发送单元具体用于, 向所述基站发送所述第一配置响应信息, 以使得基站接收到所述第一配置响应信息后, 生成向所述服务器发送的 配置响应信息, 并将所述配置响应信息发送至所述服务器, 其中, 所述 配置响应信息中携带有所述定位响应参数。
31、 一种基站, 其特征在于, 包括:
接收单元, 用于接收服务器发送的测量配置信息; 所述测量配置信 息中携带有定位测量参数; 所述定位测量参数是服务器要求终端测量的, 用于定位终端的参数; 所述定位测量参数包括以下参数或参数组合中的 至少一个:
终端的预编码矩阵指示符 PMI/秩指示 RI特征和多径数, 终端测得 的切换失败率, 终端测得的无线链路失败率, 终端的信干噪比, 以及终 端所受到的强干扰小区数;
发送单元, 用于将所述接收单元接收的所述测量配置信息发送至终 端;
所述接收单元, 还用于接收所述终端发送的配置响应信息, 所述配 置响应信息中携带有定位响应参数; 所述定位响应参数是所述终端测量 的所述定位测量参数的测量结果;
所述发送单元, 还用于将所述接收单元接收的所述配置响应信息发 送至所述服务器, 以使得所述服务器根据所述定位响应参数对所述终端 进行定位。
32、 根据权利要求 31所述的基站, 其特征在于, 还包括: 处理单元, 用于解析所述接收单元接收的所述测量配置信息, 获取 所述定位测量参数;
所述处理单元, 还用于生成第一测量配置信息, 并将所述定位测量 参数添加至所述第一测量配置信息;
所述发送单元用于将所述接收单元接收的所述测量配置信息发送至 终端, 包括: 向终端发送所述处理单元生成的所述第一测量配置信息; 所述接收单元用于接收所述终端发送的配置响应信息包括: 接收所 述终端发送的第一配置响应信息, 所述第一配置响应信息中携带有定位 响应参数;
所述处理单元, 还用于解析所述接收单元接收的所述第一配置响应 信息, 获取所述定位响应参数;
所述处理单元, 还用于生成向所述服务器发送的配置响应信息, 并 将所述定位响应参数添加至所述配置响应信息中;
发送单元用于将所述接收单元接收的所述配置响应信息发送至所述 服务器包括: 将所述处理单元生成的所述配置响应信息发送至所述服务 器。
33、 根据权利要求 31或 32所述的基站, 其特征在于,
若所述终端的场景信息包括: 载波聚合 CA场景信息, 则所述接收 单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端所受到 的强干扰小区数, 以及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 联合多点传输 CoMP场景信息, 则所 述接收单元接收的所述定位测量参数包括: 所述终端的信干噪比, 终端 所受到的强干扰小区数, 及终端的 PMI/ RI 特征和多径数; 或者,
若所述终端的场景信息包括: 最小的驱动测试 MDT场景信息, 则所 述接收单元接收的所述定位测量参数包括: 所述终端测得的切换失败率, 及终端测得的无线链路失败率。
34、 根据权利要求 33所述的基站, 其特征在于,
若所述终端的场景信息包括: 所述 CA 场景信息, 则所述接收单元 接收的所述定位测量参数还包括: 终端使用的载波数, 以及终端的陀螺 仪测得的相对于正北方向旋转角度; 或者,
若所述终端的场景信息包括: 所述 CoMP的场景信息, 则所述接收 单元接收的所述定位测量参数还包括: 终端使用的测量接入点个数和信 号强度, 以及终端的陀螺仪测得的相对于正北方向旋转角度; 或者, 若所述终端的场景信息包括: 广域网 WAN或无线高保真 WiFi的场 景信息, 则所述接收单元接收的所述定位测量参数还包括: 终端探测的 接入点个数及接入点标识。
35、 根据权利要求 31-33 任一项所述的基站, 其特征在于, 所述接 收单元接收的所述定位测量参数还包括以下参数或参数组合中的至少一 个: 终端使用的载波数, 终端使用的测量接入点个数和信号强度, 终端 的陀螺仪测得的相对于正北方向旋转角度, 以及终端探测的接入点个数 及接入点标识。
36、 一种定位的系统, 其特征在于, 包括: 服务器, 终端, 基站; 所述服务器为权利要求 19-25任一项所述的服务器;
所述终端为权利要求 26-30任一项所述的终端;
所述基站为权利要求 31-35任一项所述的基站。
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