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WO2004008798A1 - Systeme serveur, terminal utilisateur, systeme et procede de service de commande appelant/appele - Google Patents

Systeme serveur, terminal utilisateur, systeme et procede de service de commande appelant/appele Download PDF

Info

Publication number
WO2004008798A1
WO2004008798A1 PCT/JP2002/007272 JP0207272W WO2004008798A1 WO 2004008798 A1 WO2004008798 A1 WO 2004008798A1 JP 0207272 W JP0207272 W JP 0207272W WO 2004008798 A1 WO2004008798 A1 WO 2004008798A1
Authority
WO
WIPO (PCT)
Prior art keywords
user terminal
balloon
call
data
outgoing
Prior art date
Application number
PCT/JP2002/007272
Other languages
English (en)
Japanese (ja)
Inventor
Kenichi Sakurai
Original Assignee
Fujitsu Limited
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 Fujitsu Limited filed Critical Fujitsu Limited
Priority to PCT/JP2002/007272 priority Critical patent/WO2004008798A1/fr
Publication of WO2004008798A1 publication Critical patent/WO2004008798A1/fr

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/08Access security
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L63/00Network architectures or network communication protocols for network security
    • H04L63/10Network architectures or network communication protocols for network security for controlling access to devices or network resources
    • H04L63/107Network architectures or network communication protocols for network security for controlling access to devices or network resources wherein the security policies are location-dependent, e.g. entities privileges depend on current location or allowing specific operations only from locally connected terminals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/02Access restriction performed under specific conditions
    • H04W48/04Access restriction performed under specific conditions based on user or terminal location or mobility data, e.g. moving direction, speed

Definitions

  • the present invention relates to a server system, a user terminal, a transmission / reception control service system, and a transmission / reception control service providing method suitable for providing a transmission / reception control service of a mobile phone using, for example, a spatial information service.
  • This mobile communication service uses GPS (Global Positioning System) satellites to measure the position of a large number of mobile terminals and portable personal digital assistants (user terminals). Manages the current position of According to these positioning or management, when there is an incoming call or information notification to the mobile terminal, the wireless base station in the cell where the mobile terminal is located specifies the mobile terminal and calls or notifies the information. .
  • GPS Global Positioning System
  • the network administrator also provides an information distribution service for transmitting contents such as advertisements of companies or stores to mobile terminals.
  • This information distribution system includes a mobile terminal, location management of the mobile terminal, and a mobile terminal. It has a server for searching for terminals and a GPS satellite, and these mobile terminals, servers, GPS satellites, etc. are connected to each other via a network so that data can be transmitted and received. .
  • data communication has an undesirable effect on precision machinery. For this reason, the use of mobile terminals in concert halls, theaters or lecture halls is restricted, and libraries limit the power of mobile terminals to be turned off so as not to hinder the progress of classes.
  • the outgoing / incoming call restriction means that the outgoing / incoming call function of the mobile terminal is restricted, and all outgoing / incoming calls of the mobile terminal are disabled (that is, incoming / outgoing call rejection). However, this includes both preventing the ring tone from sounding (that is, disabling only the outgoing / incoming operations of some mobile terminals).
  • the outgoing / incoming call control includes not only outgoing / incoming call restriction but also permission for outgoing / incoming call, which is the reverse of the outgoing / incoming call restriction, and improvement of the degree of freedom of incoming / outgoing call.
  • a jamming device As another method of restricting transmission / reception, a jamming device (jamming device) is known.
  • the installation standard of this jamming device is strict. The first reason is that uniformly prohibiting the use of mobile terminals at stations, roads, etc. renders all mobile terminals unusable. The second reason is that the installation of jamming devices will substantially prohibit the provision of information distribution services, and may even violate the Radio Law. Therefore, hospitals and the like cannot easily install interference devices, and providing radio wave shielding plates in hospitals and the like is costly.
  • the control device of the wireless base station can reject outgoing / incoming calls using the location registration data of the mobile terminal.
  • the rejection unit is a cell unit, and the rejected area is too large. In some cases, the area to be rejected may not be accurate due to the reflection of radio waves. For this reason, the mobile communication system cannot reject outgoing / incoming calls for specific or a small number of mobile terminals.
  • the present invention has been made in view of the above problems, and provides a method for providing a call control service capable of specifying a small number of user terminals and restricting call transmission or call rejection in a mobile communication system.
  • the purpose is to provide a control service system, server system and user terminal. Disclosure of the invention
  • the server system of the present invention is a server system used in a server system that provides a calling / receiving service to user terminals, and is a real three-dimensional server system.
  • a database unit that stores a plurality of three-dimensional space range information corresponding to the space and data relating to the transmission and reception of the user terminal in the actual three-dimensional space, and includes the position information of the user terminal and the position information It is characterized by comprising a control unit for controlling the transmission and reception of the user terminal based on the data on the transmission and reception corresponding to the three-dimensional space range information.
  • the server system of the present invention includes a plurality of balloon attributes each of which is associated with a plurality of three-dimensional space range information corresponding to a real three-dimensional space and transmission / reception restriction data of a user terminal in the real three-dimensional space.
  • the server system of the present invention includes a plurality of three-dimensional space range information including a latitude, a longitude, an altitude, and a balloon diameter corresponding to a real three-dimensional space; And a plurality of three-dimensional spatial range information stored in the database unit.
  • the database unit stores a plurality of balloon attribute data items associated with each other, the position information having the measured latitude, longitude, and altitude of the user terminal.
  • a control unit for controlling an action (operation) relating to outgoing / incoming of the user terminal based on at least one outgoing / incoming call rejection data corresponding to at least one 3D spatial range information including position information in the information. It is characterized by having been constituted. Therefore, in this way, the contents of the database can be updated very quickly while the server system is running, so that both the user and the data changer use the latest information. can do.
  • the control unit may include a terminal attribute data holding unit that holds each user terminal in association with terminal attribute data indicating a target or a non-target of calling / receiving control, and a position of the user terminal. Information of the user terminal based on the The control unit may be configured to control the user terminal using a management unit that manages the transmission / reception control, and may be configured to control the transmission / reception restriction of the user terminal in a stepwise manner.
  • the database unit holds terminal position information data that holds the position information of the user terminal in association with at least one existing three-dimensional space range information including the position information among the plurality of three-dimensional space range information.
  • the outgoing / incoming release data for releasing the outgoing / incoming call restriction and the three-dimensional spatial range information are stored in association with each other.
  • the position of the user terminal can be constantly tracked, the necessity of operation after rejection of the call can be determined, and the terminal position can be tracked quickly.
  • the user terminal of the present invention is a user terminal used in a system for providing a calling / receiving service to the user terminal, and includes a plurality of three-dimensional space range information corresponding to a real three-dimensional space; A position information output unit that outputs the position information of the user terminal to a server system that associates and retains data relating to the transmission and reception of the user terminal in the three-dimensional space, and a position information transmitted by the position information output unit. And a control module for controlling the transmission and reception of the user terminal based on the transmission and reception data transmitted from the server system.
  • the outgoing / incoming call can be rejected or restricted for only a specific user terminal, and the specific user terminal can be rejected at a specific place such as in a train, for example, while leaving the function of controlling the outgoing / incoming call on a cell-by-cell basis.
  • Outgoing / incoming calls can be selectively rejected or restricted, enabling reliable network operation.
  • the user terminal of the present invention includes a plurality of balloon attributes in which each of a plurality of three-dimensional space range information corresponding to a real three-dimensional space and transmission / reception restriction data at a user end in the real three-dimensional space are associated.
  • User for the server system that holds the data A position information output unit that outputs terminal position information, and a control module unit that controls the transmission and reception of the user terminal based on the transmission / reception restriction data transmitted from the server system with respect to the position information transmitted by the position information output unit. It is characterized by having been configured with.
  • the user terminal of the present invention includes a plurality of pieces of three-dimensional space range information including a latitude, a longitude, an altitude, and a balloon diameter corresponding to a real three-dimensional space;
  • a position information output unit that outputs measured position information having the latitude, longitude, and altitude of the user terminal to a server system that holds a plurality of balloon attribute data associated with each of the data; It is characterized by comprising a control module for controlling the transmission and reception of the user terminal based on the transmission and reception restriction data transmitted from the server system for the position information transmitted by the position information output unit.
  • the transmission / reception control service system of the present invention is a system for providing a transmission / reception service to a user terminal, comprising a user terminal and a server system capable of controlling the transmission / reception of the user terminal.
  • a database unit that stores a plurality of three-dimensional space range information corresponding to the real three-dimensional space and data relating to the transmission and reception of the user terminal in the real three-dimensional space, and a position of the user terminal.
  • a position information output unit that outputs the position information of the user terminal, and the arrival and departure sent from the server system for the position information transmitted by the position information output unit It is characterized by comprising a control module for controlling the transmission and reception of the user terminal based on the communication data.
  • the method for providing a call control service of the present invention provides a system for providing a call service to a user terminal, wherein the server system obtains the position information of the user terminal, and the server system stores the information in a real three-dimensional space.
  • Each of the corresponding plurality of three-dimensional space range information and data relating to the transmission / reception of a user terminal in a real three-dimensional space is converted into at least one three-dimensional space range information including position information in the balloon attribute data associated with the three-dimensional space range data.
  • the server system is characterized in that it searches for at least one corresponding outgoing / incoming call data, and the server system controls the outgoing / incoming call of the user terminal based on the searched outgoing / incoming call data.
  • the incoming call of the user terminal can be restricted in a movie theater, or the power supply is forcibly turned off.
  • the server system receives data relating to the call transmission / reception of the user terminal, determines whether the user terminal is to be subjected to call control / non-call control, and determines whether the user terminal is a target.
  • the server system receives a call request from the user terminal to the call terminal, determines whether the call terminal is subject to call control or not, and In such a case, the location information of the receiving terminal is read out, the outgoing / incoming control data corresponding to the three-dimensional spatial range information including the user terminal location information is read, and the incoming call is controlled based on the outgoing / incoming control data. It is characterized by having
  • the service system can avoid unnecessary outgoing / incoming call restriction or rejection for each user, and can provide a detailed service.
  • the server system determines whether the user terminal receives the call from the three-dimensional space range information.
  • the service center determines whether the call is out of the range or within the range of incoming calls. If the service center determines that the call is out of the range, the rejection release function is executed. May be sent to the user terminal. In this way, the user terminal can obtain a history of telephone numbers addressed to itself called from other networks, so that the user The existence of a call can be recognized.
  • the server system receives a change request of terminal attribute data representing a target or a non-target of call control held by the user terminal, and the server system transmits the change request. It is configured to authenticate the terminal attribute data and to change the held terminal attribute data based on the file data included in the server system power change request.
  • the user of each user terminal can update the balloon attribute data by himself, and can access the balloon attribute data as if the content of his own home page were updated.
  • FIG. 1 is a schematic configuration diagram of a call rejection service system according to the first embodiment of the present invention.
  • FIG. 2 is a diagram schematically illustrating the arrangement of buildings in a space.
  • FIG. 3 is a diagram showing an image of a three-dimensional space range of balloon data.
  • FIG. 4 is a diagram showing an example of balloon attribute data according to the first embodiment of the present invention.
  • FIG. 5A is a diagram showing an example of the terminal attribute data according to the first embodiment of the present invention.
  • FIG. 5 (b) is a diagram showing an example of the terminal location information according to the first embodiment of the present invention.
  • 6 (a) to 6 (h) are diagrams each showing an example of the information balloon according to the first embodiment of the present invention.
  • FIG. 7 is a schematic block diagram of the service center according to the first embodiment of the present invention. You.
  • FIG. 8 is a block diagram of the mobile terminal according to the first embodiment of the present invention.
  • FIG. 9 is a configuration diagram of a distributed service center according to the first embodiment of the present invention.
  • FIG. 10 is a diagram for explaining the operation of the call rejection service according to the first embodiment of the present invention.
  • FIG. 11 is a diagram for explaining the operation of the call rejection service according to the first embodiment of the present invention.
  • FIG. 12 is a diagram showing a sequence for explaining the setting of the call rejection balloon according to the first embodiment of the present invention.
  • FIGS. 13 (a) and 13 (b) are diagrams each showing a format of registering a call rejection balloon according to the first embodiment of the present invention.
  • FIG. 14 is a diagram showing a sequence for explaining terminal location tracking according to the first embodiment of the present invention.
  • FIGS. 15 (a) and 15 (b) are diagrams showing the format of the terminal location information tracking according to the first embodiment of the present invention.
  • FIG. 16 is a diagram showing a sequence for explaining a rejection action in the service center according to the first embodiment of the present invention.
  • FIG. 17 is a diagram showing a sequence for explaining a rejection action in the mobile terminal according to the first embodiment of the present invention.
  • FIG. 18 is a diagram showing a sequence for explaining the rejection release function according to the first embodiment of the present invention.
  • FIG. 19 is a diagram showing a sequence for explaining a rejection release action in the mobile terminal according to the first embodiment of the present invention.
  • FIGS. 20 (a) and 20 (b) are diagrams showing the format of the rejection action according to the first embodiment of the present invention.
  • FIGS. 20 (c) and 20 (d) are diagrams showing the format of the rejection release action according to the first embodiment of the present invention.
  • FIG. 21 is a diagram showing a sequence for explaining outgoing calls under call origination / reception restrictions according to the first embodiment of the present invention.
  • FIG. 22 is a diagram showing a sequence for explaining an incoming call under outgoing / incoming call restriction according to the first embodiment of the present invention.
  • FIG. 23 is a diagram showing a sequence for explaining the change of the call rejection level according to the first embodiment of the present invention.
  • FIGS. 24 (a) and 24 (b) are diagrams showing the format of the call rejection vanolane change according to the first embodiment of the present invention.
  • FIG. 25 is a diagram showing a sequence for explaining a change of a call rejection target outsider according to the first embodiment of the present invention.
  • FIGS. 26 (a) and 26 (b) are diagrams each showing a format for changing a call-out / call-out rejection service outsider according to the first embodiment of the present invention.
  • FIG. 27 is a view for explaining the outgoing / incoming call permission balloon according to the first embodiment of the present invention.
  • FIG. 28 is a diagram showing a sequence for explaining the outgoing / incoming call permission balloon setting according to the first embodiment of the present invention.
  • FIG. 1 is a schematic configuration diagram of a call rejection service system according to the first embodiment of the present invention.
  • the call rejection service system 200 shown in FIG. 1 is a system that provides a call reception / reception service to mobile terminals, and includes a plurality of mobile terminals 9 a to 9 c and a radio base station (radio tower) 1. It is composed of 0 0, a mobile phone network 51, the Internet 52, and a service center 19 (spatial information system center) 19.
  • the mobile terminals 9a to 9c are mobile phones or information mobile terminals or the like used in the transmission / reception rejection service system 200, and have a function of transmitting and receiving calls and mail.
  • the radio base station 100 transmits and receives radio signals to and from the mobile terminals 9a to 9c.
  • the mobile phone network 51 is a network connected to the radio base station 100 and transmitting and receiving data.
  • the Internet 52 transmits and receives a bucket having an IP (Internet Protocol) address (also referred to as an IP bucket or an IP datagram).
  • IP Internet Protocol
  • the service center 19 provides an outgoing / incoming call service to the mobile terminals 9a to 9c, and functions as a server system.
  • the function of the service center 19 is realized by a plurality of servers provided in one place on the Internet 52.
  • the outgoing / incoming call service is a service relating to outgoing / incoming calls such as restriction of outgoing / incoming calls, rejection of incoming / outgoing calls, and permission of incoming / outgoing calls.
  • the mobile terminals 9a to 9c access the mobile phone network 51 to transmit and receive voice, image data and text data, and have the latitude, longitude and altitude of the mobile terminals 9a to 9c themselves.
  • the position information is measured and the position information is transmitted to the service center 19.
  • the service center 19 uses the location information to control the outgoing / incoming calls of the mobile terminals 9a to 9c.
  • the call rejection service system 200 is composed of a plurality of three-dimensional space range information corresponding to a real three-dimensional space, and data on outgoing and incoming calls of the mobile terminals 9a to 9c in the real three-dimensional space (for example, outgoing and incoming calls). (Restricted data) are stored in association with each other.
  • the three-dimensional space range information refers to an object in a three-dimensional space (for example, a building, each floor of a building, an object that actually exists or moves in a space such as a signboard), or the latitude, longitude, altitude and desired space of a desired space. Means the information of the balloon diameter.
  • the image of the three-dimensional space range information is a square in accordance with the volume of a sphere, an ellipse sphere, or a building in space. It has the shape of a pillar (cuboid).
  • This image shows that in addition to the information of a closed space like the inside of a square prism (space occupation information), one surface of the square prism may be infinite spatial information, Area information (3D spatial area information) Further, this shape can be registered after being variously modified.
  • FIG. 2 is a diagram schematically illustrating the arrangement of buildings in a space. All four building locations shown in Fig. 2 have the same longitude and different latitudes.
  • Building A is latitude A— :! It is located in the range of A + 1
  • the center positions of Building B, C Stadium, and D are Latitudes B, C, and D, respectively.
  • the units of latitude and longitude are ° (degrees), '(minutes), and "(seconds).
  • Altitude 0 indicates that the building is in contact with the ground, and altitudes 1, 2, and 3 is a true value (for example, 15 m , 30 m, 45 m). The same applies to the following description.
  • the user uses the measuring device or the GPS satellite 102 provided on the mobile terminals 9a to 9c themselves on the third floor of the building A to determine the terminal positions of the mobile terminals 9a to 9c (latitude, (Longitude and altitude), and sends the acquired measured position data to the service center 19.
  • the measuring device or the GPS satellite 102 provided on the mobile terminals 9a to 9c themselves on the third floor of the building A to determine the terminal positions of the mobile terminals 9a to 9c (latitude, (Longitude and altitude), and sends the acquired measured position data to the service center 19.
  • the service center 19 holds, as balloon data, data in which a three-dimensional space range is associated with a service provided in the three-dimensional space range, and is transmitted from the balloon data and the mobile terminals 9a to 9c. Information assigned to each three-dimensional space is searched based on the measured position data obtained.
  • Figure 3 is a diagram showing an image (information balloon) of the three-dimensional space range of balloon data.
  • Information balloons 1 to 17 shown in FIG. 3 represent images corresponding to buildings A to D shown in FIG.
  • Reference numerals 1 to 17 indicate balloon IDs (Identifiers) 1 to 17 for identifying information balloons.
  • Building A is stored as an information balloon specified by latitude A, longitude X, altitude h, and balloon size (balloon diameter).
  • Information balloons 1, 5, 8, and 9 represent A building, B building, C stadium, and D tower, respectively.
  • the information balloon 1 has information balloons 2, 3, and 4 therein. These information balloons 2, 3, and 4 represent images corresponding to the floors of each floor of Building A, respectively. Therefore, a balloon is a specific space in the three-dimensional space in which the three-dimensional space information is like a bubble that floats in the three-dimensional space. It is being done.
  • balloon data means data that associates an actual object with data obtained by mapping (mapping) to a virtual space.
  • FIG. 4 is a diagram showing an example of balloon attribute data according to the first embodiment of the present invention.
  • the balloon IDs 1 to 17 of the balloon IDs 1 to 23 shown in FIG. 4 correspond to the balloon IDs 1 to 17 shown in FIG.
  • the balloon attribute data is for holding the incoming / outgoing call release data for releasing the incoming / outgoing call limit and the three-dimensional spatial range information in association with the outgoing / incoming call limit data included in each of the plurality of balloon attribute data.
  • the balloon ID represents the identification number of each balloon attribute data.
  • the balloon center position indicates the center position of the held balloon data.
  • a balloon is associated with a sphere, but here, the balloon is not particularly limited to a sphere, but also means a quadratic prism or a cylinder obtained by dividing a three-dimensional space.
  • FIGS. 6 (a) to 6 (h) are diagrams showing examples of the information balloon according to the first embodiment of the present invention, in which the (A, B, C) 1 balloon of the information balloon is shown. It is the center position.
  • the call rejection service system 200 adopts a sphere (Fig. 6 (b)) as the shape of the information balloon, and matches the center (A, B, C) of the sphere to the origin coordinates.
  • the balloon size is defined as a sphere (Fig. 6 (b), Fig. 6 (d) and Fig. 6 (f)) or an elliptical sphere (Fig. 6 (c), Fig. 6 (e) and Fig. 6 (g)). ) Indicates the radius or the major and minor diameters.
  • the balloon size is one of the sides D, E, or F.
  • the balloon shape is a cube (not shown)
  • the balloon size is the cube.
  • the balloon shape is a cylinder (Fig. 6 (h))
  • the height or the radius of the bottom can be used as the balloon size.
  • the balloon shape is a polygonal prism such as a square prism (not shown).
  • the balloon size indicates the radius when the information balloon is spherical, and indicates the major axis and minor axis when the information balloon is elliptical.
  • the information balloon (the spatial range information of the balloon data)
  • the width of the square pillar is indicated.
  • BZX / 2 of balloon ID6 represents latitude (unit: degree) Z longitude (unit: degree) Z altitude (equivalent to 30 m)
  • balloon size 1 is the size of the registered information balloon. Table You.
  • the range, radius, major axis, minor axis, and width of these information balloons are set in advance by the network administrator based on the advertising fee. As an example, if lm is assigned as balloon size 0.5, balloon sizes 0.5-4 correspond to true values lm-8m, respectively.
  • the database unit 15 can set the three-dimensional space range information including the balloon size and the balloon diameter to an arbitrary size based on, for example, an advertisement fee.
  • the database section 15 is not read-only like mere geographical data, but after being set by a network administrator or the like, the contents can be changed by the network administrator itself or by the user. it can.
  • one piece of information consisting of the latitude A, longitude B, altitude 3 and the balloon size 1 of the building is stored as three-dimensional space range information, and 17 pieces of three-dimensional space range information are respectively stored.
  • balloon IDs 1 to 17 are assigned and stored corresponding to the real 3D space.
  • the owner user ID is an advertiser of the user or a company or a store, and is a registrant of balloon attribute data using the mobile terminals 9a to 9c.
  • an advertiser such as a company or a store can set the balloon size to a desired size, and can use each information balloon as an advertising means.
  • the incoming call rejection level indicates the degree of rejection or restriction when making a call using the mobile terminals 9a to 9c in a specific place or area. For example, for Levels 1 to 4, “Incoming calls are possible but no ringtone sounds.”, “Level 1 + No call.”, “No incoming calls.”, "In the balloon, Forcibly turn off the power. "
  • Levels 1 and 2 of the call rejection level are, "Able to make outgoing calls, but are not connected to the called party, and announce the Kanzatsu voice.”, "Forced power off inside the balloon.” . Therefore, the transmission / reception rejection control unit 10 is configured to control the transmission / reception restriction of the portable terminals 9a to 9c in a stepwise manner.
  • the outgoing call restriction is a system in which outgoing calls are restricted at hospitals or trains, or where calls are completely rejected or calls other than emergency contact information such as firefighting are rejected. Means a limit or the like.
  • incoming call restriction means that incoming calls are restricted in quiet places or trains, and also that mobile terminal 9b calls mobile terminal 9a but does not reach mobile terminal 9a. Means restrictions and the like. These call restrictions may be set in stages.
  • outgoing call rejection list and the outgoing / calling rejection list are used to indicate the police, fire, and other urgency levels even when the outgoing / incoming call is restricted or rejected for the mobile terminals 9a to 9c. Necessary public activities, etc. are not selected as targets for receiving / receiving calls.
  • the balloon attribute data consists of 17 pieces of 3D space range information (3D space range information consisting of the building's latitude, longitude, altitude, and balloon size) and the mobile terminals 9a to 9c in the actual 3D space.
  • data relating to outgoing / incoming calls for example, outgoing / incoming call restriction data.
  • a specific example of the transmission / reception restriction data is transmission / reception rejection data. Specifically, since the transmission rejection level, the reception rejection level, the outgoing call rejection object list and the outgoing / incoming call rejection object list are held. is there.
  • the advertiser subscribes to the call rejection service system 200 in advance, registers balloon data of the third-floor cinema in the service center 19 by contract or the like, and is given a balloon ID 2 for example. (See the dark shaded area in Figure 4). Then, the network administrator accesses the balloon data using the network administrator terminal 53, and the service center 19 authenticates the accessor using the balloon ID 2. If the authentication is successful, the network administrator uses the network administrator terminal 53 to register the incoming restriction level to level 3 or level 4 for the balloon ID 2, and sets the outgoing restriction level to level 2. register.
  • the portable terminals 9a to 9c in the movie theater are forced to turn off the power at which no incoming call can be received or within the information balloon.
  • the service center 19 extracts whether, for example, a personal computer sales floor is subject to call rejection, and based on the extracted data, the mobile terminal 9a is restricted from sending and receiving.
  • FIG. 7 is a schematic block diagram of the service center 19 according to the first embodiment of the present invention.
  • the service center 19 shown in FIG. 7 includes a call rejection control unit (control unit) 10, a balloon data management unit 20, a terminal location tracking unit 30, a gateway server (GW) 18 a, 1 It has a receiving section 16 and a web server 18b, a DNS (Domain Name System) server 18c, a mail server 18d, a first transmitting section 17 and an extracting section 40. .
  • control unit control unit
  • GW gateway server
  • the transmission / reception rejection control unit 10 determines the mobile terminal 9 based on the position information of the mobile terminals 9 a to 9 c and the data on the transmission / reception corresponding to the three-dimensional space range information including the position information. It controls outgoing / incoming calls from a to 9c and includes a terminal attribute data holding unit 10a.
  • the first use of the terminal attribute data storage unit 10a is as follows. For the user ID (terminal user ID) determined by the terminal location tracking unit 30 to be the subject of the call rejection service, the mobile terminal having the user ID This is for returning the positions of 9a to 9c to the terminal position tracking unit 30.
  • the second application is that when the mobile terminals 9a to 9c are in the call-rejection balloon and cannot answer the call made by another user, the telephone number of the caller (hereinafter referred to as the caller's telephone number). , Called an incoming telephone number.) As an incoming call history.
  • the call rejection balloon is an information balloon, and when the service center 19 detects that the mobile terminal 9a to 9c has entered therein, the mobile terminal 9a to 9c.
  • the shape of the call rejection balloon is the same as the shape of the information balloon, and is stereoscopic. In FIGS. 10 and 11, etc., the shape of each call-rejection / rejection balloon is projected on a plane and displayed as a circle.
  • the terminal attribute data storage unit 10a stores each of the mobile terminals 9a to 9c in association with terminal attribute data representing a target or non-target of transmission / reception control such as transmission / reception restriction and transmission / reception rejection. It is.
  • This terminal attribute data is managed by the transmission / reception rejection control unit 10, For example, as shown in Fig. 5 (a), a list of user IDs that are excluded from the call rejection service determined by the network administrator is written.
  • the non-target user is, for example, a mobile terminal that has subscribed only to another communication carrier that has not subscribed to the call origination / rejection service system 200. It is also possible to write the phone number itself without using a specific ID.
  • the call rejection control unit 10 refers to the terminal attribute data, checks that the calling mobile terminal 9a is a target of the call rejection service, and does nothing if the user is not a service target. To return.
  • the outgoing portable terminal 9a is a service target person
  • the outgoing / incoming call rejection control unit 10 requests the balloon data management unit 20 to read out the balloon attribute.
  • the transmission / reception rejection control unit 10 obtains the transmission / reception rejection level after checking from the balloon attribute that the portable terminal 9a is a target for receiving the provision of the transmission / reception service of the balloon.
  • the outgoing / incoming call rejection control section 10 issues a necessary order (order message) to the outgoing portable terminal 9a according to the level.
  • the web server 18b, the DNS server 18c, the mail server 18d, the first transmitting unit 17, and the extracting unit 40 will all be described in a second embodiment described later.
  • the balloon data management unit 20 retains the balloon attribute data, automatically assigns (hunts) a new balloon ID, and writes it to the balloon attribute data storage unit 20a.
  • the mobile terminal 9a to 9c It has a function of registering and writing balloon IDs that are restricted from sending and receiving calls, a function of authenticating the mobile terminal to be accessed, and a balloon attribute data storage unit 20a (see FIG. 4).
  • the purpose of the balloon attribute data storage unit 20a is mainly to return the call rejection level of the balloon to the terminal position tracking unit 30 for the balloon ID passed from the terminal position tracking unit 30. is there.
  • the balloon attribute data holding unit 20a can also write an outgoing / incoming call permission balloon inside the outgoing / incoming call rejection balloon.
  • the balloon data management unit 20 sets the call rejection level of the balloon attribute data held in the balloon attribute data holding unit 20a. Set to 0 or NULL value. In other words, outgoing / incoming calls are not rejected for the retained data.
  • the balloon data management unit 20 checks that the permission balloon to be registered separately is included inside the existing rejection balloon, and furthermore, if the owner of the permission balloon and the owner of the rejection balloon match. Make sure that
  • the balloon data management unit 20 newly hunts the balloon ID and sets the balloon attribute.
  • a new balloon in which the hunted balloon ID and the call rejection level and the call rejection level are both set to 0 or NULL is registered as an outgoing / incoming call permission balloon in the data holding unit 20a.
  • the balloon data management unit 20 reads and writes the balloon attribute data of each information balloon, monitors access from other persons, and when access is made, specifies the specific information desired by the accessing person. Balloon attribute data is searched or extracted.
  • the terminal position tracking unit 30 performs a function of tracking the position of all information balloons (tracking), and performs an action (operation) relating to incoming / outgoing call when the mobile terminal 9a enters / exits the call rejection balloon, which will be described later. And a terminal position information data holding unit 30a.
  • This action means the call rejection action (auto rejection action) and the call rejection action (automatic rejection action). These actions are performed automatically, and the user is controlled by the service center 19 simply by moving without being aware of the actions.
  • the terminal position information data storage unit 30a associates the position information of the mobile terminals 9a to 9c with one or more existing three-dimensional space range information including position information among a plurality of three-dimensional space range information. Is to hold.
  • the terminal position information data holding unit 30a is managed by the terminal position tracking unit 30.
  • the user IDs of all the call rejection service subjects for example, "aa”, "bb” represent mobile terminals 9a and 9b
  • terminal location information consisting of, latitude, longitude and altitude
  • a balloon ID list also referred to as a group of IDs
  • a list of the phone numbers of the callers who have been rejected (incoming phone numbers) are managed (see Fig. 5 (b)).
  • the terminal position tracking unit 30 can always refer to the balloon attribute data and check whether the portable terminal 9b is included in the call rejection balloon.
  • the service center 19 When the mobile terminal 9b is included in the call rejection balloon, the service center 19 performs a call rejection action on the mobile terminal 9b according to the call rejection level. That is, the terminal position tracking unit 30 requests the transmission / reception rejection control unit 10 to perform a rejection action on the mobile terminal 9b.
  • the terminal attribute data holding unit 10a, the balloon attribute data holding unit 20a, and the terminal position information data holding unit 30a are held in association with each other, and the database unit 15 Functioning as
  • the service center 19 can provide, for example, three-dimensional space range information including latitude, longitude, altitude, and balloon diameter corresponding to a real three-dimensional space, and transmission / reception restriction data (for example, a mobile phone in a real three-dimensional space).
  • Database unit 15 for storing a plurality of balloon attribute data items each of which is associated with transmission / rejection rejection data of terminals 9 a to 9 c, position information of mobile terminals 9 a to 9 c, and database unit 15 Outgoing / incoming calls that control the outgoing / incoming calls of the mobile terminals 9a to 9c based on the outgoing / incoming call restriction data corresponding to the 3D spatial range information including the position information among the plurality of 3D spatial range information stored in the This means that the rejection control unit 10 is provided.
  • the position information of the mobile terminals 9a to 9c includes the latitude, longitude, and altitude of the mobile terminals 9a to 9c measured by the mobile terminals 9a to 9c themselves or by the GPS satellite 102. Further, the transmission / reception rejection control unit 10 preferably controls actions relating to transmission / reception of the mobile terminals 9a to 9c.
  • the gateway server 18a is provided at the entrance of the service center 19, and is used for transmitting packets to the service center 19.
  • the first transmitting unit 17 transmits a packet
  • the first receiving unit 16 transmits a packet that has passed through the gateway server 18a.
  • Receive processing, The processed data is output.
  • the function of the database unit 15 can be provided in a distributed manner on the Internet 52.
  • FIG. 9 is a configuration diagram of a distributed service center 19 according to the first embodiment of the present invention.
  • the service center 19a shown in FIG. 9 includes a storage unit 13 having the same functions as the terminal attribute data storage unit 10a, the balloon attribute data storage unit 20a, and the terminal location information data storage unit 30a. b, 13 c and 13 d are provided. Further, the gateway unit 13a and the transmission / reception unit 13e have the same functions as the gateway server 18a, the first reception unit 16 and the first transmission unit 17, respectively.
  • Each of the mobile terminals 9a to 9c is a mobile phone and has a voice communication function, a mail transmission / reception function, and the like.
  • FIG. 8 is a block diagram of the mobile terminal 9a according to the first embodiment of the present invention.
  • the mobile terminal 9a shown in FIG. 8 includes a detection unit 21, a GPS antenna lid, a wireless signal transmission / reception antenna 11 e, a wireless module 11 f, a power supply unit 11 g, a display unit 11 h, and a speed 1 1 i, microphone 11 j and control module 12.
  • the mobile terminals 9b and 9c shown in FIG. 1 have the same configuration as the mobile terminal 9a, and thus redundant description will be omitted.
  • the GPS antenna 11 d is an antenna for receiving a radio signal transmitted from the GPS satellite 102
  • the radio signal transmitting / receiving antenna 11 e is a radio base station 100 ( (See Fig. 1).
  • the wireless module 11 f transmits and receives wireless signals, and includes a second transmitting unit 22a and a second receiving unit 22b.
  • the second transmission unit 22a transmits the position information of the mobile terminals 9a to 9c detected by the detection unit 21 to the service center 19.
  • the second receiving unit 22b transmits the mobile terminal 9a itself transmitted by the second transmitting unit 22a.
  • the service information corresponding to the spatial range information including the location information of the mobile terminal 9a among the spatial range information transmitted from the service center 19 and consisting of the latitude, longitude, altitude, and balloon size of the object in the three-dimensional space is stored.
  • Each of the second transmitting section 22a and the second receiving section 22b is composed of a radio circuit.
  • the detection unit 21 detects the position information of the portable terminal 9a having the latitude, longitude, and altitude, and includes a GPS module (satellite information reception unit) 11c and an inclination.
  • the GPS module 11c receives satellite information (representing the latitude, longitude, and altitude information of the portable terminal 9a), and can control the direction of the 03 antenna 1 Id. It has become.
  • the tilt sensor 11a and the geomagnetic sensor 11b are both described in the second embodiment.
  • the power supply section 11g is a battery for supplying power to the mobile terminal 9a, and the display section 1lh displays information received from the service center 19 by the wireless module 11f. It is a display. Further, the speaker 11 i outputs voices, warnings, and the like, and the microphone 11 j inputs voices. These are all amplified by an amplifier (not shown). Therefore, the mobile terminal 9a has functions of display, GPS reception, and transmission and reception of wireless signals.
  • the cooperation of the GPS antenna 1 1d and the detection unit 21 allows a plurality of pieces of 3D space range information corresponding to the real 3D space and the transmission of the mobile terminals 9a to 9c in the real 3D space.
  • It functions as a location information output unit (1 ld, 21) that outputs location information of the portable terminals 9a to 9c to the service center 19 that stores data relating to incoming calls in association with each other. That is, the service center 19 holds a plurality of three-dimensional spatial range information and a plurality of balloon attribute data in which, for example, each of the outgoing / incoming call restriction data is associated, and outputs the three-dimensional space information including the output position information. It searches for spatial range information and controls outgoing and incoming calls.
  • the wireless signal transmitted from the service center 19 is received by the wireless signal transmitting / receiving antenna 11e, the received signal is demodulated by the wireless module 11f, and the demodulated data is transmitted to the control module. 1 Entered in 2 and distributed as described below
  • the type (order type) of the order message is determined in part 12a.
  • the control module 12 uses the mobile terminals 9 a to 9 c based on the location information transmitted by the location information output unit (lid, 21) based on the data on the incoming and outgoing calls transmitted from the service center 19. Outgoing and incoming call control or outgoing and incoming call control. In addition to controlling each operation of the mobile terminal 9a, it also processes the format of transmitted / received messages.
  • the distribution unit 12a the spatial information service processing unit 12b, the call rejection action control unit 1 2c, a terminal location information tracking management unit 12d, and a call control unit 12e.
  • Each part of the control module 12 is realized by a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like.
  • the distribution unit 12a analyzes the order type of the received message.
  • This order type means the processing type for balloons such as balloon registration, balloon deletion, and balloon search.
  • the spatial information service processing unit 12b creates an order for the balloon registration, controls the display contents of the display unit 11h, and instructs or guides the user to a different operation method for each order. is there.
  • the distribution unit 12a also performs control when a user performs manual input.
  • the terminal location information tracking management unit 12d outputs data indicating the current location of the mobile terminal 9a, and thereby tracks the location of the mobile terminal 9a.
  • the terminal location information tracking management unit 12d receives the order from the service center 19, and returns its own location information when the order requires the location information of the portable terminal 9a itself. The location is always managed.
  • the call rejection action controller 12c controls the action after rejection when the service center 19 sets call rejection or when the mobile terminal 9a sets call rejection. Is what you do.
  • the restrictions on incoming calls from the service center 19 are as follows: “Incoming calls are possible, but no ringtone sounds.”, “Level 1 + No calling.”, “No incoming calls.”, “Balloon.” Within four levels, “forced power off.” There are also two levels of restrictions on outgoing calls, such as “can make outgoing calls but are not connected to the called party and announce a warning sound" and "forced power off inside the balloon.”
  • the mobile terminal 9a is a service center When a level value from 19 is received, outgoing and incoming calls are controlled according to the level value.
  • the outgoing / incoming call rejection action control unit 12c holds outgoing / incoming call rejection data in which outgoing / incoming call control at each level is recorded. Note that the call rejection action control unit 12c can obtain the position of the mobile terminal 9a and the specific balloon including the mobile terminal 9a from the output data from the terminal position information tracking management unit 12d. It has also become.
  • the call control unit 12 e performs necessary control when the portable terminal 9 a is making a call or notifying data with another terminal.
  • the mobile terminals 9a to 9c are provided with a plurality of pieces of 3D space range information that can be set to a desired size corresponding to the real 3D space, and the mobile terminals 9a to 9c in the real 3D space.
  • the service center 19 which stores a plurality of balloon attribute data associated with each of the rejection data, the position where the position information having the latitude, longitude, and altitude of the measured mobile terminals 9a to 9c is output.
  • the mobile terminals 9a to 9 based on the information output unit (lid, 21) and the location information transmitted by the location information output unit (lid, 21) based on the transmission / reception restriction data transmitted from the service center 19.
  • the control module 12 includes a control module section 12 for controlling the transmission and reception of c.
  • FIG. 10 is a diagram for explaining the operation of the call rejection service according to the first embodiment of the present invention.
  • the service center 19 has a network manager terminal 53 that can access data relating to the database unit 15 and other spatial information systems.
  • the components shown in FIG. 10 and having the same reference numerals as those described above have the same or similar functions.
  • the Internet 52 and the radio base station 100 shown in FIG. 1 are omitted for convenience of explanation.
  • the service center 19 acquires the position information of the mobile terminals 9a to 9c. Subsequently, the service center 19 associates each of the plurality of three-dimensional space range information corresponding to the real three-dimensional space with data relating to the transmission and reception of the mobile terminals 9 a to 9 c in the real three-dimensional space. Searches for data related to outgoing / incoming calls corresponding to 3D spatial range information including position information from balloon attribute data. Then, the service center 19 based on the searched outgoing / incoming data. To control outgoing / incoming calls of the mobile terminals 9a to 9c.
  • this method will be described in detail.
  • the terminal position tracking unit 30 of the service center 19 includes a mobile terminal (a mobile terminal for calling: one transmitting terminal A) 9 a, a mobile terminal (a mobile terminal for receiving: one receiving terminal B) 9 b and a mobile terminal ( Continue to track all the locations of the receiving terminal C) 9c.
  • the call rejection control unit 10 of the service center 19 transmits the call before receiving the call from the mobile phone network 51 to the mobile terminal 9b.
  • the mobile terminal 9b requests the mobile terminal 9b to confirm whether or not a call can be received.
  • the transmission / reception rejection control unit 10 refers to the terminal location information data storage unit 30a, indicating the position of the mobile terminal 9b and the transmission / reception rejection balloon (displayed in a circle) including the mobile terminal 9b. Get it.
  • the call-rejection control unit 10 refers to the balloon attribute data managed by the balloon data management unit 20 to make a call. With reference to the rejection level of the call rejection balloon including the terminal 9b, a rejection action or a rejection release action is performed according to the rejection level.
  • the mobile terminal 9a can receive a call to the mobile terminal 9c as usual.
  • FIG. 11 is a diagram for explaining the operation of the call rejection service according to the first embodiment of the present invention. Those shown in FIG. 11 and having the same reference numerals as those described above have the same or similar functions, and the Internet 52 and the radio base station 100 shown in FIG. It is omitted for convenience of explanation.
  • the rejection action starts when the mobile terminal 9b enters the real 3D space corresponding to the outgoing call rejection balloon (displayed in a circle).
  • the terminal position tracking unit 30 of the service center 19 always tracks the positions of all balloons, and each time, referring to the balloon attribute data, the mobile terminal 9b is included in the call rejection balloon. Check if it is. Since this mobile terminal 9b is included in the call-rejection / rejection balloon, it requests the call-rejection / rejection control unit 10 and 10 transmits the order including the call rejection level to the portable terminal 9b. As a result, the mobile terminal 9b executes the call rejection function according to the call rejection level included in the order.
  • FIG. 12 is a diagram showing a sequence for explaining the setting of the call rejection balloon according to the first embodiment of the present invention.
  • the sequence shown in FIG. 12 is between the mobile terminals 9 a to 9 c and the call rejection control unit 10, the balloon data management unit 20, and the terminal position tracking unit 30 of the service center 19. .
  • the mobile terminal 9a transmits balloon attribute data to the balloon data management unit 20 (step Al). For example, the mobile terminal 9a writes “calling / rejection rejection balloon registration” in the order type of the message shown in Fig. 13 (a), and determines the terminal position (balloon center position) and terminal owner in each area. Write the balloon size, owner (user ID), outgoing call rejection level, incoming call rejection level, outgoing call rejection target (user ID), etc., and send the written data to the balloon data management unit 20.
  • the message format shown in Fig. 13 (b) shows the processing result (OK / NG [No Good]) of the service center 19 and the balloon sent from the service center 19 to the mobile terminals 9a to 9c. It is for sending an ID.
  • the balloon data management unit 20 shown in FIG. 12 When the balloon data management unit 20 shown in FIG. 12 receives this order, it automatically assigns (hunts) the balloon ID and writes the assigned balloon ID to the balloon attribute data holding unit 20a. (Step A3) Then, the processing result is transmitted to the mobile terminal 9a (Step A4).
  • the terminal position tracking unit 30 performs a rejection action (rejection operation) on the mobile terminals 9a to 9c using the position information tracking function of the mobile terminals 9a to 9c and the position information obtained by the tracking. Or a function to perform a rejection release action (rejection release operation).
  • the rejection action is an operation that prevents mobile terminals 9a to 9c from making outgoing calls. And the operation of stopping incoming calls from mobile or fixed terminals of another network to the mobile terminals 9a to 9c. That is, the rejection action is performed from the service center 19 side to the portable terminals 9a to 9c side, and transmits an order for rejecting outgoing calls or stopping ringing of incoming calls. As a result, outgoing / incoming calls of specific mobile terminals 9a to 9c are rejected in hospitals and the like.
  • the rejection release action means to restore the call transmission / reception function of the mobile terminals 9a to 9c stopped by the rejection action.
  • This rejection release action is also performed by transmitting a rejection release order from the service center 19 to the portable terminals 9a to 9c.
  • the function of tracking the location information by the terminal location tracking unit 30 and the function of performing the rejection action and the rejection cancellation action for the mobile terminals 9 a to 9 c by the terminal location tracking unit 30 are shown in FIG. 14, respectively. This will be described with reference to FIGS.
  • FIG. 14 is a diagram showing a sequence for explaining terminal location tracking according to the first embodiment of the present invention.
  • the terminal position tracking unit 30 shown in FIG. 14 always obtains the position of the mobile terminal (the transmitting terminal A) 9a (step B1), and the mobile terminal 9a 15 Send the order type “terminal location information tracking” as shown in 5 (a) to the mobile terminal 9a.
  • the mobile terminal 9a measures its own location information and uses the location information as shown in FIG. 15 (b), for example, as the order type “terminal location information tracking result” and the processing result (success [OK] / failure). [NG]) and the terminal position (latitude, longitude and altitude) are transmitted to the terminal position tracking unit 30, and the terminal position tracking unit 30 transmits the mobile terminal 9 a's own terminal transmitted by the mobile terminal 9 a. Receive the position (step B2). It should be noted that the position information of the mobile terminal 9a may be measured using a GPS satellite 102 or the like. Thereafter, the terminal position tracking unit 30 performs the process of Step B3 (Step B4 to Step B6).
  • step B4 the mobile terminal 9a passes the terminal position obtained in step B2 to the balloon data management unit 20. Then, the balloon data management unit 20 requests a search for a call-rejection / rejection balloon including the mobile terminal 9a using the position of the mobile terminal 9a as a search key. Thereby, the service center 19 can check whether or not the mobile terminal 9a has entered the call rejection balloon. Then, in step B7, the terminal position tracking unit 30 checks whether or not the portable terminal 9a is included in the outgoing / incoming call rejection balloon and is outside the outgoing / incoming call permission balloon.
  • step B1 if the mobile terminal 9a is not included in the outgoing / incoming / outgoing balloon or is in the outgoing / incoming permitted balloon, the process from step B1 is started through the No route.
  • the balloon ID is added to the terminal position information data holding unit 30a through Yes Yes rate. (Step B8). The reason for adding the balloon ID is to secure a separate balloon for making the mobile terminals 9a to 9c unable to make and receive calls by the service center 19.
  • these mobile terminals 9 a to 9 c are placed under control (or management) of the terminal position tracking unit 30 so that only the specific mobile terminals 9 a to 9 c are in the transmission / reception stop state. is there.
  • the balloon ID is added by rewriting the outgoing / incoming call permission balloon ID recorded in the terminal position information data holding unit 30a and the positions of the portable terminals 9a to 9c, respectively. Is done.
  • the database unit 15 and the balloon data management unit 20 function as management means (15, 20) by cooperating with each other, and store the position information of the mobile terminals 9a to 9c and the three-dimensional data.
  • the outgoing / incoming call control of the portable terminals 9 a to 9 c is managed based on the spatial range information, and the outgoing / incoming call rejection control unit 10 uses the managing means (15, 20) to make the portable terminals 9 a to 9 c. Is to be controlled.
  • the mobile terminal 9a is subjected to a rejection action by the terminal position tracking unit 30, and an order is set from the terminal position tracking unit 30 as shown in FIG. ).
  • an order is set from the terminal position tracking unit 30 as shown in FIG. ).
  • the mobile terminals 9a to 9c are in the rejection state, a call originated from another terminal or the like to the mobile terminals 9a to 9c is received by the mobile terminal 9a.
  • the incoming telephone number of the caller is stored in the terminal location information data storage unit 30a as a received call history.
  • the balloon ID is not added. Further, the rejection action of the terminal position tracking unit 30 in step B9 is performed only when a new balloon is added. In other words, if the mobile terminal 9a moves out of the call rejection balloon, no rejection action is performed. Also, when the position of the mobile terminal 9a moves outside the call rejection balloon or within the call permission balloon, the position information after the movement is moved in the same manner as in normal tracking. Is written into the terminal position information data holding unit 30a, and the position information of the portable terminal 9a is updated (step B10). At the same time, the list of balloon IDs recorded in the terminal position information data holding unit 30a is deleted, and the incoming call history indicating the telephone number of another terminal that has called the portable terminal 9a is cleared.
  • a rejection release action described later is performed (step B11). More specifically, a list of orders for notifying the rejection of incoming and outgoing calls and a list of incoming telephone numbers are transmitted to portable terminal 9a.
  • the service center 19 receives the data relating to the call transmission / reception of the mobile terminals 9 a to 9 c, and controls the call control of the mobile terminals 9 a to 9 c. Or, a non-object is determined. Then, when the mobile terminals 9a to 9c are the target, the service center 19 reads out the transmission / reception control data corresponding to the three-dimensional spatial range information including the position information of the mobile terminals 9a to 9c, and Actions relating to outgoing / incoming calls are performed for the terminals 9a to 9c based on the outgoing / incoming call control data.
  • the terminal position tracking unit 30 constantly tracks the position of the mobile terminal 9a, and can determine whether a rejection action is necessary. Further, the customized outgoing / incoming call control can be performed for each of the mobile terminals 9a to 9c.
  • the terminal position tracking unit 30 uses the mobile terminal 9a with a high frequency for the mobile terminal 9a. Tracking is not required. Accordingly, since the terminal position tracking unit 30 is set so as not to perform a separate rejection function, the processing load on the terminal position tracking unit 30 and the like is reduced.
  • the portable terminal 9a can obtain the history of telephone numbers addressed to itself called from another network, so that the user can recognize the existence of all calls.
  • the service center 19 uses the three-dimensional space for the mobile terminals 9a to 9c. Out of range information outgoing / rejecting balloon (Restrict incoming Judgment is made out of the range) or inside the outgoing / incoming call permission balloon (in the incoming call permitted range). If the service center 19 determines that the call is out of the incoming call restriction range, the service center 19 executes the rejection release function in step B11 through the No route (step B11).
  • the service center 19 further writes the position of the portable terminal 9a in the terminal position information, and clears both the balloon ID list and the incoming call list.
  • the rejection release action is executed only when the list of balloon IDs is cleared, sends a call / rejection rejection cancellation order and a list of incoming telephone numbers to the mobile terminal 9a, and receives the call from the mobile terminals 9a to 9c.
  • the history is transmitted to the mobile terminals 9a to 9c.
  • the terminal position tracking unit 30 rewrites the position of the outgoing / incoming call permission balloon ID and the position of the portable terminal 9a, so that accurate information is provided.
  • the terminal position can be quickly tracked if a separate balloon has already been registered.
  • a GPS satellite 102 or the like can be used in addition to the information obtained by measuring the mobile terminal 9a itself.
  • FIG. 16 is a diagram showing a sequence for explaining a rejection function in the service center 19 according to the first embodiment of the present invention. If a rejection action is required, for example, the start of a rejection action is selected in step B9 shown in FIG. 14, the terminal position tracking unit 30 sends the rejection action to the call rejection control unit 10 A request is made (step C1), and the user ID and balloon ID of the mobile terminal 9a that sent the call are passed (step C2).
  • the call rejection control unit 10 refers to the terminal attribute data holding unit 1Oa (step C3) and checks whether the mobile terminal 9a is a target of the call rejection service (step C3). Four ).
  • the call rejection control unit 10 returns without doing anything through the Yes route (step C5), but the mobile terminal 9a is the target person. If not, the rejection level is read through the No route (step C6).
  • the call rejection control unit 10 requests the balloon data management unit 20 to search for the balloon attribute using the balloon ID as a search key (step C7).
  • the balloon data management unit 20 stores the balloon attribute data holding unit 2
  • the balloon attribute recorded in 0a is read (step C8), and the balloon attribute data is returned to the call rejection control unit 10 (step C9).
  • step C10 the call rejection control unit 10 checks whether or not the mobile terminal 9a is the target of the call transmission / reception of this balloon using the balloon attribute data from the balloon data management unit 20. I do. By this check, if the rejection action is unnecessary, the terminal location tracking unit 30 is notified through the No route to the effect. On the other hand, if a rejection action is required, the call goes through the Yes route and the call rejection control unit 10 sends the call to the mobile terminal (calling terminal—A) according to the call rejection level notified from the balloon data management unit 20. In order to output a rejection order for 9a (step C11), a rejection order according to the outgoing / incoming call rejection level is transmitted to the portable terminal 9a. In this rejection order format, for example, as shown in FIG. 20 (a), an area is provided for writing a call rejection level and a call rejection level.
  • the balloon data management unit 20 transmits the rejection order to the portable terminal 9a and receives the response.
  • a response is returned to the mobile terminal 9a (step C13).
  • An example of this processing result response is shown in Fig. 20 (b). Note that portions denoted by reference numerals P 1 and P 2 represent portions corresponding to a processing sequence (see FIG. 18) of the mobile terminal 9 a to be described later. Therefore, in the method for providing a call control service of the present invention, the service center 19 receives an incoming request from the portable terminal 9a to the portable terminal (the receiving terminal B, C) 9b, 9c.
  • the target or non-target of the incoming / outgoing control is determined. If the mobile terminal 9c is the target, the position information of the mobile terminal 9c is read and the three-dimensional data including the position information of the mobile terminal 9c Read outgoing / incoming call control data corresponding to the spatial range information, and control incoming calls based on the outgoing / incoming call control data.
  • the specific mobile terminal 9a to 9c can be used in a specific area such as the third floor of a hospital.
  • Outgoing and incoming calls can be selectively implemented.
  • the transmission / reception rejection service system 200 can be reliably operated while maintaining the function of controlling the transmission / reception of the mobile terminals 9a to 9c on a cell-by-cell basis.
  • FIG. 17 is a diagram showing a sequence for explaining a rejection action in the mobile terminal 9a according to the first embodiment of the present invention.
  • the components shown in FIG. 17 and having the same reference numerals as those described above have the same or similar functions.
  • the symbols P 1 and P 2 represent the same processing timing as those shown in FIG.
  • the radio signal from the service center 19 is demodulated to determine the order type (Step T1), and the order type is input to the call rejection action control unit 12c, and the call rejection included in the order is rejected.
  • the level is determined (step T2).
  • the control module 12 holds the call rejection level (step T3a), and when the call rejection level is 2, the control module 1 2 c sends a response to the service center 19, and then requests the power supply unit 1g to turn off the power (step T3b).
  • the call rejection action control unit 12c stores the call rejection level (step T4), and then a response is transmitted from the wireless module 11f to the service center 19 (P2 reference).
  • FIG. 18 is a diagram showing a sequence for explaining a rejection release action according to the first embodiment of the present invention. The case where the rejection release function is started in step B11 shown in FIG. 14 will be described.
  • the terminal position tracking unit 30 requests the rejection release action to the call rejection control unit 10 (step C21), and passes the user ID and balloon ID of the mobile terminal 9a targeted for the rejection action (step C). twenty two).
  • the call rejection control unit 10 refers to the terminal attribute data storage unit 10a (step C23) and checks whether the mobile terminal 9a is a target (target person) of the call rejection service. (Step C 24). Here, if the mobile terminal 9a is not the target, the call rejection control unit 10 returns without doing anything through the Yes route (step C25), but if the mobile terminal 9a is the target, The rejection level is read through the No route (step C26).
  • the transmission / reception rejection control unit 10 requests the balloon data management unit 20 to search for the balloon attribute using the balloon ID as a search key (step C27). And balloon data management 20 reads out the balloon attribute recorded in the balloon attribute data holding unit 20a (step C28), and returns the balloon attribute data to the call rejection control unit 10 (step C29).
  • the call rejection control unit 10 uses the balloon attribute data from the balloon data management unit 20 to determine whether or not the rejection release action is required for the mobile terminal 9a in step C30. In this step C30, if unnecessary, the terminal location tracking unit 30 is notified through the No route to the effect. On the other hand, if the rejection release action is necessary, the call rejection control unit 10 passes through the Yes route and outputs the rejection release order to the mobile terminal (calling terminal A) 9a (step C3). 1), a rejection cancellation order corresponding to the rejection cancellation level of the call is transmitted to the portable terminal 9a.
  • the format of this order "cancel rejection" is almost the same as the format of the rejection action, as shown in Fig. 20 (c), for example, in which areas for writing outgoing rejection levels and incoming rejection levels are provided. If the transmission of the rejection cancellation order is unsuccessful (NG), it is resent (step C32).
  • the balloon data management unit 20 transmits the rejection cancellation order to the mobile terminal 9a and, upon receiving the response, returns a processing result response to the mobile terminal 9a (step C33).
  • An example of this processing result response order is shown in Fig. 20 (d).
  • the portions denoted by reference symbols P3 and P4 represent portions corresponding to the processing sequence of the mobile terminals 9a to 9c (see FIG. 19).
  • FIG. 19 is a diagram showing a sequence for explaining a rejection release function in the mobile terminal 9a according to the first embodiment of the present invention. Those having the same reference numerals as those described above in FIG. 19 have the same or similar functions. Further, reference numeral P3 represents the same processing timing as P3 shown in FIG.
  • the radio signal transmitted from the service center 19 is determined in the distribution unit 12a via the radio module 11f in the same manner as the normal incoming call notification, and the order type is determined (step T10).
  • the call rejection level included in the order is read out (step T 1 Do When the incoming call rejection level is 1, for example, the control module 12 does not emit a sound, that is, allows the incoming call without accessing the speaker (step T1 2a). Change the status to on-hook wait (step T13).
  • the control module 12 causes the incoming call without sounding (no speaker access) (step Tl 2 b), and the call control section 1 2 e stores the incoming call history. (Step T14).
  • control or control operation regarding the outgoing / incoming call set in the service center 19 is executed by the portable terminal 9a.
  • FIG. 21 is a diagram showing a sequence for explaining a call under the outgoing / incoming call restriction according to the first embodiment of the present invention, wherein the portable terminal 9a is a caller and the portable terminal 9b is a callee. Yes, the call processing in that case is displayed.
  • the call denial control unit 10 receives the user IDs of the mobile terminal 9a and the mobile terminal 9b (step). Dl), refer to the terminal attribute data storage unit 10a (step D2), and check that the called party is a target of the call rejection service (step D3).
  • the call rejection control unit 10 passes through the Yes route and notifies the mobile terminal 9 of the fact.
  • the call rejection control unit 10 makes an inquiry to the terminal location tracking unit 30 (step D4).
  • the call rejection control unit 10 can check whether or not the called party (mobile terminal 9b) is in the call rejection balloon.
  • the terminal position tracking unit 30 requests the terminal position information balloon data management unit 20, obtains the balloon attribute data, and reads the position of the mobile terminal (one receiving terminal B) 9b.
  • the terminal position tracking unit 30 receives information on the position of the called party from the call rejection control unit 10 (step D5).
  • step D6 the call rejection control unit 10 checks whether or not the mobile terminal 9b is in the rejection balloon. If the mobile terminal 9b is in the rejection balloon, it passes through the Yes route and calls the caller. In order to add the telephone number (telephone number) of the terminal to the terminal location information, the terminal position tracking unit 30 is again requested (step D7), and the user ID of the portable terminal 9a is transmitted to the terminal position information. The tracking unit 30 is notified. Upon receiving this notification, the terminal position tracking unit 30 adds the incoming telephone number (step D8). On the other hand, when the mobile terminal 9b is not in the rejection balloon, the call goes through the No route and the call rejection control unit 10 receives the mobile terminal 9b. In this way, it is checked that the callee is a target of the call rejection service, and if the callee is the target, a rejection release action is taken according to the call rejection level.
  • FIG. 22 is a diagram showing a sequence for explaining an incoming call under the outgoing / incoming call restriction according to the first embodiment of the present invention, in which a balloon setting person changes the incoming / outgoing call rejection level. .
  • the outgoing / incoming call rejection control unit 10 is called from the terminal position tracking unit 30 and the outgoing / incoming call rejection control unit 10 reads out a rejection action (step D 21).
  • the transmission / reception rejection control unit 10 searches the balloon attribute data using the balloon ID as a search key (step D22).
  • the balloon data management unit 20 searches the balloon attribute data storage unit 20a, and collects and returns one or more balloon attribute data that has been hit (step D24).
  • step D25 when the mobile terminal 9 is a non-target user, the call rejection control unit 10 transmits the person identified as the searcher to the mobile terminal 9b through the YES route. If the user is a target user, a rejection action is executed through the NO route (step D27).
  • the person who sets the balloon transmits the balloon ID and the attribute (the call rejection level or the call rejection target person) to be changed to the balloon data management unit 20.
  • the balloon data management unit 20 confirms that it is the same as the person requesting the change based on the balloon ID, and updates the balloon attribute data. In this way, it is possible to perform incoming call control by selecting a specific one of a large number of mobile terminals 9a to 9c, so that outgoing / incoming calls of mobile terminals 9a to 9c are effectively restricted in trains and the like. .
  • FIG. 23 is a diagram showing a sequence for explaining the change of the transmission / reception rejection level according to the first embodiment of the present invention, in which the balloon setting person changes the transmission / reception rejection level.
  • the mobile terminal 9a of the balloon setter transmits the balloon ID desired to be changed and the balloon attribute data to the balloon data management unit 20 (step El).
  • the order type to be transmitted for example, as shown in FIG. 24 (a), "change call rejection balloon" is written.
  • step E2 the balloon data management unit 20 checks whether or not the sender is the person who registered the balloon, and if it is determined that the sender is not the person, passes the No route and passes the NG to the mobile terminal 9a.
  • the transmitted order includes the processing result, for example, as shown in FIG. 24 (b).
  • the balloon data management unit 20 immediately passes through the Yes route and changes the balloon attribute data storage unit 20a (step E4). Then, a response is sent to the portable terminal 9a with the processing result (step E5).
  • the service center 19 receives the request for changing the terminal attribute data indicating the target or non-target of the call control held by the mobile terminals 9a to 9c. It authenticates the change request, and changes the terminal attribute data stored based on the file data included in the change request.
  • each of the mobile terminals 9a to 9c can update the balloon attribute data by himself. Therefore, the user can access the balloon attribute data as if updating the content of his / her home page.
  • FIG. 25 is a diagram showing a sequence for explaining the outgoing / incoming / outgoing call rejection outside person change according to the first embodiment of the present invention.
  • the network administrator transmits the user ID of the person who is not subject to the call rejection service to be changed to the call rejection control unit 10 (step E10).
  • the transmitted order can include a plurality of non-target persons, for example, as shown in FIG.
  • the call rejection control unit 10 determines in step E11 that the sender of this user ID S , authenticates whether or not the user is a network administrator, and if determined to be a network administrator, goes through the Yes route and in step E13, the terminal recorded in terminal attribute data holding unit 10a. The attribute data is changed, and in step E 14, the processing result is returned to the network administrator terminal 53.
  • step E11 If it is determined in step E11 that the sender of the user ID is not the network administrator, NG is returned to the sender of the transmission via the No route (step E12). This NG is returned, for example, by being written in the order shown in FIG. 26 (b).
  • FIG. 27 is a view for explaining the outgoing / incoming call permission balloon according to the first embodiment of the present invention.
  • the reference numerals B 1 and B 2 shown in FIG. 27 indicate the call-rejection / rejection balloon and the call-reception permission balloon, respectively. That is, a balloon B2 having an attribute different from that of the balloon B1 is provided in a nesting state in the bus / lane B1.
  • the call rejection service system 200 can avoid unnecessary call restriction or rejection for each user, and can provide a detailed service.
  • FIG. 28 is a diagram showing a sequence for explaining the outgoing / incoming call permission balloon setting according to the first embodiment of the present invention.
  • the mobile terminal 9a shown in FIG. 28 transmits the attribute of the transmission / reception permission balloon to the balloon data management unit 20 (step Fl).
  • step Fl the balloon data management unit 20
  • "Calling / Calling permission balloon registration” is written in the order type.
  • the mobile terminal 9a sets the call rejection level and The rejection levels are both set to 0 (or NULL), and this order is transmitted to the balloon data management unit 20.
  • the balloon data management unit 20 reads out the balloon attribute data of the outgoing / incoming call rejection balloon included in the order from the balloon attribute data holding unit 20a (step F2), and in step F3, permits the outgoing / incoming call to be registered. Check whether the balloon is included in the Call Denial balloon.
  • the balloon data management unit 20 transmits NG to the portable terminal 9a if an attempt is made to register an outgoing / incoming call permission balloon outside the outgoing / incoming call rejection balloon (step F4). This NG is written in an order (see FIG. 13 (b)) and returned to the portable terminal 9a.
  • step F3 if the incoming / outgoing permission balloon is within the outgoing / incoming rejection balloon in step F3, the user goes through the Yes route, and in step F5, checks that the owners of the permitting balloon and the rejection balloon match. Is done. If the permission balloon is included inside the existing rejection balloon and the owner of each balloon is the same, the balloon data management unit 20 hunts the new balloon ID through the Yes route. (Step F 7), the balloon attribute data storage unit 20 a permits sending / receiving a new balloon in which the hunted balloon ID and the call rejection level and the call rejection level are both 0 or NU. It is written into the balloon attribute data holding unit 20a as a balloon (step F8), and the processing result is returned to the portable terminal 9a (step F9).
  • the network administrator can restrict the outgoing / incoming calls of the portable terminals 9a to 9c in order to maintain the quietness, and can turn off the power, Alternatively, countermeasures can be taken to prevent hotels from being used in offices.
  • the use of specific or a small number of mobile terminals 9a to 9c can be prohibited without the installation of expensive and strict installation standards for jamming radio wave transmitters or radio wave shields, etc. Can be prevented.
  • the service center 19 can also provide services accompanying the outgoing / incoming call service to the portable terminals 9a to 9c.
  • the web server 18b, the DNS server 18c., The mail server 18d, and the extraction unit 40 shown in FIG. 7 are all for providing ancillary services.
  • the web server 18b holds various service information provided by individuals and companies in association with the balloon data, and the DNS server 18c converts host names and IP addresses.
  • the mail server 18d transmits and receives electronic mails.
  • the extracting unit 40 searches the contents of the web server 18b, the DNS server 18c, the mail server 18d and the database unit 15 and filters and extracts the information obtained by the search. .
  • the other components are the same as those described above.
  • the service center 19 transmits a URL (Uniform Resource Locator) of a homepage on which the service information is posted to the mobile terminals 9 a to 9 c.
  • a URL Uniform Resource Locator
  • the mobile terminals 9a to 9c also have an inclination sensor 11a and a geomagnetic sensor 11b.
  • the tilt sensor 11a is used by the mobile terminals 9a to 9c to measure their own tilt angles, and the measured tilt angles are sent to the service center 19 together with positional information such as latitude and longitude. It is designed to be sent.
  • the tilt sensor 11a measures the tilt angle of the mobile terminal 9a from the horizon.
  • the attitude of the mobile terminal 9a can be accurately determined. Can be detected.
  • the geomagnetic sensor 11b detects geomagnetism and measures azimuth.
  • the reference of this direction indicates, for example, the direction in which the radio signal transmitting / receiving antenna 11 e extends.
  • the geomagnetic sensor 11b has a coil (not shown), and as is well known, Geomagnetism is measured by the magnitude of the magnetic flux passing through the coil.
  • each of the mobile terminals 9 a to 9 c acquires the latitude A, the longitude B, the altitude 0, the azimuth measured by the geomagnetic sensor 11 b, and the inclination angle ⁇ , and sends the information to the service center 19. It transmits these pieces of position information.
  • the service center 19 extracts a URL corresponding to one or more space range information including the position information from the space range information held by the database unit 15 based on the detailed position information. Then, the content corresponding to the extracted URL is transmitted to the mobile terminals 9a to 9c.
  • the user turns the mobile terminals 9a to 9c to the third floor in order to know the menu of the restaurant operating on the third floor of the building within his or her field of view, for example, by pressing the measurement button (not shown). ) Press to measure the current position consisting of latitude, longitude and altitude, and the azimuth and inclination angle.
  • the mobile terminals 9a to 9c transmit the current position and the tilt angle to the service center 19, and the service center 19 searches for one or more balloons including the current position, and obtains the information by the search.
  • Various service information associated with the assigned balloon is transmitted to the mobile terminals 9a to 9c.
  • the user can obtain information on the objects, natural objects, and celestial objects located in the direction designated by the user, and data such as characters, images, and sounds on the search object. In this way, the user can obtain various service information from the service center 19.
  • the database unit 15 also holds data for canceling the call restriction of the mobile terminals 9a to 9c, and also holds data for promoting the call and expanding the chances of the call as data on the call. it can.
  • the database unit 15 may store data for alleviating the restriction after a certain period of time for mobile terminals 9 a to 9 c for which outgoing / incoming calls are restricted, or mobile terminals 9 a to 9 for specific customers. For c, it is possible to retain data for giving an incoming call preferentially and expanding the chance of receiving an incoming call. This enables efficient management of incoming and outgoing call volumes.
  • the method of notifying the user of the outgoing call restriction is as follows:
  • a method of displaying a message indicating that a call has been made, a method of announcing the fact that the call is restricted to the receiving speaker, or a method of playing a desired sound (or music) as a ringing melody can be used.
  • the database can provide a service as a two-dimensional plane.
  • the service center 19 is a server system used in the call rejection service system 200 that provides the call terminal 9a to 9c with call transmission / reception services.
  • the server system the user terminal, the outgoing / incoming call control service system, and the method of providing the outgoing / incoming call control service of the present invention, for example, in a small area such as the third floor of a hospital, This makes it possible to restrict outgoing / incoming calls for the user terminal.
  • the network administrator can restrict the sending and receiving of the user terminal in order to maintain the quietness. It can be turned off or measures can be taken to prevent hotels from being used in offices. In addition, it is possible to prohibit the use of specific or a small number of user terminals without the installation of expensive radio interference transmitters or radio shields, etc., which are expensive and strict in installation standards.

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Computer Hardware Design (AREA)
  • Computing Systems (AREA)
  • General Engineering & Computer Science (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

L'invention concerne un système serveur utilisé dans un système de service appelant/appelé comprenant une base de données de mise en temporisation durant la corrélation de plusieurs information de domaine tridimensionnel correspondant à un espace tridimensionnel réel avec des données de service appelant/appelé de terminal utilisateur dans l'espace tridimensionnel réel, et une unité de commande destinée à commander un terminal utilisateur de service appelant/appelé selon l'information de position de ce terminal et des données sur le service appelant/appelé correspondant à l'information de domaine tridimensionnel, comprenant l'information de position. Ainsi, sans installation d'un émetteur de brouillage ou d'un écran radio, dont le coût est important et nécessite un standard d'installation précis, il est possible d'identifier un petit nombre de terminaux utilisateur particuliers afin de limiter le service appelant/appelé ou un rejet ainsi que de limiter le service appelant/appelé du terminal utilisateur afin de maintenir le silence.
PCT/JP2002/007272 2002-07-17 2002-07-17 Systeme serveur, terminal utilisateur, systeme et procede de service de commande appelant/appele WO2004008798A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2002/007272 WO2004008798A1 (fr) 2002-07-17 2002-07-17 Systeme serveur, terminal utilisateur, systeme et procede de service de commande appelant/appele

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2002/007272 WO2004008798A1 (fr) 2002-07-17 2002-07-17 Systeme serveur, terminal utilisateur, systeme et procede de service de commande appelant/appele

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WO2004008798A1 true WO2004008798A1 (fr) 2004-01-22

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10234082A (ja) * 1997-02-20 1998-09-02 Hitachi Software Eng Co Ltd 音声通話規制方法および移動通信システム、移動通信交換機、移動局装置
JPH10327474A (ja) * 1997-03-28 1998-12-08 Fujitsu Ltd 移動機の発着信規制方法、規制基地局装置および移動通信システム
JPH11178069A (ja) * 1997-12-16 1999-07-02 Fujitsu Ltd 移動通信方法及び移動通信システム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10234082A (ja) * 1997-02-20 1998-09-02 Hitachi Software Eng Co Ltd 音声通話規制方法および移動通信システム、移動通信交換機、移動局装置
JPH10327474A (ja) * 1997-03-28 1998-12-08 Fujitsu Ltd 移動機の発着信規制方法、規制基地局装置および移動通信システム
JPH11178069A (ja) * 1997-12-16 1999-07-02 Fujitsu Ltd 移動通信方法及び移動通信システム

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