JPWO2002052882A1 - Radio communication control station device and radio communication device - Google Patents

Abstract

A plurality of base stations BS (BS1, BS2, BS3), a pager base station 13k, and a plurality of groups G1, G2, G3, G4, G5 of mobile communication terminals are provided in one pager communication system area Ak. The portable communication terminal has a cellular radio communication device and a pager receiver. Each group includes a plurality of mobile communication terminals 1, but uses the same telephone line. The cellular radio communicator of each portable communication terminal uses the same telephone line, and the pager receiver uses the same pager communication line. Each mobile communication terminal 1 has a different ID. When one of the mobile communication terminals 1 in each group starts communication, the position information of the mobile communication terminal is registered in the VLR. Also, when another mobile communication terminal 1 in the same group attempts to start communication, the location registration is rejected.

Description

Technical field
The present invention relates to a wireless communication control station device and a wireless communication device.
Background art
2. Description of the Related Art In a mobile communication system such as a PDC (Personal Digital Cellular), two databases, a VLR (Visitor Location Register) for registering the position of a mobile communication terminal and an HLR (Home Location Register) for registering user charging information and the like, are provided. And performs management using these databases for each mobile communication terminal. This user information management cost occurs regardless of the frequency of use, and is reflected in a so-called basic fee. This is uneconomic for infrequent users.
On the other hand, a pager communication system (wireless paging system, pager) capable of transmitting a short message is the system which covers the widest area in mobile communication. The service area of a pager communication system generally starts with a regional service for each prefecture, and provides a wide area service such as a wide area service and a multi area service. Usually, one pager central station and a plurality of pager base stations are arranged in the service area of the pager communication system. When the caller dials the calling number of the pager receiver (wireless paging receiver), the caller is connected to a pager device in the pager central office, and the pager device transmits an address signal for identifying the corresponding pager receiver and an input message signal. Send to each pager base station. The signal sent to each pager base station is converted into a radio signal, and simultaneously transmitted simultaneously from each station at the same radio frequency. If the pager receiver has its own address signal in the received selective call signal, it sounds and decodes the message signal to display the contents.
In addition, intermittent reception is performed to reduce the power consumption of the receiver. In a pager communication system, a high intermittent reception ratio is realized, and the power consumption is extremely low.
However, with the rapid spread of cellular communication systems, the number of pager communication system users has dropped sharply in recent years, and the infrastructure has not been used effectively.
In the pager communication system, since the pager receiver has no transmission mechanism, the user needs to perform location registration. When the user moves from one area to another, he calls the registered representative number using a telephone, and inputs his / her own calling number and the number of the area to be moved. Thereby, the area information of the transfer destination is stored in the central office.
Here, a basic signaling function of a mobile phone (portable communication terminal) in the cellular communication system will be described with reference to an operation state transition diagram of FIG.
When the power of the portable communication terminal is turned on in 151, first, a position registration 152 is performed. Here, the mobile communication terminal is registered on the network side so that a call can be made from the network side for an incoming call regardless of where the mobile communication terminal is located. When the position (area) information broadcast via the broadcast channel changes, the mobile communication terminal performs position registration.
After the location registration 152, the mobile communication terminal shifts to the standby state 153. In the cellular communication system, by providing a paging channel (PCH: paging channel), the portable communication terminal performs intermittent reception in this standby state 153 in synchronization with the paging channel to which each belongs. Since the power of the wireless unit is turned off during the period when the paging channel is not received, power consumption can be reduced.
When a call is made by operating a start button or the like, the state shifts to a calling state 154. Here, a call signal is transmitted to the base station, a communication channel is allocated, and the state shifts to the communication state 156 to perform communication. When an incoming call signal is received via the paging channel, the mobile station enters the incoming call state 155, responds to the call, shifts to the designated communication channel, and enters the communication state 156. In addition, for example, when the user moves across cells during a call, channel switching 157 is performed. Then, when the call ends, disconnection 158 is performed, and the process returns to the standby state 153.
In recent years, users of portable terminals such as PDCs and cellular mobile communication terminals have been rapidly increasing. One family may have a plurality of mobile communication terminals. For example, members of a family may each have their own mobile communication terminals. Even in such a case, a contract must be made with a communication carrier for each mobile communication terminal, and a basic fee must be paid every month. Some members of the family use the mobile communication terminal frequently, while others use it infrequently. Therefore, it is economically problematic to pay a basic fee to all portable communication terminals.
SUMMARY OF THE INVENTION It is an object of the present invention to provide a wireless communication control station apparatus and a wireless communication apparatus which can reduce the cost burden of a basic charge portion of a user who does not frequently use and can effectively use a pager communication system.
Disclosure of the invention
According to the present invention, the radio communication control station device is a storage unit that stores the cellular telephone numbers of the cellular radios of the plurality of grouped radio communication devices together with the pager numbers of the corresponding pager receivers,
Pager calling means for calling a corresponding pager receiver for an incoming call to a cellular telephone number stored in the storage means;
Cellular calling means for calling a cellular radio of said cellular telephone number after a call by said pager calling means;
Is provided.
The storage unit allocates and stores the same cellular telephone number and the same pager number to the wireless communication devices in one group.
The storage unit assigns and stores different cellular telephone numbers and the same pager number to wireless communication devices in one group.
The storage unit assigns and stores the same cellular telephone number and different pager numbers to the wireless communication devices in one group.
The storage unit assigns and stores different cellular telephone numbers and different pager numbers to wireless communication devices in one group.
According to the present invention, when an outgoing call or an incoming call is made to the cellular radios grouped and stored in the storage unit, the position information of other cellular radios in the group to which the cellular radio belongs belongs. When the mobile phone has not been registered, the mobile phone further includes a location registration unit that registers location information of the cellular radio device that has made the call or the call.
The location registration unit deletes the registration of the location information when the communication of the cellular wireless device ends.
The pager calling means, when the location information is registered by the location registration means, when there is a call or an incoming call to another cellular radio in the same group, the location information is registered. Notify the cellular radio to that effect.
The location information registration unit holds the registration of the location information for one specific cellular radio device (hereinafter, referred to as a “priority terminal”) in the group until the power is turned off even after the communication is completed. For other cellular radios (hereinafter referred to as "non-priority terminals"), the registration of the location information is deleted when the communication is completed.
When there is a call or an incoming call to the non-priority terminal, the pager calling means notifies the priority terminal of the call or the incoming call.
According to the present invention, there is provided a plurality of wireless communication devices equipped with a cellular radio and a pager receiver, wherein each of the cellular radios has the same cellular telephone number, or the pager receiver has the same pager number. Having.
BEST MODE FOR CARRYING OUT THE INVENTION
As shown in FIG. 1, a wireless communication device (portable communication terminal) 1 of the present invention includes a receiver for a pager communication system (pager receiver) 2, a wireless device for a cellular communication system (cellular wireless device) 3, and The control unit 4 controls the wireless communication apparatus 1 as a whole and controls the power on / off of the pager receiver 2 and the cellular wireless device 3. The cellular radio 3 is configured to be turned on in response to a signal transmitted via the pager communication system.
FIG. 2 is a diagram showing a schematic configuration of the whole wireless communication system including the wireless communication control station device of the present invention. In FIG. 2, reference numeral 1 denotes a wireless communication device (portable communication terminal) of the present invention that incorporates the above-described pager receiver 2 and cellular wireless device 3.
MSCk, MSCk + 1, and MSCk + 2 are control stations. These control stations include pager central stations 11k, 11k + 1, and 11k + 2 having a central station function of a pager communication system (paging), and a cellular station having a control station function in a cellular communication system. Communication system control stations 12k, 12k + 1, and 12k + 2 are provided, respectively. The control stations MSCk, MSCk + 1, MSCk + 2 correspond to the pager communication system areas Ak, Ak + 1, Ak + 2, respectively, and the control stations MSCk, MSCk + 1, MSCk + 2 are connected to the public network.
The pager base stations 13k, 13k + 1, 13k + 2 are connected to the pager central stations 11k, 11k + 1, 11k + 2, respectively. These pager base stations 13k, 13k + 1, 13k + 2 correspond to the pager communication system areas Ak, Ak + 1, Ak + 2, respectively. I have. A plurality of cellular base stations BS are provided in each pager communication system area Ak, Ak + 1, Ak + 2, and each cellular communication system control station unit 12k, 12k + 1, 12k + 2 is provided with a plurality of cellular stations in the pager communication system area Ak, Ak + 1, Ak + 2, respectively. It is connected to a base station BS.
The control stations MSCk, MSCk + 1, and MSCk + 2 are provided with a VLR (Visitor Location Register) for registering the position of the mobile communication terminal 1 and an HLR (Home Location Register) for registering user charging information and the like. VLRs and HLRs are interconnected and share information.
FIG. 3 shows a plurality of cellular base stations BS (BS1, BS2, BS3), a pager base station 13k and a plurality of portable communication terminal groups G1, G2, G3, G4, G5 in one pager communication system area Ak. According to this example, a plurality of portable communication terminals 1 are grouped in this way. One telephone line and one pager communication line are allocated to one group. Therefore, the cellular radios 3 of the plurality of mobile communication terminals 1 included in each group use the same telephone line. The pager receivers 2 of the plurality of mobile communication terminals 1 included in each group use the same pager number.
When any one of the mobile communication terminals 1 in one group is powered on, the control station MSCk registers the position information of the mobile communication terminal in the VLR. When another mobile communication terminal 1 in the same group attempts to start communication, the location registration is rejected, and the display unit of the mobile communication terminal displays the fact.
An example of a database registered in the HLR will be described with reference to FIGS. FIG. 4 shows a first example of information of a mobile communication terminal registered in the HLR. In this example, all the mobile communication terminals 1 in the group have the same cellular telephone number and pager number, and different IDs are assigned to the respective mobile communication terminals 1. FIG. 5 shows a second example of information of the mobile communication terminal 1 registered in the HLR. In this example, the cellular telephone numbers of all the mobile communication terminals 1 in the group are different from each other, but the pager numbers are the same, and the mobile communication terminals 1 are given different IDs. FIG. 6 shows a third example of the information of the mobile communication terminal 1 registered in the HLR. In this example, the cellular telephone numbers of all the mobile communication terminals 1 in the group are the same, but the pager numbers are different from each other, and the mobile communication terminals 1 are given different IDs. FIG. 6 shows a fourth example of the information of the mobile communication terminal 1 registered in the HLR. In this example, the cellular telephone numbers and pager numbers of all the mobile communication terminals 1 in the group are different from each other, and different IDs are assigned to the respective mobile communication terminals 1.
Referring to FIG. 8, connection of the portable communication terminal of the present example will be described for the first example of FIG. 4 and the third example of FIG. When a call is made from the calling mobile communication terminal to the cellular radio 3 of the mobile communication terminal 1 of the present embodiment shown in FIG. 4 or FIG. 6, the control stations MSCk, MSCk + 1, and MSCk + 2 call the HLR to the called party. It is inquired whether or not the cellular telephone number is registered as portable communication terminal information grouped as shown in FIG. 4 or FIG. If the cellular telephone number of the called party is not registered as a group in the HLR, it is determined that the portable communication terminal of the called party is a normal cellular portable communication terminal and is processed.
When the called party's cellular telephone numbers are grouped and registered in the HLR, the control stations MSCk, MSCk + 1, and MSCk + 2 request the calling party for the ID of the called party's portable communication terminal 1. In the example of FIG. 4 or FIG. 6, since the cellular telephone numbers in the group are all the same, the control stations MSCk, MSCk + 1, and MSCk + 2 cannot request one cellular radio 3 to connect. Therefore, it requests the caller for the ID of the called party, thereby requesting the mobile communication terminal 1 to connect.
The control stations MSCk, MSCk + 1, and MSCk + 2 connect in advance to the pager receiver 2 of the portable communication terminal 1 of the called party via the pager communication system. In the example of FIG. 4, since all pager numbers in the group are the same, connection is made to the pager receiver 2 of the called party based on the ID received from the calling party. The connected mobile communication terminal 1 turns on the power of the cellular radio 3. In the example of FIG. 6, since the pager numbers in the group are different, the control stations MSCk, MSCk + 1, and MSCk + 2 specify the pager number based on the ID received from the caller, and the pager receiver of the specified mobile communication terminal 1 2, the portable communication terminal 1 turns on the power of the cellular radio 3. Thereafter, in both cases of FIGS. 4 and 6, the control stations MSCk, MSCk + 1, and MSCk + 2 connect to the cellular wireless device 3 of one portable communication terminal 1 based on the ID of the called party received from the calling party. I do.
With reference to FIG. 9, connection of the mobile communication terminal of the present example will be described for the second example of FIG. 5 and the fourth example of FIG. When a call is made from the calling mobile communication terminal to the cellular radio 3 of the mobile communication terminal 1 of the present embodiment shown in FIG. 5 or FIG. 7, the control stations MSCk, MSCk + 1, and MSCk + 2 call the HLR to the called party. Inquires whether the cellular discourse number is registered as portable communication terminal information grouped as shown in FIG. 5 or FIG. If the cellular telephone number of the called party is not registered as a group in the HLR, it is determined that the portable communication terminal of the called party is a normal cellular portable communication terminal and is processed.
In the example of FIG. 5, when the cellular telephone numbers of the callees are grouped and registered in the HLR, all the cellular telephone numbers in the group are different, so that the control stations MSCk, MSCk + 1, and MSCk + 2 are set as the cellular telephone numbers. An ID is generated based on the ID. In the example of FIG. 7, since the cellular telephone numbers and pager numbers in the group are all different, the control stations MSCk, MSCk + 1, and MSCk + 2 can individually identify the mobile communication terminals 1 without using IDs.
The control stations MSCk, MSCk + 1, and MSCk + 2 connect in advance to the pager receiver 2 of the portable communication terminal 1 of the called party via the pager communication system. In the example of FIG. 5, since all the pager numbers in the group are the same, connection is made to the called pager receiver 2 based on the ID corresponding to the cellular telephone number. The connected mobile communication terminal 1 turns on the power of the cellular radio 3. In the example of FIG. 7, since the cellular telephone numbers and pager numbers in the group are all different, the control stations MSCk, MSCk + 1, and MSCk + 2 specify the pager number based on the cellular telephone number, and receive the pager of the specified portable communication terminal 1. The portable communication terminal 1 is connected to the device 2 and turns on the power of the cellular radio device 3. Thereafter, in both cases of FIGS. 5 and 7, the control stations MSCk, MSCk + 1, and MSCk + 2 connect to the cellular radio 3 of one portable communication terminal 1 based on the cellular telephone number.
The connection of the cellular radio 3 of the called party's radio communication device (portable communication terminal) 1 will be described below. In this example, by using the cellular communication system and the pager communication system together, it is possible to effectively utilize the pager communication system in which the number of users has been drastically reduced.
As shown in FIG. 10, when the operation of the wireless communication device 1 according to the present invention is started, first, after the power of the cellular wireless device 3 is turned on (61), it is determined whether or not the location registration of the cellular communication system is possible. Is determined (62). If another wireless communication device 1 in the same group has already established communication, new location registration is impossible, and in that case, a message indicating that location registration is impossible is displayed on the display unit 56 of the wireless communication device 1. (71), and ends the communication (72).
If the location registration is possible, the location registration is performed (63), and it is determined whether there is a call of the cellular radio device via the pager communication system (64). Immediately after the power is turned on, the determination result is NO.
Next, it is determined whether the current position is within the service area of the pager communication system (65). This determination is made by referring to a correspondence table between the area of the pager communication system and the cells of the cellular communication system stored in the ROM or the EEPROM.
If the result of this determination is that it is not within the service area of the pager communication system, a message indicating that location registration is not possible is displayed and displayed on the display unit 56 (80), and the power is turned off (81).
After the end of the communication (72), the process returns to the determination (65) of whether or not the communication is within the service area of the pager communication system.
On the other hand, if the current position is within the service area of the pager communication system, area registration is performed for the pager communication system (66). This area registration is performed via the cellular radio system 3 via the cellular communication system. That is, the control unit 4 supplies an area registration signal for the pager central station 11 k to the cellular radio 3, and transmits the signal via the cellular radio 3. The area registration signal received by the cellular base station and sent to the cellular communication system control station 12k is notified from the cellular communication system control station 12k to the pager central office 11k. In this way, the area registration of the pager communication system is automatically performed via the cellular communication system.
In the above, the area registration signal is sent from the mobile communication terminal 1 to the central station of the pager communication system to perform the area registration. However, the control station MSCk stores the area of the pager communication system. The area may be automatically registered in the control station MSCk using a correspondence table indicating the correspondence with the cells of the cellular communication system. That is, when the location registration (63) of the cellular communication system is performed, the location registration (63) is performed with reference to the correspondence table between the area and the cell and the correspondence table of the telephone number, pager number and ID. The pager number may be automatically registered in the area corresponding to the cell.
Next, the power of the pager receiver is turned on (66), and the power of the cellular radio is cut off (68). Then, the pager communication system enters a standby state (69).
In the standby state (69), when a call is made via the pager communication system, the type of the call (the type of message) is determined (70), and when the call is a normal paging service, a normal paging service is called. The paging service is received (79), and after the reception is completed (78), the state shifts to the standby state (69) of the pager communication system. On the other hand, if it is a call to the cellular radio (call request to the cellular radio, a message instructing to power on the cellular radio 3), the cellular radio 3 is powered on (61), If position registration is possible, position registration (63) is performed. If the call is to the cellular radio (64), the process goes to standby (73) of the cellular communication system, receives the paging channel, receives a paging signal for itself (75), and responds to the paging signal (75). Is transmitted, communication is performed on the designated communication channel (76). Then, channel switching (77) is performed as necessary, and after the communication is completed (72), the process returns to the determination (65) as to whether or not it is within the service area of the pager communication system.
In FIG. 10, when the portable communication terminal is not present in the service area in (65), the communication is terminated (81) after the message (80). However, as shown in FIG. Later, it may wait for the reception (81B) while intermittently receiving the position information signal from the pager base station (13k or the like). When the position information data is received, the process returns to (66), and the same processing as in FIG. 10 is performed.
As shown in FIG. 12, when there is an incoming call to the cellular radio (91), the control station MSCk determines whether or not this cellular radio is registered in the group (FIGS. 4 to 7). A determination is made (92). As described above, the wireless communication device 1 of the present invention is configured to automatically register an area in a service area of a pager communication system via a cellular communication system when the wireless communication apparatus 1 is located in the service area of the pager communication system. I have. Therefore, the control station MSCk refers to the correspondence table between the pager number and the telephone number, finds out the pager number corresponding to the telephone number of the incoming call, and the pager receiver in the pager central office 11k uses the pager communication. It is determined whether the area is registered in the system. On the other hand, when the pager receiver having the number corresponding to the called telephone number is not registered in the group, the process is performed in the same manner as the incoming call in the ordinary cellular communication system (93).
If the group has been registered, it is determined whether or not the location registration of the telephone number in the VLR is possible (94). As described with reference to FIG. 3, when another mobile communication terminal in the same group has already been registered, the position registration cannot be performed. If the location cannot be registered, a message indicating that the location cannot be registered is displayed on the caller's communication device (95). When the location registration is possible, in the examples of FIGS. 4 and 6, there are a plurality of portable communication terminals for the same telephone number, and it is necessary to specify them by ID. Is displayed (96). In response to this, an ID is input and when the control station MSCk receives the ID (97), an incoming call signal for the cellular radio is transmitted to a signal for the pager communication system (the address signal of the corresponding receiver and the cellular radio). 3) (98), and a call is made via the pager communication system. That is, the pager central office 11k provides information indicating that there is an incoming call to the cellular radio to the pager receiver corresponding to the cellular radio that has received the call (or the power supply of the cellular radio 3). A message for instructing insertion is transmitted via the paging base station 13 (99). As a result, the power of the cellular radio 3 in the portable communication terminal 1 is turned on, the cellular radio 3 performs an initial cell search and location registration, and starts receiving a paging channel (100). In the examples of FIGS. 5 and 7, since the telephone numbers of the mobile communication terminals are different from each other, the ID can be generated from the database. Therefore, steps (96) and (97) are unnecessary.
Next, the cellular communication system control station section 12k calls the cellular radio device also via the paging channel of the cellular communication system (101).
As a result, the cellular radio 3 can receive the paging channel, receive the incoming call signal for the local station, and perform communication.
Thereafter, the end of the communication is monitored (102), and it is determined whether the position registration should be deleted at the end of the communication (103). Once the location registration of the mobile communication terminal whose location has been registered is kept as it is, the location registration of other mobile communication terminals in the same group cannot be performed thereafter, so if an attempt is made to increase the use frequency of all the mobile communication terminals in the group, the communication ends. Preferably, the location registration is deleted immediately afterwards. However, if the location registration is held, there is an advantage that the connection processing is quickly performed when the same portable communication terminal is used in cascade. In addition, the location registration is held, and when a call or an incoming call is made to another mobile communication terminal, the location registration is notified to the location-registered mobile communication terminal via the pager communication system, and a power-off request is made. It is also possible to obtain.
Here, whether or not to delete the location registration is set by the user or the communication service company, and when the location registration should be deleted, the process of the location registration deletion is performed (104).
In addition, one priority mobile communication terminal (hereinafter referred to as a priority terminal) is defined for the mobile communication terminals in one group, and the location registration of the mobile communication terminal may be maintained unless the power is turned off. . For example, in one family, if the mobile communication terminal of the mother is set as the priority terminal, the mother can control the use of the mobile communication terminal of another family. The mother only needs to turn off the priority terminal when another family member permits the use of the portable terminal.
Further, when the location registration of such a priority mobile phone is performed, a call or an incoming call of another mobile communication terminal is notified to the priority terminal via a pager communication system, and permission of the priority terminal (priority terminal priority) is notified. (Power-off).
The operation of the control station shown in FIG. 12 merely turns on the power of the cellular radio 3 when calling the cellular radio 3 via the pager communication system. Next, an embodiment will be described in which paging information necessary for the cellular radio 3 is transmitted via the pager communication system in addition to the above-mentioned message.
FIG. 13 is a flowchart showing the flow of the operation of the control unit according to another embodiment.
As shown in FIG. 13, when there is an incoming call to the cellular wireless device 3 (111), the control station MSCk determines whether or not the cellular wireless device 3 is registered in a group (112). If not, processing is performed in the same manner as in the case of an incoming call in a normal cellular communication system (113).
If the telephone number has been registered as a group, it is determined whether or not the telephone number can be registered in the VLR (114). As in FIG. 12, when another mobile communication terminal in the same group has already been registered, location registration is impossible. If the location cannot be registered, a message indicating that the location cannot be registered is displayed on the communication device of the caller (115). When the location registration is possible, in the examples of FIGS. 4 and 6, there are a plurality of portable communication terminals for the same telephone number, and it is necessary to specify them by ID. Is displayed (116). In response to this, the ID is input and when the control station MSCk receives it (117), it calls the cellular radio 3 via the pager communication system (118, 119). As a result, the cellular radio 3 in the mobile communication terminal 1 is turned on, and the cellular radio 3 performs an initial cell search and location registration, and starts receiving a paging channel (120). In the examples of FIGS. 5 and 7, since the telephone numbers of the mobile communication terminals are different from each other, the ID can be generated from the database. Therefore, steps (116) and (117) are unnecessary.
Up to this point, the operation is the same as that of the embodiment shown in FIG. 12, but in this embodiment, a message instructing to turn on the cellular radio 3 is transmitted to call the cellular radio 3 After that (119), the paging information necessary for the cellular radio 3 is transmitted as a message of the pager communication system (121). This paging information is sent from the pager receiver 2 to the control unit 4. Therefore, it is not necessary for the cellular radio 3 to receive the paging channel. Further, by referring to the correspondence table between the area of the pager communication system and the cell of the cellular communication system, the initial cell search in the cellular radio 3 can be performed. The range can be narrowed, and high-speed cell search can be performed.
After transmitting the necessary paging information to the cellular radio 3 via the cellular communication system in the 121, the cellular communication system control station 12k waits for a response signal from the cellular radio 3 and receives it (122). Thereafter, the communication channel is shifted to the communication channel to perform communication of the cellular communication system.
Thereafter, the end of the communication is monitored (123), and it is determined whether the position registration should be deleted at the end of the communication (124). Once the location registration of the mobile communication terminal whose location has been registered is kept as it is, the location registration of other mobile communication terminals in the same group cannot be performed thereafter, so if an attempt is made to increase the use frequency of all the mobile communication terminals in the group, the communication ends. Preferably, the location registration is deleted immediately afterwards. However, if the location registration is held, there is an advantage that the connection processing is quickly performed when the same portable communication terminal is used continuously.
In addition, the location registration is held, and when a call or an incoming call is made to another mobile communication terminal, the location registration is notified to the location-registered mobile communication terminal via the pager communication system, and a power-off request is made. It is also possible to obtain.
Here, whether or not to delete the location registration is set by the user or the communication service company, and when it is to be deleted, the process of deleting the location registration is performed (125).
As in FIG. 12, one priority mobile communication terminal (hereinafter referred to as a priority terminal) is defined for the mobile communication terminals in one group, and the location registration of the mobile communication terminal is performed unless the power is turned off. When the location registration of the priority mobile phone is performed, the calling or the incoming call of another mobile communication terminal is notified to the priority terminal via the pager communication system, and the priority terminal is permitted (priority priority). (Power-off of the terminal).
As described above, in the wireless communication system of the present invention, after the power is turned on, when the wireless communication system is located within the service area of the pager communication system, the area registration is performed for the pager communication system, and the power supply of the cellular wireless device is shut off. By operating only the pager receiver, the standby operation of the cellular communication system is substituted for the standby operation of the pager communication system. Therefore, the power consumption of the wireless communication device 1 during standby can be significantly reduced.
In addition, the frequency of location registration in the cellular communication system can be reduced, the cost per mobile communication terminal can be reduced, and system efficiency can be improved. Further, the pager communication system can be effectively used.
Further, the area registration of the pager communication system can be automatically performed via the cellular communication system, so that the user does not need to register the area in the pager communication system.
In the above description, a message instructing to turn on the power to the cellular radio 3 is sent through the pager communication system to notify that there is an incoming call to the cellular radio 3, but the present invention is not limited to this. Instead, a command or a predetermined code for notifying that there is an incoming call may be determined, and this may be used to notify that there is an incoming call to the cellular radio 3.
Also, in the above, the power of the pager receiver is turned on after the area registration with the pager communication system (66, 67 in FIGS. 10 and 11), and thereafter, the power of the pager receiver is always turned on. However, it is also possible to operate only one of them at a time to avoid noise.
Further, as described above, when there is an incoming call to the cellular radio and it is desired to call the pager via the pager communication system, other cellular radios in the same group are in use or there are no available channels. Therefore, when the cellular radio 3 cannot communicate, it is possible to display that there is an incoming call on the display unit.
By the way, in the above-mentioned wireless communication system, processing on the control station MSCk side was necessary. Therefore, another embodiment of the present invention will be described in which the processing in the control station MSCk is unnecessary and can be performed by the terminal operator alone. In this case, the control station MSCk provided with the pager central station 11k and the cellular communication system control station 12k as described above is not required, and can be applied to existing pager communication systems and cellular communication systems. However, the communication device (telephone or mobile phone) has a telephone number (cellular radio number), information indicating whether the cellular radio is a radio communication device of the present invention equipped with a pager receiver, and information on the information. A telephone book information recording the corresponding pager number and ID, and a function of transmitting to the pager a message instructing the wireless communication device 1 of the present invention to turn on the power of the cellular wireless device 3 I do.
FIG. 14 is a diagram showing an example of the format of one record of the telephone directory information. As shown in FIG. 14, for each name, the number (telephone number) of the cellular radio and whether or not a pager receiver is mounted are shown. , A pager number, and an ID.
Further, the operation of the wireless communication device 1 in this embodiment may be substantially the same as the operation of the state transition diagrams shown in FIGS. However, area registration for the pager communication system by the control station MSCk is not performed.
FIG. 15 is an operation flowchart at the time of calling to the cellular radio in the communication device of the present invention thus configured.
First, a cellular telephone number and ID are selected or directly input from the telephone directory information stored in the communication device (131), and a call is transmitted to the cellular radio (132). As a result, when a message indicating that communication is not possible is received, such as when the mobile communication terminal 1 is out of service area, power is not turned on, or another mobile communication terminal 1 in the same group is being used, the transmission is cut off (134). On the other hand, when such a message is not received, a call is made in the same manner as in a normal case (139). In the examples of FIGS. 5 and 7, since the telephone numbers of the mobile communication terminals are different from each other, the ID can be generated from the database. Therefore, the input of the ID in the step (131) is unnecessary.
After disconnecting the cellular wireless device at 134, it is determined whether the cellular telephone number is the telephone number of the wireless communication device 1 of the present invention equipped with a pager receiver by referring to the telephone directory information. (135). As a result, if the telephone number is for a mobile communication terminal not equipped with a pager receiver, the process is terminated (140).
On the other hand, when the corresponding pager number is stored, the above-mentioned message for instructing to turn on the cellular radio 3 is transmitted to the pager telephone number (136). Thus, as described with reference to FIGS. 10 and 11, the power of the cellular radio 3 is turned on, and the cellular radio 3 enters a standby state.
The communication device waits for a predetermined period of time (137) corresponding to the time until the cellular wireless device 3 of the other party is turned on in 136 and waits for the cellular wireless device 3 to enter a standby state, and then returns to that state. A call is made to the cellular radio 3 (138). Thereby, even if the power of the cellular wireless device 3 in the wireless communication device 1 of the present invention is turned off, a call can be made. Note that when communication is impossible, such as when the wireless communication device 1 is located outside the service area, the process is terminated when 132 to 138 in FIG. 15 are repeated a predetermined number of times.
As described above, when the communication device of the present invention is used, it is possible to reduce the power consumption of the portable communication terminal during standby without providing a special control station as in the wireless communication system.
It should be noted that the telephone directory information is not limited to the information illustrated in FIG. 14, and it is sufficient that at least the pager receiver number and ID corresponding to the number of the cellular radio are recorded.
Further, in the wireless communication system according to the present invention, the usage frequency of each mobile communication terminal is managed, and a message or the like is provided to the user so that the usage frequency of each mobile communication terminal in each group becomes uniform, or the usage is appropriately performed Restrictions can further optimize communication services. Also, a service may be provided that prompts a frequently used group or a mobile communication terminal to obtain an independent telephone number.
The configuration of the wireless communication device 1 according to the present invention will be described in detail with reference to FIG. The signal from the pager base station received by the antenna 21 of the pager receiver 2 is amplified by the high-frequency amplifier 22 and then split into two and input to the frequency converters 23 and 24. To each of the frequency converters 23 and 24, a local transmission signal having a frequency equal to the carrier signal frequency from an oscillator 25 having a phase difference of 90 degrees is supplied via a phase shifter 26. Are output to the demodulator 31 via filters 27 and 28 and limiters 29 and 30, respectively, and demodulated. This demodulated signal is supplied to the reception signal processing circuit 32. When the address signal of the own station is detected, the message signal is supplied to the control unit 4, and when the address signal is a normal reception message in the pager communication system, It will be displayed on the display unit 56. If the message instructs to turn on the power of the cellular radio 3, the power of the cellular radio 3 is turned on by the cellular radio power control unit 58 of the control unit 4. Here, the pager receiver 2 is of the direct conversion type as described above, but may be of the superheterodyne type.
In the cellular radio 3, the signal from the cellular base station received by the antenna 33 is input to the receiving unit 35 via the antenna duplexer 34. Then, after being subjected to high-frequency amplification by the high-frequency amplifier 36, it is input to the reception mixer 37. The frequency is converted by the local mixer signal from the frequency synthesizer 40 in the reception mixer 37, and is demodulated by the reception mixer 39 via the intermediate frequency amplifier 38. The received signal demodulated for the own station is subjected to signal processing in the received signal processing circuit 42 of the baseband signal processing unit 41 and output to the receiver 43 or to the display unit 56 via the control unit 4.
On the other hand, a voice signal from the transmitter 44 or input data from the controller 4 is subjected to signal processing in the transmission signal processing circuit 45 and then input to the transmitter 46. That is, the output signal of the transmission signal processing circuit 45 is subjected to a predetermined modulation processing by the modulator 47, then a signal is supplied from the frequency synthesizer 40, converted into a high-frequency signal by the transmission mixer 48, and transmitted by the transmission power amplifier 49. , And transmitted from the antenna 33 to the cellular base station via the antenna duplexer 34.
In the control unit 4, 50 is a main central processing unit (main CPU) for controlling the entire wireless communication device 1, 51 is a ROM storing a control program and predetermined constants, 52 is a RAM used as a work area, 53, an electrically erasable and writable ROM (EEPROM) such as a flash memory for storing various parameters and tables, 54, an operation unit CPU for outputting data to an input key 55 and a display unit 56, and 57 for receiving the pager A pager receiver power control unit 58 for controlling the power on / off of the apparatus 2, and a cellular radio power control unit 58 for controlling the power on / off of the cellular radio 3, these components and the pager receiver The reception signal processing circuit 32 and the baseband signal processing section 41 of the cellular radio are connected by a bus 59. They are connected to each other.
The control unit 4 controls the transmission / reception sequence operation in the pager receiver 2 and the cellular radio 3, the modulation / demodulation of the transmission / reception signal, the control of the transmission / reception protocol, and the like. A process for displaying a received message of the system, information received by the cellular radio, or various information for the operator on the display unit 56, and displaying various information input from the input key 55 on the display unit 56. Processing of outputting data input from the input key 55 to the baseband signal processing unit 41 of the cellular radio, processing of the pager receiver power control unit 57 and the cellular radio power control unit 58, When a message instructing to turn on the cellular radio 3 is received, Via chromatography radio power control unit 58 controls the processing and the entire other wireless communication apparatus operates to power of the cellular radio 3.
In the ROM 51 or the EEPROM 53, a correspondence table between the area of the pager communication system and each cell (or the location registration area) of the cellular communication system is recorded.
As described above, the wireless communication device 1 of the present invention includes the pager receiver 2, the cellular wireless device 3, and the power supply control units (57, 58) for controlling the turning on / off of the power of the pager receiver 2 and the cellular wireless device 3. The power of the cellular radio 3 can be turned on in response to a message sent via the. Therefore, it is possible to perform the standby operation using only the pager receiver 2 having very low power consumption, and to turn on the power of the cellular wireless device 3 as necessary, thereby greatly reducing the power consumption during standby. It becomes possible.
Note that the mobile communication terminal 1 includes a PDA having a wireless communication function, an embedded phone, and other wireless communication devices having a telephone line, and is not limited to the above configuration.
Industrial potential
ADVANTAGE OF THE INVENTION According to this invention, while the burden of the basic charge part of the user who does not use frequently is reduced, the pager communication system can be effectively utilized.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a wireless communication device (portable communication terminal) of the present invention.
FIG. 2 is a diagram for explaining a communication system including the wireless communication control station device of the present invention.
FIG. 3 is a diagram showing one pager communication system area of the wireless communication system of the present invention.
FIG. 4 is a diagram showing a first example of the HLR database.
FIG. 5 is a diagram showing a first example of the HLR database.
FIG. 6 is a diagram illustrating a first example of the HLR database.
FIG. 7 is a diagram illustrating a first example of an HLR database.
FIG. 8 is an explanatory diagram for explaining the operation of the wireless communication control station device of the present invention.
FIG. 9 is an explanatory diagram for explaining the operation of the wireless communication control station device of the present invention.
FIG. 10 is an operation state transition diagram for explaining the operation of the wireless communication device of the present invention.
FIG. 11 is an operation state transition diagram for explaining a modification of the operation of the wireless communication device of the present invention.
FIG. 12 is a diagram for explaining the operation of the wireless communication control station device of the present invention.
FIG. 13 is a diagram for explaining another example of the operation of the wireless communication control station device of the present invention.
FIG. 14 is a diagram for explaining telephone directory information stored in the wireless communication device (portable communication terminal) of the present invention.
FIG. 15 is a flowchart for explaining the operation of the wireless communication device (portable communication terminal) of the present invention.
FIG. 16 is a block diagram illustrating a configuration example of a wireless communication device (portable communication terminal) of the present invention.
FIG. 17 is an operation state transition diagram for explaining the operation of a conventional portable communication terminal (mobile phone).
Explanation of reference numerals
1 wireless communication device (portable communication terminal), 2 pager receiver, 3 cellular radio, 4 controller, MSCk, MSCk + 1, MSCk + 2 control station, 11k, 11k + 1, 11k + 2 pager central station, 12k, 12k + 1, 12k + 2 cellular control station, 13k, 13k + 1, 13k + 2 Pager base station, BS cellular base station

Claims (11)

A storage unit that stores the cellular telephone numbers of the cellular radios of the plurality of wireless communication devices that are grouped together with the pager numbers of the corresponding pager receivers,
Pager calling means for calling a corresponding pager receiver for an incoming call to a cellular telephone number stored in the storage means;
Cellular calling means for calling a cellular radio of said cellular telephone number after a call by said pager calling means;
A wireless communication control station device comprising: 2. The wireless communication control station device according to claim 1, wherein the storage unit assigns and stores the same cellular telephone number and the same pager number to the wireless communication devices in one group. 2. The wireless communication control station device according to claim 1, wherein the storage unit assigns and stores different cellular telephone numbers and the same pager number to the wireless communication devices in one group. 2. The wireless communication control station device according to claim 1, wherein the storage unit assigns the same cellular telephone number and different pager numbers to the wireless communication devices in one group and stores them. 2. The wireless communication control station device according to claim 1, wherein the storage unit assigns and stores different cellular telephone numbers and different pager numbers to the wireless communication devices in one group. When a call or an incoming call is made to the cellular radios grouped and stored in the storage unit, when the location information of another cellular radio in the group to which the cellular radio belongs is not registered 2. The radio communication control station apparatus according to claim 1, further comprising a location registering means for registering location information of the cellular radio device that has made the call or the call. 7. The wireless communication control station device according to claim 6, wherein the location registration unit deletes the registration of the location information when the communication of the cellular wireless device ends. The pager calling means, when the location information is registered by the location registration means, when there is a call or an incoming call to another cellular radio in the same group, the location information is registered. 7. The radio communication control station apparatus according to claim 6, wherein a notification to that effect is sent to a cellular radio. The location information registration unit holds the registration of the location information for one specific cellular radio device (hereinafter, referred to as a “priority terminal”) in the group until the power is turned off even after the communication is completed. 7. The wireless communication control station device according to claim 6, wherein the registration of the position information is deleted when communication is terminated for another cellular wireless device (hereinafter, referred to as a "non-priority terminal"). 10. The radio communication control station device according to claim 9, wherein the pager calling means notifies the priority terminal of the outgoing or incoming call when the outgoing or incoming call is made to the non-priority terminal. A plurality of wireless communication devices equipped with a cellular radio and a pager receiver, wherein each of said cellular radios has the same cellular telephone number, or wherein said pager receiver has the same pager number. And a plurality of wireless communication devices.

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