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WO2006131047A1 - A method and system for real-time locating the group calling/multicast mobile station - Google Patents

A method and system for real-time locating the group calling/multicast mobile station Download PDF

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Publication number
WO2006131047A1
WO2006131047A1 PCT/CN2006/000995 CN2006000995W WO2006131047A1 WO 2006131047 A1 WO2006131047 A1 WO 2006131047A1 CN 2006000995 W CN2006000995 W CN 2006000995W WO 2006131047 A1 WO2006131047 A1 WO 2006131047A1
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WO
WIPO (PCT)
Prior art keywords
mobile station
multicast
group call
sdcch
group
Prior art date
Application number
PCT/CN2006/000995
Other languages
French (fr)
Chinese (zh)
Inventor
Zhili Xia
Original Assignee
Shanghai Huawei Technologies Co., Ltd.
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 Shanghai Huawei Technologies Co., Ltd. filed Critical Shanghai Huawei Technologies Co., Ltd.
Publication of WO2006131047A1 publication Critical patent/WO2006131047A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W64/00Locating users or terminals or network equipment for network management purposes, e.g. mobility management
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/12Wireless traffic scheduling

Definitions

  • the present invention relates to a communication method of a trunking communication system based on a public communication network, and more particularly to a method and system for real-time positioning of a group call/multicast mobile station in a group call/multicast process of a trunking communication system.
  • the trunking communication system is a more economical and flexible command and dispatch communication system developed in recent years. It is widely used in government agencies, energy transportation, airport terminals, industrial and mining enterprises, fire police, water conservancy and military units to meet each The need for internal communication of the unit.
  • the trunking communication system uses a cluster private network to build a networking.
  • each group independently builds a cluster private network, the technology and test-making between groups are not uniform, so it is easy to form a separate construction situation, resulting in low frequency utilization efficiency, network construction costs, and high network maintenance costs.
  • the network construction of cluster communication network has shown a trend of development from independent cluster private network construction to cluster public network construction.
  • GSM global mobile communication system
  • GSM-R Global System for Mobile Communications
  • GSM communication network uses GSM communication network as the service bearer and can complete basic group call (VGCS) / multicast (VBS) and other trunking communication services.
  • VGCS basic group call
  • VBS multicast
  • Basic voice dispatch call function is a call that multiple mobile stations participate at the same time, wherein the speaker mobile station can receive and send information, the listener mobile station can only receive information, and the speaker mobile station can change; the multicast is a special type
  • the group call special in its speaker mobile station can not be changed.
  • the GSM communication network used to be mainly for the public, and related services were more suitable for public services. Some special requirements for the cluster communication system could not be met.
  • the mobile station (MS) in the group call/multicast needs to be located in real time, that is, the network side needs to know the real-time cell-level location information of each mobile station in the specified group call/multicast.
  • the network side needs to know the real-time cell-level location information of each mobile station in the specified group call/multicast.
  • the specific location parameters include the cell identity of the mobile station and the distance from the base station in the cell.
  • the positioning method is as follows: The mobile station reports the location information by occupying the uplink resource, and the network side locates the mobile station according to the reported location information. . Since the group call/multicast is a group of mobile stations, if the existing positioning method utilizes a large amount of uplink resources, the existing GSM-based trunking communication system cannot implement the group call. /Multicast mobile station for real-time positioning. Summary of the invention
  • the main object of the present invention is to provide a method for real-time positioning of a group call/multicast mobile station, so that the network communication system based on the public network can be specified at any time during the group call/multicast process.
  • the mobile station in the group call/multicast group is positioned to facilitate the command and dispatch of the cluster communication system.
  • Another object of the present invention is to provide a system for real-time positioning of a group call/multicast mobile station, so that the cluster communication system based on the public network can call the designated group at any time during the group call/multicast process.
  • the multicast station in the multicast group is positioned to facilitate the command and dispatch of the trunking communication system.
  • a method for real-time positioning of a group call/multicast mobile station which is suitable for public network-based
  • the cluster communication system divides the SDCCH channel into multiple SDCCH subchannels; assigns the divided SDCCH subchannels to the group call/multicast, and sends the description information of the allocated SDCCH subchannels to the group call/group All mobile stations in the broadcast; the respective mobile stations learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel, and determine that the location of the access burst sequence AB is reported in the allocated SDCCH subchannel, The reporting location periodically reports the AB carrying its own information; the network side receives the AB on the SDCCH subchannel allocated for the group call/multicast, and locates the mobile station according to the location of the AB and the mobile station information carried by the AB. .
  • the specific method for dividing the SDCCH subchannel is: dividing the SDCCH channel according to a division manner in which each of the SDCCH subchannels occupies one burst sequence BURST in N 2x51 multiframes, where N is a positive integer .
  • the specific method for allocating the divided SDCCH subchannels for the group call/multicast is: one group call/multicast correspondingly assigning one or more SDCCH subchannels.
  • the method for the mobile station to determine that it reports the AB position in the allocated SDCCH subchannel is:
  • the length of the AB is 8 bits
  • the information of the mobile station carried by the AB is the intra-group number information of the mobile station, specifically: a value obtained by modulo Num-id to 256.
  • the network side according to the location of the received AB and the mobile station letter carried by the AB
  • the method for locating the mobile station is: verifying the AB according to the location of the receiving AB and the mobile station information carried by the AB. After the verification succeeds, determining, by receiving the position of the AB, receiving the cell identifier of the AB and 4. The distance between the mobile station of the AB and the base station of the cell completes the positioning of the mobile station.
  • the verification method is: calculating a value of ((FN) Mode ( Kmax - idxNxl02 ) ) Mode ( 256 ), where FN is a cell frame number corresponding to the received AB; determining the movement carried by the received AB Whether the station information is equal to the value of ((FN) Mode ( Kmax_idxN l02 ) ) Mode ( 256 ). If they are equal, the verification is successful, otherwise the verification fails.
  • the specific method for sending the description information of the allocated SDCCH subchannel to all mobile stations in the group call/multicast is: the network side notification of the cell involved in the group call/multicast
  • the group call/multicast identifier and the description information of the SDCCH subchannel allocated for the group call/multicast are periodically sent on the channel, and the mobile station in the cell obtains the group call/multicast by listening to the notification channel.
  • the specific method for sending the description information of the allocated SDCCH subchannel to all mobile stations in the group call/multicast is: the network side is in the downlink of the cell involved in the group call/multicast
  • the group of call/multicast identifiers and the description information of the SDCCH subchannels allocated for the group call/multicast are periodically sent on the fast associated control channel, and the mobile station in the cell monitors the downlink fast on-channel control
  • the channel obtains the description information of the group call/multicast identifier and the SDCCH subchannel, and determines whether the mobile station is subordinate to the group call/multicast by using the group call/multicast identifier, and accepts the SDCCH subchannel description information; Otherwise, no processing is done.
  • the public network is a mobile communication network based on a global mobile communication system.
  • the network side mainly includes a base station subsystem BSS, a mobile switching center MSC, a group call/multicast control register GCR, and a scheduling system; and the network side is a group call/multicast distribution station.
  • BSS base station subsystem
  • MSC mobile switching center
  • GCR group call/multicast control register
  • scheduling system a scheduling system
  • the network side is a group call/multicast distribution station.
  • the specific steps of sending the description information of the allocated SDCCH subchannels to all mobile stations in the group call/multicast are:
  • the scheduling system sends the group call/multicast identifier that needs real-time positioning to the MSC and the maximum number of mobile stations in the group of the group/multicast;
  • the MSC sends the group call/multicast identifier to the GCR.
  • the GCR queries the correspondence between the cell list of the group call/multicast mobile station and the group call/multicast identifier according to the received group call/multicast identifier; and obtains the cell list corresponding to the group call/multicast identifier. Returning the cell list information to the MSC;
  • the MSC queries the pre-set BSS and the cell identifier according to the received cell list information, obtains the BSS involved in the cell list, and the cell identifier corresponding to the BSS, and sends the group call/multicast identifier to the BSS. , the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS;
  • the BSS After receiving the group call/multicast identifier, the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS, the BSS allocates the divided SDCCH subchannel for the group call/multicast, and specifies the cell identifier in the group.
  • the notification message carrying the description information of the allocated SDCCH subchannel is sent in each of the cells, and the group call/multicast identifier and the maximum number of mobile stations in the group are further carried in the notification message.
  • the network side receives the AB on the SDCCH subchannel allocated for the group call/multicast, and the specific steps of locating the mobile station according to the location of the AB and the mobile station information carried by the AB are:
  • the BSS receives the AB reported by the mobile station on the SDCCH subchannel allocated for the group call/multicast, the maximum number of mobile stations in the group using the group call/multicast, the description information of the SDCCH subchannel, and the received AB.
  • the corresponding location is used to check the information carried by the AB. If the verification succeeds, the identifier of the cell base station that receives the AB and the distance between the mobile station reporting the AB and the cell base station are determined by using the AB, and the group call is performed. /multicast identity, the move The intra-group number, the identifier of the cell base station, and the distance between the mobile station and the cell base station are reported to the MSC, and step B is performed; if the verification fails, the AB is not processed;
  • the MSC forwards the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the scheduling system;
  • the scheduling system according to the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the group call/multicast mobile station Positioning.
  • a system for real-time positioning of a group call/multicast mobile station is set in a cluster communication system of a public network, including:
  • a channel division and allocation processing unit disposed on a network side of the trunking communication system, configured to divide the SDCCH channel into channel division units of multiple SDCCH subchannels, and allocate the divided SDCCH subchannels for group call/multicast, and And sending the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast;
  • a positioning information reporting unit configured to be located on the mobile station of the trunking communication system, configured to learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel received by the mobile station, and determine that the mobile station is in the allocated SDCCH sub The location of the AB is reported in the channel, and the AB carrying the mobile station information is periodically reported in the reporting position;
  • a positioning unit disposed on a network side of the trunking communication system, configured to receive an AB on an SDCCH subchannel allocated for the group call/multicast, and the mobile station according to the location of the AB and the mobile station information carried by the AB Positioning.
  • the channel division and allocation processing unit delivers the allocated SDCCH subchannel to the mobile station in the group call/multicast by using the network side on the notification channel of the group call/multicast involved cell. Descriptive information.
  • the channel division and allocation processing unit sends, by the network side, a mobile station in the group call/multicast on a downlink fast associated control channel of the group call/multicast involved cell.
  • the description information of the allocated SDCCH sub-channel is issued.
  • the positioning unit further includes a check unit: configured to check the AB according to the location of the receiving AB and the information carried by the AB.
  • the public network is a mobile communication network based on a global mobile communication system.
  • the channel division and allocation processing unit is disposed in a BSS of the trunking communication system; the positioning unit further includes a first positioning unit and a second positioning unit; the first positioning unit is disposed in the BSS, The identifier of the cell base station that receives the AB and the distance between the mobile station that reports the AB and the cell base station are determined by using the AB; the second positioning unit is disposed in the scheduling system of the trunking communication system, and according to the mobile station information reported by the AB And identifying, by the identifier of the cell base station, and the distance between the mobile station reporting the AB and the base station of the cell, the mobile station.
  • the mobile station of the group call/multicast Since the present invention divides the SDCCH channel of the global mobile communication system into a plurality of SDCCH subchannels and allocates them to multiple group call/multicast, the mobile station of the group call/multicast passes the AB cycle in real time on the allocated SDCCH subchannel. The local information is reported on the ground, and the network side locates the mobile station according to the reported AB, so that real-time positioning of the group call/multicast mobile station can be realized, which facilitates the command and dispatch communication of the cluster communication system during group call/multicast.
  • the mobile station in the present invention uses the access burst sequence (AB, Access Burst) to report information, and the time taken by an AB is very short, generally only 0.577 ms, so the listener moves the station to leave the group call when reporting information.
  • the time of the multicast channel is very short, the reporting speed is fast, and the normal communication of the mobile station is not affected, and has no effect on the basic services of the group call/multicast.
  • the present invention does not occupy the uplink of the group call/multicast channel, and has no influence on the communication between the mobile station and the network side, thereby avoiding waste of link resources.
  • the present invention determines the distance to which the mobile station belongs and the mobile station to the base station according to the AB reported by the mobile station in real time, the small group/multicast mobile station can be implemented.
  • Real-time location-level positioning that is, it can be known in which cell the mobile station in the group call/multicast is currently located, and how far away from the base station of the cell, and the positioning accuracy is high.
  • the BSS can send a notification message through the notification channel and the FACCH channel, and the mobile station in the idle state acquires the notification message by monitoring the notification channel, and the mobile station in the call mode can obtain the notification message by listening to the FACCH channel, so the present invention
  • the mobile station in the group in the idle state can be located, and the mobile station in the call mode can be located.
  • FIG. 1 is a schematic diagram of a physical channel mapped by a SDCCH channel in a GSM system
  • FIG. 2 is a flowchart of real-time positioning of a group call mobile station according to an embodiment of the present invention
  • FIG. 3 is a schematic structural diagram of a system according to the present invention. . Mode for carrying out the invention
  • the present invention is applicable to a group call/multicast process of a trunked wireless communication system based on a public network.
  • the embodiment of the present invention describes the present invention by taking a cluster wireless communication system based on a GSM public network as an example.
  • the station shares a SDCCH channel. Since the SDCCH channel does not need to establish a link in advance, the mobile station only needs to report the AB to the fixed point, and the time used is extremely short, generally only a few ms, so it does not affect the normal communication of the listener's mobile station.
  • the SDCCH is a dedicated signaling channel
  • the physical channel mapped by the SDCCH is a plurality of time slots in the multiframe.
  • the invention uses a multiframe as a unit physical letter
  • the multiframe can be of different types.
  • 2x51 multiframe is used as a unit physical channel
  • 102 frames are used in each 2x51 multiframe
  • 8 SDCCHs are mapped in each 2x51 multiframe.
  • Each SDCCH is mapped on 12 time slots, which respectively occupy 12 burst sequences (BURST).
  • Figure 1 is a schematic diagram of the physical channel mapped by the SDCCH channel in the GSM system.
  • the 2x51 multiframe sequence is transmitted in a round-robin fashion, including 102 frames in each 2x51 multiframe, for example, 102 in 2x51 multiframes with frame numbers "0" and "N-1".
  • the SDCCH channel of the existing GSM system needs to be further subdivided. Divided into different SDCCH subchannels, assigned to different group calls/multicasts. The specific division of the subchannels can be performed according to the requirements of the operator.
  • each SDCCH subchannel occupies 12 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into one subchannel;
  • each SDCCH subchannel occupies 6 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into 2 subchannels;
  • each SDCCH subchannel occupies 4 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into three subchannels;
  • each SDCCH subchannel occupies 3 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into 4 subchannels;
  • each SDCCH subchannel occupies 2 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into 6 subchannels; If each SDCCH subchannel occupies 1 BURST in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into 12 subchannels;
  • each SDCCH subchannel occupies one BURST in two 2x51 multiframes, it is divided according to two 2x51 multiframe periods, one SDCCH channel can be divided into 24 subchannels; and so on.
  • each SDCCH subchannel occupies 1 BURST in N 2x51 multiframes, it is divided according to N 2x51 multiframe periods, and one SDCCH channel can be divided into Nxl2 subchannels; Nxl2 subchannels are respectively represented as SDCCH_subN(k) , k is 0, 1 , 2, k, k + 1, , ⁇ 12-1.
  • the type of SDCCH used in the above-mentioned type is determined according to the number of groups of group call/multicast services in GSM.
  • each SDCCH subchannel adopts a subchannel allocation mode in which one BURST is occupied by N 2x51 multiframes, where N is a positive integer.
  • each SDCCH is divided into a plurality of subchannels, and can support multiple groups. . For example: If the SDCCH subchannel is divided by 2x2x51 multiframe period (about 941 milliseconds), one SDCCH channel can be divided into 24 SDCCH subchannels, which can support 24 groups.
  • the foregoing is a specific method for the BSS to divide the SDCCH subchannel for the group call/multicast mobile station.
  • the divided SDCCH subchannel information is separately set and stored in the BSS system and the mobile station, for example, the SDCCH subchannel of this embodiment.
  • the information is SDCCH— subN ( k ) , k is 0, 1, 2, k, k + 1 , , NX12-L
  • the active area information of the supported group call mobile station is set in the group call control register (GCR) on the network side, and the active area is the approximate active range of all the mobile stations of the group call, and the active area information may be a group call.
  • the list of cells to which the mobile station belongs may also be a list of location areas, where the group call identifier (GID) is used as an index.
  • GID group call identifier
  • Step 201 The scheduling system on the network side sends a group call mobile station location request application message VGCS_Subscrber_Position-Req (GID, Kmaxjd) to the mobile switching center (MSC), where the message includes the GID of the group call that needs to be real-time located. And the maximum number of mobile stations (Kmax_id) in the group.
  • GID group call mobile station location request application message
  • Kmax_id the maximum number of mobile stations
  • Step 202 After receiving the VGCS-Subscrber_Position-Req (GID, Kmax_id) message, the MSC sends a group call area request message VGCS_Area-Req (GID) to the GCR, where the message carries the GID.
  • GID group call area request message
  • Step 203 After receiving the VGCS-Area-Req (GID) message, the GCR queries the pre-set cell list and searches for the approximate activity range information of the mobile station in the group.
  • the activity range information is the group.
  • a cell list of a cell to which the mobile station belongs in the call group the Cell list reflects the area of the group call; and then returns a group call mobile station location result message VGCS_Area_Result (Cell list) to the MSC, where the message includes Cell list.
  • Step 204 After receiving the VGCS-Area-Result (Cell list) message, the MSC queries the corresponding relationship between the cell and the BSS configured by the Cell list, and learns all the BSSs involved in the group call area.
  • Each of the BSSs in the group call area sends a group call mobile station location query message VGCS_Subscrber_Position_Req (GID, Cell_list_bss, Kmaxjd), and the message includes: a group call GID, the group call area is in the Cell list information Cell_list_bss in the BSS, the maximum number of mobile stations Kmax_id in the group of the group call.
  • Step 205 After receiving the VGCS_Subscrber_Position-Req (GID, Cell_list_bss, Kmax_id) message, each BSS in the group call area follows the stored SDCCH subchannel information SDCCH. —subN ( k ) , k is 0, 1 , 2, k, k + 1 , , ⁇ 12-1 , assigning one or more SDCCH subchannels to the group call whose group identity is GID, for the group Call the positioning of the mobile station; The correspondence between the GID, Kmax_id and the SDCCH subchannel is recorded.
  • multiple SDCCH subchannels may be allocated to one group call.
  • only one SDCCH subchannel is allocated to one group call as an example.
  • H is set as the SDCCH subchannel allocated by the current group call is SDCCH_subN(i), and each N of the SDCCH subchannels
  • the 2x51 multiframe period can be used to determine the mobile station positioning information in a group.
  • Which SDCCH subchannel is specifically allocated, that is, the specific value of the i may be in various manners, for example, may be in the order of GID, or may be valued according to a specific law, and the specific value is not discussed in this patent. The list, but to ensure that the assigned SDCCH subchannel is not assigned to other group calls.
  • Step 206 The BSS periodically sends a notification message Notification (GID, Kmax_id, SDCCH_subN(i)) on the notification channel of each cell listed in the Cell_list_bss received by the BSS, where The group call GID, the SDCCH subchannel description information SDCCH_subN(i) assigned to the group call, and the maximum number of mobile stations Kmax_id of the group.
  • the SDCCH subchannel description information includes a parameter i or includes parameters N and i.
  • Notification (GID, Kmax_id, SDCCH_subN(i)) may also be in the downlink fast associated control channel (FACCH) of each cell traffic channel. ) Send on the channel.
  • the present invention pre-stores GID list information of each group call subordinate to the subscription mobile station in the mobile station or in the SIM card, and the intra-group number information Num_id of the subordinate group of the subscription mobile station; a mobile station may belong to a different group. Call, and within each group call, there is a Num_id corresponding to the mobile station.
  • Step 207 On the mobile station side, the mobile station in the idle mode in the cell receives the notification message by monitoring the notification channel, where the mobile station receives the notification message by listening to the FACCH channel in the call mode; the mobile station is receiving After each notification message, it is determined whether the GID carried in the notification message is subordinate to the group call GID list stored by the mobile station, such as If yes, the mobile station decodes the SDCCH subchannel description information SDCCH_subN(i) in the notification message, and accepts that the SDCCH subchannel allocated by the network side for the group call identified as GID is SDCCH_subN(i), and simultaneously decodes the notification.
  • Step 208 The mobile station periodically reports the access pulse (AB, ACCESS BURST) at the location determined on the SDCCH-subN(i) subchannel, and the interval of the transmission interval is Kmax_idxNxl02; the AB described in this embodiment has 8 BIT, which carries the The intra-group number information of the mobile station, the value of 8BIT is (Num_id) Mode (256); the maximum binary number that can be represented by 8 bits is 11111111, so if the 8 bits are used to record the listener mobile station group
  • the internal ID can only represent up to 256 ID numbers. For a group call/multicast with more than 256 mobile stations in the group, the listener mobile station whose ID number is greater than 256 cannot be represented in the group.
  • listening The intra-group ID information of the mobile station is expressed as: MODE [ID/256]fur If 6 bits are used to record the ID information of the listener mobile station group in AB, then only 64 ID numbers can be identified, so AB in this case The ID information of the carried mobile station group can be MODE [ID/64].
  • FN is the unified frame number of the current mobile station's home cell. Since one frame corresponds to one AB, the FN is also the location where the current mobile station transmits AB; N indicates that the SDCCH subchannel is divided into Nx2x51 complex. The frame, N is carried in the SDCCH_subN(i) subchannel description in the above notification message; (FN) Mode (Kmax_idxN l02) indicates that the modulus of Kmax_idxNxl02 is taken for FN, ((FN) Mode (Kmax_idxNx102)) Integer (Nxl02) indicates (FN) Mode ( Kmax_idxN l02 ) divided by (Nxl02) After taking an integer.
  • the mobile station sequentially determines whether the cell frame number in the SDCCH subchannel conforms to the above formula (1), and if yes, determines that the cell frame number is the location frame of the mobile station in the SDCCH_subN(i) subchannel. No., reporting AB at the cell frame number position; otherwise, determining that the cell frame number is not the location frame number of the mobile station reporting the AB in the SDCCH_subN(i) subchannel.
  • Step 209 The BSS monitors AB in real time on the subchannel SDCCH_subN(i) of the group call that is identified as GID, determines the frame number FN of the frame corresponding to the received AB, and decodes the 8BIT value of the AB.
  • Step 210 The BSS calculates a value of ((FN) Mode ( Kmax — idxNxl02 ) ) Mode ( 256 ) according to the determined FN, the N in the subchannel description information SDCCH — subN ( i ), and the Kmax — id corresponding to the GID. And determining whether the 8BIT value of the AB is equal to the value of ((FN) Mode (Kmax_ idxNx 102)) Mode (256). If they are equal, the BSS determines that the AB is the location information reported by the group call mobile station identified as the GID. Go to step 210; No, ij, determine that AB is an interference signal, ignore the AB, and end the process.
  • Step 211 The BSS determines the distance information TA between the mobile station and the base station by using the AB according to the existing determining manner, and reports the group mobile station in-position message VGCS_Subscrber_Position (GID, Num_id, Cell_id) to the MSC. (TA), wherein the group call identifier GID, the group mobile station identifier Num_id of the group call, that is, the 8BIT value of the AB, the identifier Cell_id of the cell where the group mobile station is located, and the mobile station and Distance information TA of the base station.
  • the Cell_id may be determined according to an identifier of a base station that receives the AB.
  • Step 212 After receiving the VGCS-Subscrber_Location (GID, Num_id, Cell_id, TA) message, the MSC forwards the VGCS-Subscrber JPosition (GID, Num_id, Cell_id, TA) message to the scheduling system. .
  • GID Num_id, Cell_id, TA
  • Step 213 The scheduling system receives the VGCS-Subscrber_ Position (GID, Num_id, 5
  • the cell in which the mobile station identified as Num_id is located and the distance of the mobile station from the cell base station in the group call identified as GID can be known, so that the mobile station can be located. . Since the BSS monitors the AB on the subchannel SDCCH_subN(i) in real time, the mobile station in the group call can be located in real time. If the scheduling system supports display, the scheduling manager may be prompted to call the mobile station in place or record the mobile station in-position information in the group call mobile station location log.
  • all mobile stations in the group call can be located in real time and displayed in the scheduling system.
  • FIG. 3 the structural diagram of the positioning system of the present invention is shown in FIG. 3:
  • the positioning system can perform real-time positioning on the group call/multicast mobile station, and is set in the trunking communication system of the public network.
  • the public network can be a mobile communication network based on the global mobile communication system, and the positioning system includes:
  • a channel division and allocation processing unit configured in the BSS of the network side of the trunking communication system, for dividing the SDCCH channel into channel division units of multiple SDCCH subchannels, and allocating the divided SDCCH subchannels for group call/multicast And sending the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast.
  • the channel division and allocation processing unit may send, by using the network side, the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast on the notification channel of the group call/multicast involved cell. And the description information of the allocated SDCCH subchannel is sent to the mobile station in the group call/multicast by the network side on the downlink fast associated control channel of the group call/multicast related cell.
  • a positioning information reporting unit configured on the MS of the trunking communication system, configured to learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel received by the mobile station, and determine that the mobile station is in the allocated SDCCH subchannel In the position of the upper report AB, the AB carrying the mobile station information is periodically reported at the reporting position.
  • a positioning unit disposed on a network side of the trunking communication system, configured to be in the group call
  • the multicast is received on the SDCCH subchannel of the multicast, and the mobile station is located according to the location of the AB and the mobile station information carried by the AB.
  • the locating unit further includes a check unit, a first locating unit, and a second locating unit.
  • the check unit is disposed in the BSS, and is configured to check the AB according to the location of the receiving AB and the information carried by the AB.
  • the first positioning unit is disposed in the BSS, configured to determine, by using AB, an identifier of a cell base station that receives the AB, and a distance between the mobile station that reports the AB and the cell base station; and the second positioning unit is configured to perform cluster communication.
  • the mobile station is located according to the mobile station information reported by the AB, the identifier of the cell base station, and the distance between the mobile station reporting the AB and the cell base station.

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Abstract

A method and system for real-time locating the group calling/multicast mobile station are disclosed. The method and the system are suitable for trunking communication system based on public network. The method includes: dividing SDCCH channel into multiple sub-channels and assigning these sub-channels for group calling/multicast groups, and sending the description information of the assigned sub-channel to the mobile station; each mobile station determines its report location in the sub-channel, and reports access burst (AB) carrying its information in the report location periodically; the network side receives AB on the sub-channels assigned for group calling/multicast groups, and locates the mobile station based on the location of AB and the carrying information of the mobile station. The system includes channel dividing and assignment process unit, locating information reporting unit and locating unit. With the invention, the network side could locate the mobile station in a designated group calling/multicast group at any moment during the group calling/multicast of the trunking communication system based on public network, thus it is convenient to control and schedule the trunking communication system.

Description

一种对组呼 /組播移动台进行实时定位的方法和系统  Method and system for real-time positioning of group call/multicast mobile station
技术领域 Technical field
本发明涉及基于公共通信网络的集群通信系统的通信方法, 尤其涉 及一种在集群通信系统的组呼 /組播过程中, 对组呼 /组播移动台进行实 时定位的方法和系统。 发明背景  The present invention relates to a communication method of a trunking communication system based on a public communication network, and more particularly to a method and system for real-time positioning of a group call/multicast mobile station in a group call/multicast process of a trunking communication system. Background of the invention
集群通信系统是近几年来发展起来的一种较经济、 较灵活的指挥调 度通信系统, 广泛应用在政府机关、 能源交通、 机场码头、 工矿企业、 消防警察、 水利和军事等单位, 以满足各单位内部通信联络的需要。  The trunking communication system is a more economical and flexible command and dispatch communication system developed in recent years. It is widely used in government agencies, energy transportation, airport terminals, industrial and mining enterprises, fire police, water conservancy and military units to meet each The need for internal communication of the unit.
最初, 集群通信系统采用集群专网的方式建设组网。 但是由于各集 团独立建设集群专网, 集团间的技术和制试不统一, 因此容易形成各自 为政的建设局面, 导致频率利用效率低下、 网络建设成本和网络维护费 用高等弊端。 最近, 随着集群通信技术由模拟向数字发展, 集群通信网. 络建设呈现出由独立集群专用网络建设向集群公共网络建设方向发展 的趋势。 尤其是, 由于目前全球移动通信系统(GSM )技术体制已经发 展得比较完善, 在全国乃至全世界范围内具有广泛的公共网络^出, 因 此, 发展基于 GSM通信网络的集群通信系统倍受业界关注。  Initially, the trunking communication system uses a cluster private network to build a networking. However, because each group independently builds a cluster private network, the technology and test-making between groups are not uniform, so it is easy to form a separate construction situation, resulting in low frequency utilization efficiency, network construction costs, and high network maintenance costs. Recently, with the development of trunking communication technology from analog to digital, the network construction of cluster communication network has shown a trend of development from independent cluster private network construction to cluster public network construction. In particular, since the global mobile communication system (GSM) technology system has been developed relatively well, and there are a wide range of public networks in the country and around the world, the development of cluster communication systems based on GSM communication networks has received much attention from the industry. .
目前, 欧洲已制定出一套用于铁路移动通信的国际标准 GSM-R, 它 以 GSM通信网络作为业务承载, 能够完成基本的组呼 (VGCS ) /组播 ( VBS )等集群通信业务, 可以实现基本的话音调度呼叫功能。 所述组 呼为多个移动台同时参与的呼叫, 其中讲者移动台可以接收和发送信 息, 听者移动台只能接收 息, 且讲者移动台可以改变; 所述組播为一 种特殊的组呼, 特殊在其讲者移动台不能改变。 但是, 由于公众网络和专用集群网络的用户群不同, 对业务的要求 也有很大的不同。 GSM通讯网络以前主要面向公众, 相关业务较适合公 众服务, 对于集群通信系统的一些特殊要求还无法满足。 At present, Europe has developed a set of international standard GSM-R for railway mobile communication. It uses GSM communication network as the service bearer and can complete basic group call (VGCS) / multicast (VBS) and other trunking communication services. Basic voice dispatch call function. The group call is a call that multiple mobile stations participate at the same time, wherein the speaker mobile station can receive and send information, the listener mobile station can only receive information, and the speaker mobile station can change; the multicast is a special type The group call, special in its speaker mobile station can not be changed. However, due to the different user groups of the public network and the private cluster network, the requirements for the business are also very different. The GSM communication network used to be mainly for the public, and related services were more suitable for public services. Some special requirements for the cluster communication system could not be met.
在集群通信系统中, 需要对组呼 /组播中的移动台 (MS )进行实时 定位,即网络侧需要获知指定组呼 /组播中每个移动台的实时小区级位置 信息。 例如获知组呼 /组播移动台在哪个小区中、且距离该小区的基站有 多远; 具体的位置参数包括移动台所在的小区标识以及在该小区中与基 站的距离。  In the trunking communication system, the mobile station (MS) in the group call/multicast needs to be located in real time, that is, the network side needs to know the real-time cell-level location information of each mobile station in the specified group call/multicast. For example, it is known in which cell the group call/multicast mobile station is located and from the base station of the cell; the specific location parameters include the cell identity of the mobile station and the distance from the base station in the cell.
然而, 在现有的 GSM系统中, 只能对单个的移动台进行定位, 定位 的方式为: 移动台通过占用上行链路资源上报位置信息, 网络侧才 据上 报的位置信息对移动台进行定位。 由于在组呼 /组播中, 是对一组移动 台定位, 如果利用现有的定位方法则会占用大量的上行链路资源, 因此 现有的基于 GSM的集群通信系统还无法实现对组呼 /组播移动台进行实 时定位。 发明内容  However, in the existing GSM system, only a single mobile station can be located. The positioning method is as follows: The mobile station reports the location information by occupying the uplink resource, and the network side locates the mobile station according to the reported location information. . Since the group call/multicast is a group of mobile stations, if the existing positioning method utilizes a large amount of uplink resources, the existing GSM-based trunking communication system cannot implement the group call. /Multicast mobile station for real-time positioning. Summary of the invention
有鉴于此,本发明的主要目的是提供一种对组呼 /组播移动台进行实 时定位的方法, 使得基于公共网络的集群通信系统在组呼 /组播过程中, 网络侧可随时对指定組呼 /组播的组内移动台进行定位,便于集群通讯系 统的指挥调度。  In view of this, the main object of the present invention is to provide a method for real-time positioning of a group call/multicast mobile station, so that the network communication system based on the public network can be specified at any time during the group call/multicast process. The mobile station in the group call/multicast group is positioned to facilitate the command and dispatch of the cluster communication system.
本发明的另一目的是提供一种对组呼 /组播移动台进行实时定位的 系统, 使得基于公共网络的集群通信系统在组呼 /组播过程中, 网络侧可 随时对指定组呼 /组播的组内移动台进行定位,便于集群通讯系统的指挥 调度。  Another object of the present invention is to provide a system for real-time positioning of a group call/multicast mobile station, so that the cluster communication system based on the public network can call the designated group at any time during the group call/multicast process. The multicast station in the multicast group is positioned to facilitate the command and dispatch of the trunking communication system.
一种对组呼 /组播移动台进行实时定位的方法,适用于基于公共网络 的集群通信系统, 该方法将 SDCCH信道划分为多个 SDCCH子信道; 为组呼 /組播分配所划分的 SDCCH子信道, 将所分配的 SDCCH子信道 的描述信息下发给该组呼 /組播内的所有移动台;所述各个移动台根据所 述 SDCCH子信道的描述信息获知所分配的 SDCCH子信道, 确定自身 在所分配 SDCCH子信道中上报接入突发脉冲序列 AB的位置, 在该上 报位置周期地上报携带自身信息的 AB; 网络侧在为所述组呼 /组播分配 的 SDCCH子信道上接收 AB,根据 AB的位置以及该 AB携带的移动台 信息对该移动台进行定位。 A method for real-time positioning of a group call/multicast mobile station, which is suitable for public network-based The cluster communication system, the method divides the SDCCH channel into multiple SDCCH subchannels; assigns the divided SDCCH subchannels to the group call/multicast, and sends the description information of the allocated SDCCH subchannels to the group call/group All mobile stations in the broadcast; the respective mobile stations learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel, and determine that the location of the access burst sequence AB is reported in the allocated SDCCH subchannel, The reporting location periodically reports the AB carrying its own information; the network side receives the AB on the SDCCH subchannel allocated for the group call/multicast, and locates the mobile station according to the location of the AB and the mobile station information carried by the AB. .
优选地,所述划分 SDCCH子信道的具体方法为:按照每个 SDCCH 子信道在 N个 2x51复帧占用 1个突发脉冲序列 BURST的划分方式对 所述 SDCCH信道进行划分, 其中 N为正整数。  Preferably, the specific method for dividing the SDCCH subchannel is: dividing the SDCCH channel according to a division manner in which each of the SDCCH subchannels occupies one burst sequence BURST in N 2x51 multiframes, where N is a positive integer .
优选地, 所述为组呼 /组播分配所划分的 SDCCH子信道的具体方法 为: 一个组呼 /组播对应分配一个或多个 SDCCH子信道。  Preferably, the specific method for allocating the divided SDCCH subchannels for the group call/multicast is: one group call/multicast correspondingly assigning one or more SDCCH subchannels.
优选地, 所述移动台确定自身在所分配 SDCCH子信道中上报 AB 位置的方法为:  Preferably, the method for the mobile station to determine that it reports the AB position in the allocated SDCCH subchannel is:
判断所述 SDCCH子信道中的小区帧号是否符合以下公式:  Determining whether the cell frame number in the SDCCH subchannel meets the following formula:
( ( FN ) Mode ( Kmax_idxNx 102 ) ) Integer ( Nx 102 ) = Num—id 其中 FN为小区帧号, Kmaxjd为网络侧下发给移动台的所述組呼 / 组播的组内最大移动台数, Num—id为本移动台在所述组呼 /組播内的编 号; 所述 Num—id预先配置存储在本移动台中; 所述 N预先配置存储在 移动台中或由网絡侧下发给移动台;  (FN) Mode ( Kmax_idxNx 102 ) ) Integer ( Nx 102 ) = Num — id where FN is the cell frame number, and Kmaxjd is the maximum number of mobile stations in the group call/multicast group that the network side sends to the mobile station. The Num_id is the number of the mobile station in the group call/multicast; the Num_id is pre-configured and stored in the mobile station; the N is pre-configured and stored in the mobile station or sent to the mobile station by the network side. ;
如果小区帧号符合上述公式 , 则在该小区帧号位置上报 AB。  If the cell frame number conforms to the above formula, AB is reported at the cell frame number position.
优选地, 所述 AB的长度为 8比特, 且 AB携带的移动台的信息为 该移动台的組内编号信息, 具体为: Num—id对 256取模后得到的值。  Preferably, the length of the AB is 8 bits, and the information of the mobile station carried by the AB is the intra-group number information of the mobile station, specifically: a value obtained by modulo Num-id to 256.
优选地, 网絡侧根据所接收 AB的位置以及该 AB携带的移动台信 息对该移动台进行定位的方法为: 根据接收 AB的位置和该 AB携带的 移动台信息对该 AB进行校验, 校验成功后, 通过接收 AB的位置确定 接收该 AB的小区标识以及上 4艮该 AB的移动台与该小区基站的距离, 完成对该移动台的定位。 Preferably, the network side according to the location of the received AB and the mobile station letter carried by the AB The method for locating the mobile station is: verifying the AB according to the location of the receiving AB and the mobile station information carried by the AB. After the verification succeeds, determining, by receiving the position of the AB, receiving the cell identifier of the AB and 4. The distance between the mobile station of the AB and the base station of the cell completes the positioning of the mobile station.
优选地,所述的校验方法为:计算((FN ) Mode ( Kmax—idxNxl02 ) ) Mode ( 256 ) 的值, 其中 FN为所接收 AB对应的小区帧号; 判断所接 收的 AB携带的移动台信息是否与 ((FN ) Mode ( Kmax_idxN l02 ) ) Mode ( 256 ) 的值相等, 如果相等, 则校验成功, 否则校验失败。  Preferably, the verification method is: calculating a value of ((FN) Mode ( Kmax - idxNxl02 ) ) Mode ( 256 ), where FN is a cell frame number corresponding to the received AB; determining the movement carried by the received AB Whether the station information is equal to the value of ((FN) Mode ( Kmax_idxN l02 ) ) Mode ( 256 ). If they are equal, the verification is successful, otherwise the verification fails.
优选地, 所述将所分配的 SDCCH子信道的描述信息下发给所述组 呼 /组播内的所有移动台的具体方法为: 网络侧在所述组呼 /组播所涉及 小区的通知信道上周期性地发送该组呼 /组播的标识以及为该组呼 /组播 分配的 SDCCH子信道的描述信息, 所述小区中的移动台通过监听该通 知信道获得该组呼 /组播标识和 SDCCH子信道描述信息, 并通过该组呼 /組播标识判断本移动台是否从属于该组呼 /组播,是则接受所述 SDCCH 子信道描述信息; 否则, 不作处理。  Preferably, the specific method for sending the description information of the allocated SDCCH subchannel to all mobile stations in the group call/multicast is: the network side notification of the cell involved in the group call/multicast The group call/multicast identifier and the description information of the SDCCH subchannel allocated for the group call/multicast are periodically sent on the channel, and the mobile station in the cell obtains the group call/multicast by listening to the notification channel. And identifying the SDCCH subchannel description information, and determining, by the group call/multicast identifier, whether the mobile station is subordinate to the group call/multicast, and accepting the SDCCH subchannel description information; otherwise, no processing is performed.
优选地, 所述将所分配的 SDCCH子信道的描述信息下发给所述组 呼 /组播内的所有移动台的具体方法为: 网络侧在所述组呼 /组播所涉及 小区的下行快速随路控制信道上周期性地发送该组呼 /组播的标识以及 为该组呼 /组播分配的 SDCCH子信道的描述信息, 所述小区中的移动台 通过监听该下行快速随路控制信道获得该组呼 /组播标识和 SDCCH子信 道的描述信息, 通过该组呼 /组播标识判断本移动台是否从属于该组呼 / 组播, 是则接受所述 SDCCH子信道描述信息; 否则, 不作处理。  Preferably, the specific method for sending the description information of the allocated SDCCH subchannel to all mobile stations in the group call/multicast is: the network side is in the downlink of the cell involved in the group call/multicast The group of call/multicast identifiers and the description information of the SDCCH subchannels allocated for the group call/multicast are periodically sent on the fast associated control channel, and the mobile station in the cell monitors the downlink fast on-channel control The channel obtains the description information of the group call/multicast identifier and the SDCCH subchannel, and determines whether the mobile station is subordinate to the group call/multicast by using the group call/multicast identifier, and accepts the SDCCH subchannel description information; Otherwise, no processing is done.
优选地, 所述公共网络为基于全球移动通信系统的移动通讯网络。 优选地,所述网络侧主要包括基站子系统 BSS、移动交换中心 MSC、 组呼 /组播控制寄存器 GCR和调度系统; 所述网络侧为组呼 /组播分配所 划分的 SDCCH子信道, 将所分配的 SDCCH子信道的描述信息下发给 该组呼 /组播内的所有移动台的具体步骤为: Preferably, the public network is a mobile communication network based on a global mobile communication system. Preferably, the network side mainly includes a base station subsystem BSS, a mobile switching center MSC, a group call/multicast control register GCR, and a scheduling system; and the network side is a group call/multicast distribution station. For the divided SDCCH subchannels, the specific steps of sending the description information of the allocated SDCCH subchannels to all mobile stations in the group call/multicast are:
a、调度系统向 MSC发送需要实时定位的组呼 /组播的标识和该组呼 /组播的组内最大移动台数;  a. The scheduling system sends the group call/multicast identifier that needs real-time positioning to the MSC and the maximum number of mobile stations in the group of the group/multicast;
b、 MSC向 GCR发送所述组呼 /组播标识;  b. The MSC sends the group call/multicast identifier to the GCR.
c、 GCR根据收到的组呼 /组播标识查询预先设置的组呼 /组播移动台 所属小区列表与组呼 /组播标识的对应关系; 获得该组呼 /组播标识对应 的小区列表; 向 MSC返回该小区列表信息;  The GCR queries the correspondence between the cell list of the group call/multicast mobile station and the group call/multicast identifier according to the received group call/multicast identifier; and obtains the cell list corresponding to the group call/multicast identifier. Returning the cell list information to the MSC;
d、 MSC根据收到的小区列表信息查询预先设置的 BSS与小区标识 的对应关系, 获得小区列表所涉及的 BSS以及该 BSS所对应小区标识, 并向该 BSS发送所述组呼 /组播标识、 组内最大移动台数、 和该 BSS对 应的小区标识; '  The MSC queries the pre-set BSS and the cell identifier according to the received cell list information, obtains the BSS involved in the cell list, and the cell identifier corresponding to the BSS, and sends the group call/multicast identifier to the BSS. , the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS;
e、 BSS收到所述组呼 /组播标识、 组内最大移动台数、 该 BSS对应 的小区标识后, 为该组呼 /组播分配所划分的 SDCCH子信道, 并在所述 小区标识指定的各个小区中下发携带所分配 SDCCH子信道的描述信息 的通知消息,且该通知消息中还进一步携带所述组呼 /组播标识和组内最 大移动台数。  After receiving the group call/multicast identifier, the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS, the BSS allocates the divided SDCCH subchannel for the group call/multicast, and specifies the cell identifier in the group. The notification message carrying the description information of the allocated SDCCH subchannel is sent in each of the cells, and the group call/multicast identifier and the maximum number of mobile stations in the group are further carried in the notification message.
优选地, 所述网络侧在为所述组呼 /组播分配的 SDCCH子信道上接 收 AB,根据 AB的位置以及该 AB携带的移动台信息对该移动台进行定 位的具体步骤为:  Preferably, the network side receives the AB on the SDCCH subchannel allocated for the group call/multicast, and the specific steps of locating the mobile station according to the location of the AB and the mobile station information carried by the AB are:
A、 BSS在为所述组呼 /组播分配的 SDCCH子信道上接收移动台上 报的 AB, 利用该组呼 /组播的组内最大移动台数、 该 SDCCH子信道的 描述信息以及所接收 AB对应的位置对该 AB携带的信息进行校验, 如 果校验成功则利用该 AB确定接收该 AB的小区基站的标识、 以及上报 该 AB的移动台与该小区基站的距离, 将所述组呼 /组播的标识、 该移动 台的组内编号、 该小区基站的标识、 以及该移动台与该小区基站的距离 上报到 MSC, 执行步骤 B; 如果校验失败则不对该 AB进行处理; A. The BSS receives the AB reported by the mobile station on the SDCCH subchannel allocated for the group call/multicast, the maximum number of mobile stations in the group using the group call/multicast, the description information of the SDCCH subchannel, and the received AB. The corresponding location is used to check the information carried by the AB. If the verification succeeds, the identifier of the cell base station that receives the AB and the distance between the mobile station reporting the AB and the cell base station are determined by using the AB, and the group call is performed. /multicast identity, the move The intra-group number, the identifier of the cell base station, and the distance between the mobile station and the cell base station are reported to the MSC, and step B is performed; if the verification fails, the AB is not processed;
B、 MSC向调度系统转发所述组呼 /組播标识、所述移动台的组内编 号、 所述小区基站的标识、 以及该移动台与该小区基站的距离;  B. The MSC forwards the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the scheduling system;
C、 调度系统根据所述组呼 /组播标识、 所述移动台的组内编号、 所 述小区基站的标识、以及该移动台与该小区基站的距离对该组呼 /组播的 移动台进行定位。  C. The scheduling system according to the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the group call/multicast mobile station Positioning.
一种对组呼 /组播移动台进行实时定位的系统,设置在公共网络的集 群通信系统中, 包括:  A system for real-time positioning of a group call/multicast mobile station is set in a cluster communication system of a public network, including:
信道划分及分配处理单元, 设置在所述集群通信系统的网络侧, 用 于将 SDCCH信道划分为多个 SDCCH子信道的信道划分单元, 为组呼 / 组播分配所划分的 SDCCH子信道, 并将所分配的 SDCCH子信道的描 述信息下发给该組呼 /组播内的移动台;  a channel division and allocation processing unit, disposed on a network side of the trunking communication system, configured to divide the SDCCH channel into channel division units of multiple SDCCH subchannels, and allocate the divided SDCCH subchannels for group call/multicast, and And sending the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast;
定位信息上报单元, 设置在所述集群通信系统的移动台上, 用于根 据移动台收到的所述 SDCCH子信道的描述信息获知所分配的 SDCCH 子信道, 确定本移动台在所分配 SDCCH子信道中上报 AB的位置, 在 该上报位置周期地上报携带本移动台信息的 AB;  a positioning information reporting unit, configured to be located on the mobile station of the trunking communication system, configured to learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel received by the mobile station, and determine that the mobile station is in the allocated SDCCH sub The location of the AB is reported in the channel, and the AB carrying the mobile station information is periodically reported in the reporting position;
定位单元, 设置在所述集群通信系统的网络侧, 用于在为所述组呼 /组播分配的 SDCCH子信道上接收 AB, 根据 AB的位置以及该 AB携 带的移动台信息对该移动台进行定位。  a positioning unit, disposed on a network side of the trunking communication system, configured to receive an AB on an SDCCH subchannel allocated for the group call/multicast, and the mobile station according to the location of the AB and the mobile station information carried by the AB Positioning.
优选的 , 所述信道划分及分配处理单元通过所述网絡侧在所述组呼 /组播所涉及小区的通知信道上向该组呼 /组播内的移动台下发所分配的 SDCCH子信道的描述信息。  Preferably, the channel division and allocation processing unit delivers the allocated SDCCH subchannel to the mobile station in the group call/multicast by using the network side on the notification channel of the group call/multicast involved cell. Descriptive information.
优选的, 所述信道划分及分配处理单元通过所述网络侧在所述组呼 /组播所涉及小区的下行快速随路控制信道上向该组呼 /组播内的移动台 下发所分配的 SDCCH子^道的描述信息。 Preferably, the channel division and allocation processing unit sends, by the network side, a mobile station in the group call/multicast on a downlink fast associated control channel of the group call/multicast involved cell. The description information of the allocated SDCCH sub-channel is issued.
优选的, 所述定位单元中进一步包括校验单元: 用于根据接收 AB 的位置和该 AB携带的信息对该 AB进行校验。  Preferably, the positioning unit further includes a check unit: configured to check the AB according to the location of the receiving AB and the information carried by the AB.
优选的, 所述公共网絡为基于全球移动通信系统的移动通讯网絡。 优选的, 所述信道划分及分配处理单元设置在所述集群通信系统的 BSS中; 所述定位单元进一步包括第一定位单元和第二定位单元; 所述 第一定位单元设置在 BSS中, 用于利用 AB确定接收该 AB的小区基站 的标识、 以及上报该 AB的移动台与该小区基站的距离; 第二定位单元 设置在集群通信系统的调度系统中, 根据所述 AB上报的移动台信息、 所述小区基站的标识、 以及上报该 AB的移动台与该小区基站的距离对 所述移动台进行定位。  Preferably, the public network is a mobile communication network based on a global mobile communication system. Preferably, the channel division and allocation processing unit is disposed in a BSS of the trunking communication system; the positioning unit further includes a first positioning unit and a second positioning unit; the first positioning unit is disposed in the BSS, The identifier of the cell base station that receives the AB and the distance between the mobile station that reports the AB and the cell base station are determined by using the AB; the second positioning unit is disposed in the scheduling system of the trunking communication system, and according to the mobile station information reported by the AB And identifying, by the identifier of the cell base station, and the distance between the mobile station reporting the AB and the base station of the cell, the mobile station.
本发明具有如下有益效果:  The invention has the following beneficial effects:
1、 由于本发明将全球移动通信系统的 SDCCH信道划分为多个 SDCCH子信道, 分配给多个组呼 /组播, 组呼 /组播的移动台在所分配的 SDCCH子信道通过 AB周期实时地上报自身信息, 网络侧根据所上报 的 AB对移动台进行定位,因此可以实现对组呼 /组播移动台的实时定位, 便于集群通讯系统在进行组呼 /组播时的指挥调度通信。  1. Since the present invention divides the SDCCH channel of the global mobile communication system into a plurality of SDCCH subchannels and allocates them to multiple group call/multicast, the mobile station of the group call/multicast passes the AB cycle in real time on the allocated SDCCH subchannel. The local information is reported on the ground, and the network side locates the mobile station according to the reported AB, so that real-time positioning of the group call/multicast mobile station can be realized, which facilitates the command and dispatch communication of the cluster communication system during group call/multicast.
2、 由于本发明中的移动台利用接入突发脉冲序列 (AB , Access Burst )上报信息, 而一个 AB所用时间非常短, 一般只有 0.577ms, 因 此听者移动台上报信息时所离开组呼 /组播信道的时间非常短,上报速度 快, 移动台的正常通信不受影响, 对组呼 /组播的基本业务没有影响。  2. Since the mobile station in the present invention uses the access burst sequence (AB, Access Burst) to report information, and the time taken by an AB is very short, generally only 0.577 ms, so the listener moves the station to leave the group call when reporting information. The time of the multicast channel is very short, the reporting speed is fast, and the normal communication of the mobile station is not affected, and has no effect on the basic services of the group call/multicast.
3、 本发明不占用组呼 /组播信道的上行链路, 对移动台与网络侧的 通信没有影响, 避免链路资源浪费。  3. The present invention does not occupy the uplink of the group call/multicast channel, and has no influence on the communication between the mobile station and the network side, thereby avoiding waste of link resources.
4、由于本发明根据移动台实时上报的 AB确定该移动台所属小区以 及该移动台到该小区基站的距离,因此可以实现对组呼 /组播移动台的小 区级实时定位, 即可以获知该组呼 /组播中的移动台当前在哪个小区中、 且距离该小区的基站有多远, 定位的精度高。 4. Since the present invention determines the distance to which the mobile station belongs and the mobile station to the base station according to the AB reported by the mobile station in real time, the small group/multicast mobile station can be implemented. Real-time location-level positioning, that is, it can be known in which cell the mobile station in the group call/multicast is currently located, and how far away from the base station of the cell, and the positioning accuracy is high.
5、 由于 BSS可通过通知信道和 FACCH信道下发通知消息, 而处 于空闲状态的移动台通过监听通知信道获取通知消息 , 处于呼叫模式下 的移动台可以通过监听 FACCH信道获取通知消息, 因此本发明既可以 对空闲状态下的组内移动台进行定位, 又可以对处于呼叫模式下的移动 台进行定位。 附图简要说明  5. The BSS can send a notification message through the notification channel and the FACCH channel, and the mobile station in the idle state acquires the notification message by monitoring the notification channel, and the mobile station in the call mode can obtain the notification message by listening to the FACCH channel, so the present invention The mobile station in the group in the idle state can be located, and the mobile station in the call mode can be located. BRIEF DESCRIPTION OF THE DRAWINGS
图 1为 GSM系统中 SDCCH信道所映射物理信道的原理图; 图 2为本发明所述实施例对组呼移动台进行实时定位的流程图; 图 3为本发明所述定^系统的结构示意图。 实施本发明的方式  1 is a schematic diagram of a physical channel mapped by a SDCCH channel in a GSM system; FIG. 2 is a flowchart of real-time positioning of a group call mobile station according to an embodiment of the present invention; FIG. 3 is a schematic structural diagram of a system according to the present invention. . Mode for carrying out the invention
下面结合附图和具体实施例进一步说明本发明的实施方法。  The method for carrying out the invention will be further described below in conjunction with the drawings and specific embodiments.
本发明适用于基于公共网络的集群无线通信系统的组呼 /組播过程, 本文的实施例以基于 GSM公共网络的集群无线通信系统为例对本发明 进行说明。  The present invention is applicable to a group call/multicast process of a trunked wireless communication system based on a public network. The embodiment of the present invention describes the present invention by taking a cluster wireless communication system based on a GSM public network as an example.
本实施例中, 将 GSM通信系统中的独立专用控制信道(SDCCH ) 指定为用于组呼 /组播移动台上^ =艮位置信息的专用控制信道, 一个组呼 / 组播内的所有移动台共享一条 SDCCH信道。 由于 SDCCH信道不需预 先建立链路,移动台只需定点上报 AB, 所用时间极短, 一般只有几 ms, 因此不会影响听者移动台的正常通信。  In this embodiment, an independent dedicated control channel (SDCCH) in the GSM communication system is designated as a dedicated control channel for group call/multicast mobile station ^=艮 location information, all movements within a group call/multicast The station shares a SDCCH channel. Since the SDCCH channel does not need to establish a link in advance, the mobile station only needs to report the AB to the fixed point, and the time used is extremely short, generally only a few ms, so it does not affect the normal communication of the listener's mobile station.
GSM通信系统中, SDCCH为专用的信令信道, SDCCH所映射的 物理信道为复帧中的多个时隙。 本发明以一个复帧作为一个单位物理信 道, 该复帧可以为不同的类型, 本实施例中以 2x51 复帧作为一个单位 物理信道, 在每个 2x51复帧中有 102个帧, 在每个 2x51复帧中映射有 8个 SDCCH, 每个 SDCCH中映射在 12个时隙上, 分别对应占用 12个 突发脉冲序列 ( BURST )。 In the GSM communication system, the SDCCH is a dedicated signaling channel, and the physical channel mapped by the SDCCH is a plurality of time slots in the multiframe. The invention uses a multiframe as a unit physical letter The multiframe can be of different types. In this embodiment, 2x51 multiframe is used as a unit physical channel, 102 frames are used in each 2x51 multiframe, and 8 SDCCHs are mapped in each 2x51 multiframe. Each SDCCH is mapped on 12 time slots, which respectively occupy 12 burst sequences (BURST).
图 1为 GSM系统中 SDCCH信道所映射物理信道的原理图。如图 1 所示, 2x51复帧序列以循环的方式发射, 在每个 2x51复帧中包括 102 个帧, 例如帧号为" 0"和" N-1"的 2x51 复帧中都包括 102 个帧, 一个 SDCCH信道占用 2x51复帧中的 12个 BURST。  Figure 1 is a schematic diagram of the physical channel mapped by the SDCCH channel in the GSM system. As shown in Figure 1, the 2x51 multiframe sequence is transmitted in a round-robin fashion, including 102 frames in each 2x51 multiframe, for example, 102 in 2x51 multiframes with frame numbers "0" and "N-1". Frame, one SDCCH channel occupies 12 BURSTs in a 2x51 multiframe.
通信系统中可能同时存在多个组呼 /组播 , 为了使不同的组呼 /组播 移动台利用 SDCCH信道上报定位信息时互不干扰, 需要对现有 GSM系 统的 SDCCH信道进行进一步细分, 划分成不同的 SDCCH子信道, 分配 给不同的组呼 /组播。 子信道的具体划分可以根据运营商的要求进行。  There may be multiple group calls/multicasts in the communication system. In order to enable different group call/multicast mobile stations to use the SDCCH channel to report positioning information without interference, the SDCCH channel of the existing GSM system needs to be further subdivided. Divided into different SDCCH subchannels, assigned to different group calls/multicasts. The specific division of the subchannels can be performed according to the requirements of the operator.
以下是为组呼 /组播划分 SDCCH子信道的具体方法:  The following are specific methods for dividing the SDCCH subchannel for group call/multicast:
根据 SDCCH子信道所占用的 BURST的数量差异, 可以对 SDCCH信 道进行多种类型的划分:  According to the difference in the number of BURSTs occupied by the SDCCH subchannel, multiple types of SDCCH channels can be divided:
如果每个 SDCCH子信道在 2x51复帧占用 12个 BURST, 则按照 2x51 复帧周期进行划分, 一个 SDCCH信道可以划分为 1个子信道;  If each SDCCH subchannel occupies 12 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into one subchannel;
如果每个 SDCCH子信道在 2x51复帧占用 6个 BURST,则按照 2x51复 帧周期进行划分, 一个 SDCCH信道可以划分为 2个子信道;  If each SDCCH subchannel occupies 6 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into 2 subchannels;
如果每个 SDCCH子信道在 2x51复帧占用 4个 BURST,则按照 2x51复 帧周期进行划分, 一个 SDCCH信道可以划分为 3个子信道;  If each SDCCH subchannel occupies 4 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into three subchannels;
如果每个 SDCCH子信道在 2x51复帧占用 3个 BURST,则按照 2x51复 帧周期进行划分, 一个 SDCCH信道可以划分为 4个子信道;  If each SDCCH subchannel occupies 3 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 complex frame period, and one SDCCH channel can be divided into 4 subchannels;
如果每个 SDCCH子信道在 2x51复帧占用 2个 BURST,则按照 2x51复 帧周期进行划分, 一个 SDCCH信道可以划分为 6个子信道; 如果每个 SDCCH子信道在 2x51复帧占用 1个 BURST,则按照 2x51复 帧周期进行划分, 一个 SDCCH信道可以划分为 12个子信道; If each SDCCH subchannel occupies 2 BURSTs in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into 6 subchannels; If each SDCCH subchannel occupies 1 BURST in a 2x51 multiframe, it is divided according to a 2x51 multiframe period, and one SDCCH channel can be divided into 12 subchannels;
如果每个 SDCCH子信道在两个 2x51复帧占用 1个 BURST, 则按照两 个 2x51复帧周期进行划分 , 一个 SDCCH信道可以划分为 24个子信道; 依此类推  If each SDCCH subchannel occupies one BURST in two 2x51 multiframes, it is divided according to two 2x51 multiframe periods, one SDCCH channel can be divided into 24 subchannels; and so on.
如果每个 SDCCH子信道在 N个 2x51复帧占用 1个 BURST, 则按照 N 个 2x51复帧周期进行划分,一个 SDCCH信道可以划分为 Nxl2个子信道; Nxl2个子信道分别表示为 SDCCH— subN ( k ) , k为 0, 1 , 2, k, k + 1, , Νχ 12-1。  If each SDCCH subchannel occupies 1 BURST in N 2x51 multiframes, it is divided according to N 2x51 multiframe periods, and one SDCCH channel can be divided into Nxl2 subchannels; Nxl2 subchannels are respectively represented as SDCCH_subN(k) , k is 0, 1 , 2, k, k + 1, , Νχ 12-1.
具体实现过程中, 采用上述哪种类型划分 SDCCH需要根据 GSM中 组呼 /组播业务的组数量决定。 本实施例中采用每个 SDCCH子信道在 N 个 2x51复帧占用 1个 BURST的子信道分配方式, 其中 N为正整数, 这种 方式每个 SDCCH分成的子信道数量多, 可以支持多个组。 例如: 若以 2x2x51复帧周期(约 941毫秒)划分 SDCCH子信道, 则一个 SDCCH信道 可以划分成 24个 SDCCH子信道, 可支持 24个组。  In the specific implementation process, the type of SDCCH used in the above-mentioned type is determined according to the number of groups of group call/multicast services in GSM. In this embodiment, each SDCCH subchannel adopts a subchannel allocation mode in which one BURST is occupied by N 2x51 multiframes, where N is a positive integer. In this manner, each SDCCH is divided into a plurality of subchannels, and can support multiple groups. . For example: If the SDCCH subchannel is divided by 2x2x51 multiframe period (about 941 milliseconds), one SDCCH channel can be divided into 24 SDCCH subchannels, which can support 24 groups.
以上所述为 BSS为组呼 /组播移动台划分 SDCCH子信道的具体方法, 划分好后, 所划分的 SDCCH子信道信息分别设置存储在 BSS系统和移动 台中, 例如本实施例的 SDCCH子信道信息为 SDCCH— subN ( k ) , k为 0, 1, 2, k, k + 1 , , NX12-L  The foregoing is a specific method for the BSS to divide the SDCCH subchannel for the group call/multicast mobile station. After being divided, the divided SDCCH subchannel information is separately set and stored in the BSS system and the mobile station, for example, the SDCCH subchannel of this embodiment. The information is SDCCH— subN ( k ) , k is 0, 1, 2, k, k + 1 , , NX12-L
由于对于实时定位来说, 组呼实时定位和组播实时定位的方案相 同, 因此以下实施例中仅以组呼为例对本发明进行说明。  Since the real-time positioning of the group call and the real-time positioning of the multicast are the same for the real-time positioning, the present invention is described by taking the group call as an example in the following embodiments.
为了提供小区信息, 在网络侧的組呼控制寄存器(GCR ) 中设置所 支持组呼移动台的活动区域信息, 活动区域为该组呼所有移动台的大致 活动范围, 活动区域信息可以是组呼移动台所归属小区的列表, 也可以 是位置区的列表, 其中以组呼标识(GID )为索引。 图 2为本发明所述实施例对组呼移动台进行实时定位的流程图。 如 图 2所示, 该流程包括: In order to provide the cell information, the active area information of the supported group call mobile station is set in the group call control register (GCR) on the network side, and the active area is the approximate active range of all the mobile stations of the group call, and the active area information may be a group call. The list of cells to which the mobile station belongs may also be a list of location areas, where the group call identifier (GID) is used as an index. 2 is a flow chart of real-time positioning of a group call mobile station according to an embodiment of the present invention. As shown in Figure 2, the process includes:
步骤 201、 网络侧的调度系统向移动交换中心 (MSC )发送组呼移 动台位置请求申请消息 VGCS—Subscrber— Position— Req ( GID , Kmaxjd ) , 该消息中包括需要进行实时定位的组呼的 GID、 以及该组 呼的组内最大移动台数(Kmax— id ) 。  Step 201: The scheduling system on the network side sends a group call mobile station location request application message VGCS_Subscrber_Position-Req (GID, Kmaxjd) to the mobile switching center (MSC), where the message includes the GID of the group call that needs to be real-time located. And the maximum number of mobile stations (Kmax_id) in the group.
步骤 202、 MSC收到所述 VGCS—Subscrber— Position— Req ( GID , Kmax— id ) 消息后, 向 GCR发送组呼区域请求消息 VGCS— Area— Req ( GID ) , 该消息中携带 GID。  Step 202: After receiving the VGCS-Subscrber_Position-Req (GID, Kmax_id) message, the MSC sends a group call area request message VGCS_Area-Req (GID) to the GCR, where the message carries the GID.
步驟 203、 GCR收到 VGCS— Area— Req ( GID ) 消息后, 居其中携 带的 GID查询预先设置的小区列表, 查找出该组呼内移动台的大致活动 范围信息, 这个活动范围信息为该组呼组内移动台所属小区的列表信息 ( Cell list ) , 该 Cell list反映了组呼的区域; 之后向 MSC返回组呼移动台 位置结果消息 VGCS— Area— Result ( Cell list ) , 该消息中包括 Cell list。  Step 203: After receiving the VGCS-Area-Req (GID) message, the GCR queries the pre-set cell list and searches for the approximate activity range information of the mobile station in the group. The activity range information is the group. a cell list of a cell to which the mobile station belongs in the call group, the Cell list reflects the area of the group call; and then returns a group call mobile station location result message VGCS_Area_Result (Cell list) to the MSC, where the message includes Cell list.
步骤 204、 MSC收到 VGCS— Area— Result ( Cell list ) 消息后, 根据该 消息携带的 Cell list查询自身配置的小区与 BSS的对应关系, 获知所述组 呼区域所涉及的所有 BSS; 向该组呼区域所涉及的各个 BSS发送组呼移 动台位置查询消息 VGCS— Subscrber— Position— Req ( GID , Cell— list— bss, Kmaxjd ), 该消息中包括: 组呼 GID、 该组呼区域在该 BSS中的小区列 表信息 Cell— list— bss, 该组呼的组内最大移动台数 Kmax— id。  Step 204: After receiving the VGCS-Area-Result (Cell list) message, the MSC queries the corresponding relationship between the cell and the BSS configured by the Cell list, and learns all the BSSs involved in the group call area. Each of the BSSs in the group call area sends a group call mobile station location query message VGCS_Subscrber_Position_Req (GID, Cell_list_bss, Kmaxjd), and the message includes: a group call GID, the group call area is in the Cell list information Cell_list_bss in the BSS, the maximum number of mobile stations Kmax_id in the group of the group call.
步 骤 205 、 所 述 组 呼 区 域 内 的 各 个 BSS 收 到 VGCS— Subscrber— Position— Req ( GID, Cell— list— bss, Kmax— id )消息后, 按照所存储的已经划分好的 SDCCH子信道信息 SDCCH— subN ( k ) , k 为 0, 1 , 2, k, k + 1 , , Νχ12-1 , 给该组呼标识为 GID的组呼 分配其中的一个或多个 SDCCH子信道, 用于该组呼移动台的定位; 并记 录该 GID、 Kmax— id与该 SDCCH子信道的对应关系。 Step 205: After receiving the VGCS_Subscrber_Position-Req (GID, Cell_list_bss, Kmax_id) message, each BSS in the group call area follows the stored SDCCH subchannel information SDCCH. —subN ( k ) , k is 0, 1 , 2, k, k + 1 , , Νχ12-1 , assigning one or more SDCCH subchannels to the group call whose group identity is GID, for the group Call the positioning of the mobile station; The correspondence between the GID, Kmax_id and the SDCCH subchannel is recorded.
具体实现中,可以给一个组呼对应分配多个 SDCCH子信道。本实施 例中仅以给一个组呼分配一个 SDCCH子信道为例进行说明, H设为当前 组呼所分配的 SDCCH子信道为 SDCCH— subN ( i ) , 每个 SDCCH子信道 中, 每 N个 2x51复帧周期可以上^ =艮一个組内移动台定位信息。 具体分配 哪个 SDCCH子信道, 即所述 i 的具体取值可以有多种方式, 例如可以 按 GID顺序取值, 也可按照某个特定的规律取值, 具体取值方式不属本 专利的讨论之列 ,但要保证所分配的 SDCCH子信道没有被分配给其他组 呼。  In a specific implementation, multiple SDCCH subchannels may be allocated to one group call. In this embodiment, only one SDCCH subchannel is allocated to one group call as an example. H is set as the SDCCH subchannel allocated by the current group call is SDCCH_subN(i), and each N of the SDCCH subchannels The 2x51 multiframe period can be used to determine the mobile station positioning information in a group. Which SDCCH subchannel is specifically allocated, that is, the specific value of the i may be in various manners, for example, may be in the order of GID, or may be valued according to a specific law, and the specific value is not discussed in this patent. The list, but to ensure that the assigned SDCCH subchannel is not assigned to other group calls.
步驟 206、 所述 BSS在其收到的 Cell—list— bss 所列出的各个小区的 通知信道上周期性地发送通知消息 Notification ( GID , Kmax— id , SDCCH— subN ( i ) ) , 其中携带所述组呼 GID、 分配给该组呼的 SDCCH 子信道描述信息 SDCCH— subN ( i ) 、 以及该组最大移动台数 Kmax_id。 所述 SDCCH子信道描述信息中包括参数 i, 或者包括参数 N和i。 为了支 持处于呼叫模式下的组呼或组播移动台的定位, Notification ( GID, Kmax— id, SDCCH— subN ( i ) )也可以在所述各个小区业务信道的下行 快速随路控制信道(FACCH)信道上发送。  Step 206: The BSS periodically sends a notification message Notification (GID, Kmax_id, SDCCH_subN(i)) on the notification channel of each cell listed in the Cell_list_bss received by the BSS, where The group call GID, the SDCCH subchannel description information SDCCH_subN(i) assigned to the group call, and the maximum number of mobile stations Kmax_id of the group. The SDCCH subchannel description information includes a parameter i or includes parameters N and i. In order to support the positioning of the group call or multicast mobile station in the call mode, Notification (GID, Kmax_id, SDCCH_subN(i)) may also be in the downlink fast associated control channel (FACCH) of each cell traffic channel. ) Send on the channel.
本发明在移动台中或 SIM卡中预先存储签约移动台所从属的各个组 呼的 GID列表信息、 以及该签约移动台在其所从属组的组内编号信息 Num_id; 一个移动台可能从属于不同的组呼, 并且在每一个组呼内, 都 有该移动台对应的 Num— id。  The present invention pre-stores GID list information of each group call subordinate to the subscription mobile station in the mobile station or in the SIM card, and the intra-group number information Num_id of the subordinate group of the subscription mobile station; a mobile station may belong to a different group. Call, and within each group call, there is a Num_id corresponding to the mobile station.
步骤 207、 在移动台侧, 所述小区中处于空闲模式的移动台通过监 听通知信道而接收通知消息, 所述小区中处于呼叫模式下移动台通过监 听 FACCH信道而接收通知消息; 移动台在接收每条通知消息后, 判断该 通知消息中携带的 GID是否从属于本移动台所存储的组呼 GID列表, 如 果是, 则移动台解码该通知消息中的 SDCCH子信道描述信息 SDCCH— subN ( i ) , 接受网络侧为标识为 GID的组呼分配的 SDCCH子信 道为 SDCCH— subN (i) , 同时解码通知消息中的组内最大移动台数 Kmax— id; 如果不是, 本移动台不属于所述 GID标识的组呼, 因此本移 动台不作处理。 Step 207: On the mobile station side, the mobile station in the idle mode in the cell receives the notification message by monitoring the notification channel, where the mobile station receives the notification message by listening to the FACCH channel in the call mode; the mobile station is receiving After each notification message, it is determined whether the GID carried in the notification message is subordinate to the group call GID list stored by the mobile station, such as If yes, the mobile station decodes the SDCCH subchannel description information SDCCH_subN(i) in the notification message, and accepts that the SDCCH subchannel allocated by the network side for the group call identified as GID is SDCCH_subN(i), and simultaneously decodes the notification. The maximum number of mobile stations in the message Kmax_id; if not, the mobile station does not belong to the group call of the GID identifier, so the mobile station does not process.
步驟 208、 移动台在 SDCCH— subN ( i )子信道上确定的位置周期性 上报接入脉冲 ( AB , ACCESS BURST ) , 发送间隔周期为 Kmax_idxNxl02; 本实施例所述的 AB共有 8BIT, 其中携带该移动台的 组内编号信息, 8BIT的值为 (Num— id) Mode (256); 8比特所能表示 的最大二进制数为 11111111, 因此如果将该 8个比特都用来记录听者移 动台组内 ID,则最多只能表示 256个 ID号,对于组内移动台数大于 256 的组呼 /组播中, 组内 ID号大于 256的听者移动台来说无法表示, 因此 本实施例中听者移动台的组内 ID信息表示为: MODE [ID/256]„ 如果 AB中用 6个比特记录听者移动台组内 ID信息, 则最多只能标识 64个 ID号, 因此此时 AB 中携带的听者移动台组内 ID信息可以为 MODE [ID/64]。  Step 208: The mobile station periodically reports the access pulse (AB, ACCESS BURST) at the location determined on the SDCCH-subN(i) subchannel, and the interval of the transmission interval is Kmax_idxNxl02; the AB described in this embodiment has 8 BIT, which carries the The intra-group number information of the mobile station, the value of 8BIT is (Num_id) Mode (256); the maximum binary number that can be represented by 8 bits is 11111111, so if the 8 bits are used to record the listener mobile station group The internal ID can only represent up to 256 ID numbers. For a group call/multicast with more than 256 mobile stations in the group, the listener mobile station whose ID number is greater than 256 cannot be represented in the group. Therefore, in this embodiment, listening The intra-group ID information of the mobile station is expressed as: MODE [ID/256] „ If 6 bits are used to record the ID information of the listener mobile station group in AB, then only 64 ID numbers can be identified, so AB in this case The ID information of the carried mobile station group can be MODE [ID/64].
移动台在 SDCCH— subN ( i )子信道上发送 AB的位置符合如下公式 (1):  The position at which the mobile station transmits AB on the SDCCH-subN(i) subchannel conforms to the following formula (1):
( (FN) Mode ( Kmax— idxNx 102 ) ) Integer (N l02) = Num— id  ( (FN) Mode ( Kmax — idxNx 102 ) ) Integer (N l02) = Num — id
上述公式(1) 中: FN为当前移动台归属小区的统一的帧号, 由于 一帧对应一个 AB, 因此 FN也即当前移动台发送 AB的位置; N表示 SDCCH子信道的划分周期为 Nx2x51复帧, N在上述通知消息中的 SDCCH_subN ( i )子信道描述中携载; ( FN ) Mode ( Kmax_idxN l02 ) 表示对 FN取 Kmax— idxNxl02的模,(( FN) Mode ( Kmax— idxNx 102 ) ) Integer (Nxl02)表示(FN) Mode ( Kmax_idxN l02 ) 除以 (Nxl02) 后取整数。 In the above formula (1): FN is the unified frame number of the current mobile station's home cell. Since one frame corresponds to one AB, the FN is also the location where the current mobile station transmits AB; N indicates that the SDCCH subchannel is divided into Nx2x51 complex. The frame, N is carried in the SDCCH_subN(i) subchannel description in the above notification message; (FN) Mode (Kmax_idxN l02) indicates that the modulus of Kmax_idxNxl02 is taken for FN, ((FN) Mode (Kmax_idxNx102)) Integer (Nxl02) indicates (FN) Mode ( Kmax_idxN l02 ) divided by (Nxl02) After taking an integer.
具体实施时,移动台依次判断 SDCCH子信道中的小区帧号是否符合 上述公式( 1 ) , 如果符合则判定该小区帧号为本移动台在 SDCCH_subN ( i )子信道中上^ AB的位置帧号, 在该小区帧号位置上报 AB; 否则判 定该小区帧号不是本移动台在 SDCCH— subN ( i )子信道中上报 AB的位 置帧号。  In a specific implementation, the mobile station sequentially determines whether the cell frame number in the SDCCH subchannel conforms to the above formula (1), and if yes, determines that the cell frame number is the location frame of the mobile station in the SDCCH_subN(i) subchannel. No., reporting AB at the cell frame number position; otherwise, determining that the cell frame number is not the location frame number of the mobile station reporting the AB in the SDCCH_subN(i) subchannel.
步骤 209、 BSS在为所述标识为 GID的组呼夯配的子信道 SDCCH— subN ( i )上实时监听 AB , 确定所接收 AB所对应帧的帧号 FN, 并解码该 AB的 8BIT值。  Step 209: The BSS monitors AB in real time on the subchannel SDCCH_subN(i) of the group call that is identified as GID, determines the frame number FN of the frame corresponding to the received AB, and decodes the 8BIT value of the AB.
步骤 210、 BSS根据所确定的 FN、 子信道描述信息 SDCCH— subN ( i ) 中的 N以及 GID对应的 Kmax— id,计算((FN ) Mode ( Kmax— idxNxl02 ) ) Mode ( 256 ) 的值; 并判断该 AB的 8BIT值是否与 ( ( FN ) Mode ( Kmax— idxNx 102 ) ) Mode ( 256 ) 的值相等, 如果相等, 则 BSS确定 该 AB是标识为 GID的组呼移动台上报的位置信息, 执行步骤 210; 否贝 ij, 判定该 AB为干扰信号, 忽略该 AB, 结束流程。  Step 210: The BSS calculates a value of ((FN) Mode ( Kmax — idxNxl02 ) ) Mode ( 256 ) according to the determined FN, the N in the subchannel description information SDCCH — subN ( i ), and the Kmax — id corresponding to the GID. And determining whether the 8BIT value of the AB is equal to the value of ((FN) Mode (Kmax_ idxNx 102)) Mode (256). If they are equal, the BSS determines that the AB is the location information reported by the group call mobile station identified as the GID. Go to step 210; No, ij, determine that AB is an interference signal, ignore the AB, and end the process.
步驟 211、 BSS按照现有确定方式, 通过 AB确定该移动台与基站的 距 离 信息 TA; 并向 MSC上报该组呼移动 台 在位消 息 VGCS—Subscrber— Position ( GID, Num— id, Cell— id, TA ) , 其中携带该 组呼标识 GID、 该组呼的组内移动台标识 Num— id即所述 AB的 8BIT值、 该组呼移动台所在小区的标识 Cell— id、 以及该移动台与基站的距离信息 TA。 所述 Cell— id可根据接收所述 AB的基站的标识确定。  Step 211: The BSS determines the distance information TA between the mobile station and the base station by using the AB according to the existing determining manner, and reports the group mobile station in-position message VGCS_Subscrber_Position (GID, Num_id, Cell_id) to the MSC. (TA), wherein the group call identifier GID, the group mobile station identifier Num_id of the group call, that is, the 8BIT value of the AB, the identifier Cell_id of the cell where the group mobile station is located, and the mobile station and Distance information TA of the base station. The Cell_id may be determined according to an identifier of a base station that receives the AB.
步骤 212、 MSC收到 VGCS—Subscrber— Position ( GID , Num— id , Cell— id, TA )消息后,向调度系统转发该 VGCS—Subscrber JPosition( GID, Num— id, Cell— id, TA ) 消息。  Step 212: After receiving the VGCS-Subscrber_Location (GID, Num_id, Cell_id, TA) message, the MSC forwards the VGCS-Subscrber JPosition (GID, Num_id, Cell_id, TA) message to the scheduling system. .
步骤 213、调度系统收到 VGCS—Subscrber— Position ( GID, Num— id, 5 Step 213: The scheduling system receives the VGCS-Subscrber_ Position (GID, Num_id, 5
Cell— id, TA )消息后, 即可获知在标识为 GID的组呼内,标识为 Num—id 的移动台所在的小区和该移动台距离小区基站的距离, 因此可以对该移 动台进行定位。 由于 BSS实时监听子信道 SDCCH—subN ( i )上的 AB, 因此可以对所述组呼内的移动台进行实时定位。 如果调度系统支持显示 可向调度管理者提示组呼移动台在位或在组呼移动台位置日志中记录 移动台在位信息。 After the Cell_id, TA) message, the cell in which the mobile station identified as Num_id is located and the distance of the mobile station from the cell base station in the group call identified as GID can be known, so that the mobile station can be located. . Since the BSS monitors the AB on the subchannel SDCCH_subN(i) in real time, the mobile station in the group call can be located in real time. If the scheduling system supports display, the scheduling manager may be prompted to call the mobile station in place or record the mobile station in-position information in the group call mobile station location log.
按照上述的流程, 可以对组呼内的所有移动台进行实时定位, 并在 调度系统中显示出来。  According to the above process, all mobile stations in the group call can be located in real time and displayed in the scheduling system.
基于上述方法, 本发明的定位系统的结构图如图 3所示:  Based on the above method, the structural diagram of the positioning system of the present invention is shown in FIG. 3:
该定位系统可对组呼 /组播移动台进行实时定位,设置在公共网络的 集群通信系统中, 所述公共网络可以为基于全球移动通信系统的移动通 讯网絡, 所述定位系统中包括:  The positioning system can perform real-time positioning on the group call/multicast mobile station, and is set in the trunking communication system of the public network. The public network can be a mobile communication network based on the global mobile communication system, and the positioning system includes:
信道划分及分配处理单元, 设置在所述集群通信系统网络侧的 BSS 中, 用于将 SDCCH信道划分为多个 SDCCH子信道的信道划分单元, 为组呼 /组播分配所划分的 SDCCH子信道, 并将所分配的 SDCCH子信 道的描述信息下发给该组呼 /组播内的移动台。该信道划分及分配处理单 元可以通过所述网络侧在所述组呼 /组播所涉及小区的通知信道上向该 组呼 /组播内的移动台下发所分配的 SDCCH子信道的描述信息, 也可以 通过所述网络侧在所述组呼 /组播所涉及小区的下行快速随路控制信道 上向该组呼 /组播内的移动台下发所分配的 SDCCH子信道的描述信息。  a channel division and allocation processing unit, configured in the BSS of the network side of the trunking communication system, for dividing the SDCCH channel into channel division units of multiple SDCCH subchannels, and allocating the divided SDCCH subchannels for group call/multicast And sending the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast. The channel division and allocation processing unit may send, by using the network side, the description information of the allocated SDCCH subchannel to the mobile station in the group call/multicast on the notification channel of the group call/multicast involved cell. And the description information of the allocated SDCCH subchannel is sent to the mobile station in the group call/multicast by the network side on the downlink fast associated control channel of the group call/multicast related cell.
定位信息上报单元, 设置在所述集群通信系统的 MS上, 用于根据 移动台收到的所述 SDCCH子信道的描述信息获知所分配的 SDCCH子 信道, 确定本移动台在所分配 SDCCH子信道中上报 AB的位置, 在该 上报位置周期地上报携带本移动台信息的 AB。 00995 定位单元, 设置在所述集群通信系统的网络侧, 用于在为所述组呼a positioning information reporting unit, configured on the MS of the trunking communication system, configured to learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel received by the mobile station, and determine that the mobile station is in the allocated SDCCH subchannel In the position of the upper report AB, the AB carrying the mobile station information is periodically reported at the reporting position. 00995 a positioning unit, disposed on a network side of the trunking communication system, configured to be in the group call
/组播分配的 SDCCH子信道上接收 AB, 根据 AB的位置以及该 AB携 带的移动台信息对该移动台进行定位。 所述定位单元中进一步包括校验 单元、 第一定位单元和第二定位单元; 所述校验单元设置在 BSS中, 用 于根据接收 AB的位置和该 AB携带的信息对该 AB进行校验; 所述第 一定位单元设置在 BSS中, 用于利用 AB确定接收该 AB的小区基站的 标识、 以及上报该 AB的移动台与该小区基站的距离; 所述第二定位单 元设置在集群通信系统的调度系统中,根据所述 AB上报的移动台信息、 所述小区基站的标识、 以及上报该 AB的移动台与该小区基站的距离对 所述移动台进行定位。 The multicast is received on the SDCCH subchannel of the multicast, and the mobile station is located according to the location of the AB and the mobile station information carried by the AB. The locating unit further includes a check unit, a first locating unit, and a second locating unit. The check unit is disposed in the BSS, and is configured to check the AB according to the location of the receiving AB and the information carried by the AB. The first positioning unit is disposed in the BSS, configured to determine, by using AB, an identifier of a cell base station that receives the AB, and a distance between the mobile station that reports the AB and the cell base station; and the second positioning unit is configured to perform cluster communication. In the scheduling system of the system, the mobile station is located according to the mobile station information reported by the AB, the identifier of the cell base station, and the distance between the mobile station reporting the AB and the cell base station.
以上所述, 仅为本发明较佳的具体实施方式, 但本发明的保护范围 并不局限于此, 任何熟悉该技术的人在本发明所揭露的技术范围内, 可 轻易想到的变化或替换, 都应涵盖在本发明的保护范围之内。  The above is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or replacements within the technical scope of the present invention. All should be covered by the scope of the present invention.

Claims

权利要求书 Claim
1、 一种对组呼 /组播移动台进行实时定位的方法, 适用于基于公共 网络的集群通信系统,其特征在于,将 SDCCH信道划分为多个 SDCCH 子信道;为组呼 /组播分配所划分的 SDCCH子信道,将所分配的 SDCCH 子信道的描述信息下发给该组呼 /组播内的所有移动台;所述各个移动台 根据所述 SDCCH子信道的描述信息获知所分配的 SDCCH子信道, 确 定自身在所分配 SDCCH子信道中上报接入突发脉冲序列 AB的位置, 在该上报位置周期地上报携带自身信息的 AB; 网络侧在为所述组呼 /组 播分配的 SDCCH子信道上接收 AB,根据 AB的位置以及该 AB携带的 移动台信息对该移动台进行定位。 A method for real-time positioning of a group call/multicast mobile station, which is applicable to a cluster communication system based on a public network, characterized in that the SDCCH channel is divided into multiple SDCCH subchannels; group call/multicast allocation Deriving the SDCCH subchannel, and transmitting the description information of the allocated SDCCH subchannel to all mobile stations in the group of call/multicast; the each mobile station knows the allocated according to the description information of the SDCCH subchannel. The SDCCH subchannel is determined to report the location of the access burst sequence AB in the allocated SDCCH subchannel, and the AB carrying the self information is periodically reported in the reporting position; the network side is allocated for the group call/multicast. The AB is received on the SDCCH subchannel, and the mobile station is located according to the location of the AB and the mobile station information carried by the AB.
2、根据权利要求 1所述的方法, 其特征在于, 所述划分 SDCCH子 信道的具体方法为:  The method according to claim 1, wherein the specific method for dividing the SDCCH subchannel is:
按照每个 SDCCH子信道在 N个 2x51复帧占用 1个突发脉冲序列 BURST的划分方式对所述 SDCCH信道进行划分, 其中 N为正整数。  The SDCCH channel is divided according to a division manner in which each of the SDCCH subchannels occupies one burst sequence BURST in N 2x51 multiframes, where N is a positive integer.
3、 根据权利要求 2所述的方法, 其特征在于, 所述为组呼 /组播分 配所划分的 SDCCH子信道的具体方法为: 一个组呼 /组播对应分配一个 或多个 SDCCH子信道。  The method according to claim 2, wherein the specific method for allocating the divided SDCCH subchannels for group call/multicast is: assigning one or more SDCCH subchannels to one group call/multicast correspondingly .
4、 根据权利要求 2所述的方法, 其特征在于, 所述移动台确定自 身在所分配 SDCCH子信道中上报 AB位置的方法为:  The method according to claim 2, wherein the mobile station determines that the method for reporting the location of the AB in the allocated SDCCH subchannel is:
判断所述 SDCCH子信道中的小区帧号是否符合以下公式:  Determining whether the cell frame number in the SDCCH subchannel meets the following formula:
( ( FN ) Mode ( Kmax_idxNx 102 ) ) Integer ( N l02 ) = Num_id 其中 FN为小区帧号, Kmax— id为网络侧下发给移动台的所述组呼 / 组播的组内最大移动台数, Num— id为本移动台在所述组呼 /组播内的编 号; 所述 Num— id预先配置存储在本移动台中; 所述 N预先配置存储在 移动台中或由网络侧下发给移动台; (FN) Mode ( Kmax_idxNx 102 ) ) Integer ( N l02 ) = Num_id where FN is the cell frame number, and Kmax_id is the maximum number of mobile stations in the group call/multicast group that the network side sends to the mobile station. Num_id is the number of the mobile station in the group call/multicast; the Num_id is pre-configured and stored in the mobile station; the N is pre-configured and stored in Delivered to the mobile station in the mobile station or by the network side;
如果小区帧号符合上述公式, 则在该小区帧号位置上报 AB。  If the cell frame number conforms to the above formula, AB is reported at the cell frame number position.
5、 根据权利要求 4所述的方法, 其特征在于, 所述 AB的长度为 8 比特,且 AB携带的移动台的信息为该移动台的组内编号信息,具体为: Num_id对 256取模后得到的值。  The method according to claim 4, wherein the length of the AB is 8 bits, and the information of the mobile station carried by the AB is the intra-group number information of the mobile station, specifically: Num_id modulo 256 The value obtained afterwards.
6、 根据权利要求 5 所述的方法, 其特征在于, 网络侧根据所接收 AB的位置以及该 AB携带的移动台信息对该移动台进行定位的方法为: 根据接收 AB的位置和该 AB携带的移动台信息对该 AB进行校验, 校验成功后, 通过接收 AB的位置确定接收该 AB的小区标识以及上报 该 AB的移动台与该小区基站的距离, 完成对该移动台的定位。  The method according to claim 5, wherein the network side locates the mobile station according to the location of the received AB and the mobile station information carried by the AB: according to the location of the receiving AB and the carrying of the AB The mobile station information is verified by the mobile station information. After the verification is successful, the location of the mobile station is determined by determining the cell identity of the AB and the distance between the mobile station reporting the AB and the cell base station by receiving the location of the AB.
7、 根据权利要求 6所述的方法, 其特征在于, 所述的校验方法为: 计算((FN ) Mode ( Kmax_idxNxl02 ) ) Mode ( 256 ) 的值, 其中 The method according to claim 6, wherein the verification method is: calculating a value of ((FN) Mode ( Kmax_idxNxl02 ) ) Mode ( 256 ), where
FN为所接收 AB对应的小区帧号;判断所接收的 AB携带的移动台信息 是否与 ((FN ) Mode ( Kmax_idxNx 102 ) ) Mode ( 256 ) 的值相等, 如 果相等, 则校验成功, 否则校验失败。 FN is the cell frame number corresponding to the received AB; determining whether the received mobile station information carried by the AB is equal to the value of ((FN) Mode ( Kmax_idxNx 102 ) ) Mode ( 256 ), if equal, the verification is successful, otherwise The verification failed.
8、 根据权利要求 1 所述的方法, 其特征在于, 所述将所分配的 SDCCH子信道的描述信息下发给所述组呼 /組播内的所有移动台的具体 方法为:  The method according to claim 1, wherein the specific method of sending the description information of the allocated SDCCH subchannel to all mobile stations in the group call/multicast is:
网络侧在所述组呼 /组播所涉及小区的通知信道上周期性地发送该 组呼 /组播的标识以及为该组呼 /组播分配的 SDCCH子信道的描述信息, 所述小区中的移动台通过监听该通知信道获得该组呼 /组播标识和 SDCCH子信道描述信息, 并通过该组呼 /组播标识判断本移动台是否从 属于该组呼 /组播, 是则接受所述 SDCCH子信道描述信息; 否则, 不作 处理。  The network side periodically sends the group call/multicast identifier and the description information of the SDCCH subchannel allocated for the group call/multicast on the notification channel of the group call/multicast involved cell, where the cell is in the cell The mobile station obtains the group call/multicast identifier and the SDCCH subchannel description information by listening to the notification channel, and determines whether the mobile station is subordinate to the group call/multicast through the group call/multicast identifier, and the accepting station SDCCH subchannel description information; otherwise, no processing.
9、 根据权利要求 1 所述的方法, 其特征在于, 所述将所分配的 SDCCH子信道的描述信息下发给所述组呼 /组播内的所有移动台的具体 方法为: 9. The method according to claim 1, wherein said assigning The specific method for sending the description information of the SDCCH subchannel to all the mobile stations in the group call/multicast is:
网络侧在所述组呼 /组播所涉及小区的下行快速随路控制信道上周 期性地发送该组呼 /組播的标识以及为该组呼 /组播分配的 SDCCH子信 道的描述信息, 所述小区中的移动台通过监听该下行快速随路控制信道 获得该组呼 /组播标识和 SDCCH子信道的描述信息,通过该組呼 /组播标 识判断本移动台是否从属于该组 /组播, 是则接受所述 SDCCH子信道 描述信息; 否则, 不作处理。  The network side periodically sends the group call/multicast identifier and the description information of the SDCCH subchannel allocated for the group call/multicast on the downlink fast associated control channel of the group call/multicast involved cell, The mobile station in the cell obtains the description information of the group call/multicast identifier and the SDCCH subchannel by listening to the downlink fast associated control channel, and determines whether the mobile station belongs to the group by using the group call/multicast identifier. Multicast, yes, accepts the SDCCH subchannel description information; otherwise, it does not process.
10、 根据权利要求 1至 9任一项所述的方法, 其特征在于, 所述公 共网络为基于全球移动通信系统的移动通讯网络。  The method according to any one of claims 1 to 9, wherein the public network is a mobile communication network based on a global mobile communication system.
11、 根据权利要求 10 所述的方法, 其特征在于, 所述网络侧主要 包括基站子系统 BSS、 移动交换中心 MSC、 组呼 /组播控制寄存器 GCR 和调度系统; 所述网络侧为组呼 /组播分配所划分的 SDCCH子信道, 将 所分配的 SDCCH子信道的描述信息下发给该组呼 /组播内的所有移动台 的具体步骤为:  The method according to claim 10, wherein the network side mainly comprises a base station subsystem BSS, a mobile switching center MSC, a group call/multicast control register GCR, and a scheduling system; The specific steps of sending the description information of the allocated SDCCH subchannel to all the mobile stations in the group call/multicast are as follows:
a、调度系统向 MSC发送需要实时定位的组呼 /组播的标识和该组呼 /组播的组内最大移动台数;  a. The scheduling system sends the group call/multicast identifier that needs real-time positioning to the MSC and the maximum number of mobile stations in the group of the group/multicast;
b、 MSC向 GCR发送所述组呼 /組播标识;  b. The MSC sends the group call/multicast identifier to the GCR.
c、 GCR根据收到的组呼 /组播标识查询预先设置的组呼 /组播移动台 所属小区列表与组呼 /组播标识的对应关系; 获得该组呼 /组播标识对应 的小区列表; 向 MSC返回该小区列表信息;  The GCR queries the correspondence between the cell list of the group call/multicast mobile station and the group call/multicast identifier according to the received group call/multicast identifier; and obtains the cell list corresponding to the group call/multicast identifier. Returning the cell list information to the MSC;
d、 MSC根据收到的小区列表信息查询预先设置的 BSS与小区标识 的对应关系, 获得小区列表所涉及的 BSS以及该 BSS所对应小区标识, 并向该 BSS发送所述组呼 /組播标识、 组内最大移动台数、 和该 BSS对 应的小区标识; e、 BSS收到所述组呼 /组播标识、 組内最大移动台数、 该 BSS对应 的小区标识后, 为该組呼 /组播分配所划分的 SDCCH子信道, 并在所述 小区标识指定的各个小区中下发携带所分配 SDCCH子信道的描述信息 的通知消息,且该通知消息中还进一步携带所述组呼 /组播标识和组内最 大移动台数。 The MSC queries the pre-set BSS and the cell identifier according to the received cell list information, obtains the BSS involved in the cell list, and the cell identifier corresponding to the BSS, and sends the group call/multicast identifier to the BSS. , the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS; After receiving the group call/multicast identifier, the maximum number of mobile stations in the group, and the cell identifier corresponding to the BSS, the BSS allocates the divided SDCCH subchannel for the group call/multicast, and specifies the cell identifier in the group. The notification message carrying the description information of the allocated SDCCH subchannel is sent in each of the cells, and the group call/multicast identifier and the maximum number of mobile stations in the group are further carried in the notification message.
12、 根据权利要求 11 所述的方法, 其特征在于, 所述网络侧在为 所述組呼 /组播分配的 SDCCH子信道上接收 AB, 根据 AB的位置以及 该 AB携带的移动台信息对该移动台进行定位的具体步骤为:  The method according to claim 11, wherein the network side receives the AB on the SDCCH subchannel allocated for the group call/multicast, according to the location of the AB and the mobile station information carried by the AB. The specific steps of the mobile station for positioning are:
A、 BSS在为所述组呼 /组播分配的 SDCCH子信道上接收移动台上 报的 AB, 利用该组呼 /组播的组内最大移动台数、 该 SDCCH子信道的 描述信息以及所接收 AB对应的位置对该 AB携带的信息进行校验, 如 果校验成功则利用该 AB确定接收该 AB的小区基站的标识、 以及上报 该 AB的移动台与该小区基站的距离, 将所述组呼 /组播的标识、 该移动 台的组内编号、 该小区基站的标识、 以及该移动台与该小区基站的距离 上报到 MSC, 执行步骤 B; 如果校验失败则不对该 AB进行处理;  A. The BSS receives the AB reported by the mobile station on the SDCCH subchannel allocated for the group call/multicast, the maximum number of mobile stations in the group using the group call/multicast, the description information of the SDCCH subchannel, and the received AB. The corresponding location is used to check the information carried by the AB. If the verification succeeds, the identifier of the cell base station that receives the AB and the distance between the mobile station reporting the AB and the cell base station are determined by using the AB, and the group call is performed. The multicast/identity identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station are reported to the MSC, and step B is performed; if the verification fails, the AB is not processed;
B、 MSC向调度系统转发所述组呼 /组播标识、所述移动台的组内编 号、 所述小区基站的标识、 以及该移动台与该小区基站的距离;  B. The MSC forwards the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the scheduling system;
C> 调度系统根据所述組呼 /组播标识、 所述移动台的组内编号、 所 述小区基站的标识、以及该移动台与该小区基站的距离对该組呼 /组播的 移动台进行定位。  C> the scheduling system according to the group call/multicast identifier, the intra-group number of the mobile station, the identifier of the cell base station, and the distance between the mobile station and the cell base station to the group call/multicast mobile station Positioning.
13、 一种对组呼 /组播移动台进行实时定位的系统,设置在公共网絡 的集群通信系统中, 其特征在于, 包括:  13. A system for real-time positioning of a group call/multicast mobile station, which is set in a trunking communication system of a public network, and is characterized in that:
信道划分及分配处理单元, 设置在所述集群通信系统的网络侧, 用 于将 SDCCH信道划分为多个 SDCCH子信道的信道划分单元, 为組呼 / 組播分配所划分的 SDCCH子信道, 并将所分配的 SDCCH子信道的描 述信息下发给该组呼 /组播内的移动台; a channel division and allocation processing unit, disposed on a network side of the trunking communication system, configured to divide the SDCCH channel into channel division units of multiple SDCCH subchannels, and allocate the divided SDCCH subchannels for group call/multicast, and Description of the assigned SDCCH subchannel The information is sent to the mobile station in the group call/multicast;
定位信息上报单元, 设置在所述集群通信系统的移动台上, 用于根 据移动台收到的所述 SDCCH子信道的描述信息获知所分配的 SDCCH 子信道, 确定本移动台在所分配 SDCCH子信道中上报 AB的位置, 在 该上报位置周期地上报携带本移动台信息的 AB;  a positioning information reporting unit, configured to be located on the mobile station of the trunking communication system, configured to learn the allocated SDCCH subchannel according to the description information of the SDCCH subchannel received by the mobile station, and determine that the mobile station is in the allocated SDCCH sub The location of the AB is reported in the channel, and the AB carrying the mobile station information is periodically reported in the reporting position;
定位单元, 设置在所述集群通信系统的网络侧, 用于在为所述组呼 /组播分配的 SDCCH子信道上接收 AB, 根据 AB的位置以及该 AB携 带的移动台信息对该移动台进行定位。  a positioning unit, disposed on a network side of the trunking communication system, configured to receive an AB on an SDCCH subchannel allocated for the group call/multicast, and the mobile station according to the location of the AB and the mobile station information carried by the AB Positioning.
14、 根据权利要求 13 所述的系统, 其特征在于, 所述信道划分及 分配处理单元通过所述网络侧在所述组呼 /组播所涉及小区的通知信道 上向该組呼 /组播内的移动台下发所分配的 SDCCH子信道的描述信息。  The system according to claim 13, wherein the channel division and allocation processing unit sends the group call/multicast to the group on the notification channel of the group call/multicast involved cell by the network side. The mobile station in the downlink delivers the description information of the allocated SDCCH subchannel.
15、 根据权利要求 13 所述的系统, 其特征在于, 所述信道划分及 分配处理单元通过所述网络侧在所述组呼 /组播所涉及小区的下行快速 随路控制信道上向该组呼 /组播内的移动台下发所分配的 SDCCH子信道 的描述信息。  The system according to claim 13, wherein the channel division and allocation processing unit passes the network side to the group on a downlink fast associated control channel of the group call/multicast involved cell. The mobile station in the call/multicast delivers the description information of the allocated SDCCH subchannel.
16、 才艮据权利要求 13至 15任一项所述的系统, 其特征在于, 所述 定位单元中进一步包括校验单元: 用于根据接收 AB的位置和该 AB携 带的信息对该 AB进行校验。  The system according to any one of claims 13 to 15, wherein the positioning unit further comprises a checking unit: configured to perform the AB according to the location of the receiving AB and the information carried by the AB check.
17、 才艮据权利要求 13至 15任一项所述的系统, 其特征在于, 所述 公共网络为基于全球移动通信系统的移动通讯网络。  The system according to any one of claims 13 to 15, wherein the public network is a mobile communication network based on a global mobile communication system.
18、根据权利要求 17所述的方法, 其特征在于, 所述信道划分及分 配处理单元设置在所述集群通信系统的 BSS中;所述定位单元进一步包 括第一定位单元和第二定位单元; 所述第一定位单元设置在 BSS中, 用 于利用 AB确定接收该 AB的小区基站的标识、 以及上报该 AB的移动 台与该小区基站的距离; 第二定位单元设置在集群通信系统的调度系统 中, 根据所述 AB上报的移动台信息、 所述小区基站的标识、 以及上报 该 AB的移动台与该小区基站的距离对所述移动台进行定位。 The method according to claim 17, wherein the channel division and allocation processing unit is disposed in a BSS of the trunking communication system; the positioning unit further includes a first positioning unit and a second positioning unit; The first positioning unit is disposed in the BSS, and is configured to determine, by using the AB, an identifier of the cell base station that receives the AB, and a distance between the mobile station that reports the AB and the cell base station; and the second positioning unit is configured to be configured in the trunking communication system. System The mobile station is located according to the mobile station information reported by the AB, the identifier of the cell base station, and the distance between the mobile station reporting the AB and the cell base station.
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Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101980566B (en) * 2010-10-26 2015-06-10 中兴通讯股份有限公司 Method and system for realizing switching on stand-alone dedicated control channel
US9294886B2 (en) * 2012-08-31 2016-03-22 Qualcomm Incorporated Evolved multimedia broadcast/multicast services (eMBMS) geo-location based group call
CN103024668B (en) * 2012-11-28 2015-09-23 海能达通信股份有限公司 Method, system and relevant device that locator data under cluster mode is transmitted
WO2014082217A1 (en) * 2012-11-28 2014-06-05 海能达通信股份有限公司 Method, system and relevant device for transmitting positioning data in cluster mode
CN103079267B (en) * 2012-12-28 2016-07-06 东方通信股份有限公司 A kind of in digital clustering communication system quick reporting terminal positional information realize method
CN111601261B (en) * 2020-01-16 2022-04-19 哈尔滨海能达科技有限公司 Load balancing method of control channel, group call service processing method and related equipment

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6198936B1 (en) * 1997-10-13 2001-03-06 Electronics And Telecommunications Research Institute Method for transmitting and receiving control plane information using medium access control frame structure for transmitting user information through an associated control channel
US6442392B2 (en) * 1997-11-06 2002-08-27 Nokia Mobile Phones Method and arrangement for locating a mobile station
DE10215725A1 (en) * 2002-04-10 2003-11-13 Koepenick Funkwerk Gmbh Radio location system in trunked digital radio networks has digital trunked radio network, location regions in network, each with at least 2 radio beacons, trunked radio network users' mobile devices
US6684081B2 (en) * 2002-05-10 2004-01-27 Nokia Corporation Method and system for separating control information and user data from multicast and broadcast services
CN1780418A (en) * 2004-11-18 2006-05-31 中兴通讯股份有限公司 Grouped system and method for realizing position

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6564049B1 (en) * 1999-05-10 2003-05-13 Ericsson Inc. Methods and systems for providing group calls with reduced setup times
CN1331369C (en) * 2003-09-17 2007-08-08 华为技术有限公司 Method for acquiring user entry into position zone by scheduling bable in group radio communication system
CN100334898C (en) * 2003-09-19 2007-08-29 华为技术有限公司 Method for monitoring user by group radio communication system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6198936B1 (en) * 1997-10-13 2001-03-06 Electronics And Telecommunications Research Institute Method for transmitting and receiving control plane information using medium access control frame structure for transmitting user information through an associated control channel
US6442392B2 (en) * 1997-11-06 2002-08-27 Nokia Mobile Phones Method and arrangement for locating a mobile station
DE10215725A1 (en) * 2002-04-10 2003-11-13 Koepenick Funkwerk Gmbh Radio location system in trunked digital radio networks has digital trunked radio network, location regions in network, each with at least 2 radio beacons, trunked radio network users' mobile devices
US6684081B2 (en) * 2002-05-10 2004-01-27 Nokia Corporation Method and system for separating control information and user data from multicast and broadcast services
CN1780418A (en) * 2004-11-18 2006-05-31 中兴通讯股份有限公司 Grouped system and method for realizing position

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