JP3491040B2 - Mobile communication network, wireless base station device and mobile station device - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to the plurality of different mobile communication systems a mobile communication network configured by integrating, to free the line base station apparatus and mobile station apparatus that put in the mobile communications network.

[0002]

2. Description of the Related Art In a conventional mobile communication network, each mobile communication system constituting the mobile communication network is operated independently. Therefore, in a mobile station having a communication function with a plurality of mobile communication systems, communication with a plurality of mobile communication systems is performed simultaneously in order to enable incoming calls from all communicable mobile communication systems to the mobile station. I had to keep it.

[0003] First, the operation of a mobile station in a mobile phone or a commercial land mobile communication system that is now widespread after the mobile station is powered on is a digital car telephone system (hereinafter abbreviated as "PDC") (radio wave). Industry Association "Digital Car Phone System" RCRSTD-27F) will be used as an example, and if there is a possibility of selectively calling a specific mobile station, the location registration of the mobile station that needs to be performed in advance is explained. After that, the problems of the prior art will be described.

First, the operation of the mobile communication system after the mobile station is powered on will be described. In order to establish control with the base station after powering on the PDC mobile station, first, the broadcast channel (hereinafter referred to as “BC
Abbreviated as "CH". ) To explore. The BCCH candidate channel that the mobile station searches first when the power is turned on is called a perch channel, and multiple channels that are candidates for this perch channel are stored in the mobile station device in advance at the stage of manufacturing the mobile station. Remembered However, not all of the channels stored in the mobile station device are perch channels, and some base stations may be used as communication channels, for example. On the other hand, the perch channel needs to be a common control channel including the BCCH, because the base station needs to be able to broadcast the control information to the mobile station. On the contrary, this means that a common control channel including BCCH can exist in addition to the perch channel. The mobile station is switched to the common control channel other than the perch channel by the control of the base station after the mobile station first establishes a connection with the base station by capturing the perch channel. In this way, the channel that is a candidate for the perch channel is the common control channel including the BCCH, and is usually the channel that is stored in advance in the mobile station apparatus at the stage of manufacturing the mobile station.

When the power is turned on, the mobile station captures the perch channels in the zone in which it is located. Therefore, the mobile station sequentially receives candidate perch channels stored in the mobile station and stores the magnitude of the carrier power. , Make a table in order of size. Synchronize to the corresponding channels in order from the carrier with the largest power, confirm that they are common control channels, and
After receiving the message and confirming that it can be received normally, the standby state is entered.

The number of this perch channel, the structure of BCCH, and the structure and name of the common control channel are the second generation cordless telephone system (hereinafter abbreviated as "PHS") currently being serviced in Japan. Industry Association "Second Generation Cordless Telephone System" RCR STD-28 Version 3), PD
C, CDMA mobile phone system (Radio Industry Association "CDMA mobile phone system" ARIB STD-T53 Version 1) is different. However, the operation of first searching for a specific channel stored in advance in the mobile station and finding the BCCH is common to all methods.

By the way, in a mobile communication system in which a base station can call a mobile station, an operation called location registration is required. This location registration means that all mobile stations belonging to the system notify the control station in advance of their current location to the control station via the base station, so that the control station has a home memory (hereinafter abbreviated as "HM") in the control station. The operation of registering the position of the mobile station in (1). If the control station needs to call only a specific mobile station,
The control station searches the contents of HM to find out which area the mobile station currently calls is in, and instructs the base station in that area to send a signal to call the mobile station. in this way,
By performing location registration, the mobile station can call the mobile station only by using the base station in the area where the location registration was performed, so it is known by HM search that there is no target mobile station to call. In the area, radio waves will not be unnecessarily transmitted for calling. As a result, it is possible to reduce the traffic on the control channel related to the call of the mobile station.

The advantage of performing location registration in advance is that
It is also clear from the following example. For example, assume that the service area of the system is all over Japan and the mobile communication system does not have a location registration function. In this case, in order to call a specific mobile station, the control station needs to perform an operation of calling the specific mobile station from all base stations nationwide. If the number of mobile stations that may receive a call from the control station is large, or if the average time interval between calls is short, the control channel for calling the mobile station is congested, which causes problems from the viewpoint of effective use of frequency. Occurs. To avoid this problem at all, when the manufactured mobile station radio is first registered in the mobile communication system,
The area in which the mobile station is most likely to be registered is registered in advance with the control station, and when a call is required, the area is called first from that area, and if it is not in the area registered first, A method of sequentially calling mobile stations in an area geographically adjacent to the area originally registered may be considered. However, even with this method, the mobile station
A large distance from the initially registered area exposes the problems of systems that do not have location registration as described above.

As described above, the location registration is a very effective function for efficiently calling the mobile station, but even if there is no call from the mobile station or no call to the mobile station, the location registration is performed. When the station leaves the area where the location is conventionally registered and moves to another area, it is necessary to re-register the location. Therefore, even if the user of the mobile station does not intentionally perform transmission / reception, the mobile station transmits / receives radio waves for exchanging control signals for position registration. Therefore, there is a problem that the traffic of the control channel increases. Further, in order to perform location registration, it is necessary to transmit a control signal from the mobile station to the base station. That is, it should be noted that the location registration cannot be realized in the mobile station only by receiving the control signal from the base station.

Next, the form of a mobile station that performs mobile communication will be described. Due to the recent advances in electronic technology, mobile station radios are becoming smaller and lighter. Type terminals have been used for mobile communication. In most cases, mobile stations in the form of such portable wireless terminals use storage batteries as their power sources. It is necessary to extend the operable time of the mobile station until the next charging by reducing the discharge amount as much as possible. For this reason, the transmission of radio waves from the mobile station is kept to the minimum necessary, and the receiver of the mobile station does not always receive the radio waves from the base station, but intermittently receives the radio waves from the base station at the minimum required period. Most current mobile communication systems have been devised to reduce the amount of discharge.

Now, a mobile station capable of communication using a plurality of mobile communication systems directly related to the present invention will be described. As an example of a plurality of mobile communication systems, assume that a mobile station having both a PDC communication function and a PHS communication function is realized. A mobile station that has both communication functions checks whether or not it can receive radio waves from the base station of each system in order to check whether it is possible to communicate with the base station of each system where the mobile station exists. It is necessary to confirm. For this reason, in systems that have both PHS and PDC terminal functions up to now, the total number of receptions as a mobile station that can communicate using both systems is the sum of the number of PHS system receptions and the number of PDC system receptions. Becomes
Therefore, the discharge amount of the terminal storage battery becomes larger than that of a single mobile station of PHS or PDC. Therefore, if the mobile station is a mobile terminal, the portability is impaired.

The same drawbacks as described above also occur in location registration. A mobile station having both the communication function of PDC and the communication function of PHS needs to perform location registration with the control station of each system at the location where the mobile station exists. If the mobile station is not moving, it is not necessary to newly register the location, but if the mobile station leaves the area where the location was previously registered and moves to another area, it is necessary to re-register the location. Occurs. This location registration must be redone for each PDC and PHS. This re-registration operation requires exchange of control signals between the base station and the mobile station, and therefore requires transmission and reception of radio waves from the mobile station. Therefore, there is a problem that the discharge amount of the mobile station storage battery increases and the operable time of the mobile station is shortened.

Further, for example, even when the communication channel of a mobile communication system is being used by many other users and the connection is not established due to congestion, the mobile station needs to receive the BCCH broadcast from the base station. is there. Further, even in this case, if the mobile station leaves the location registration area currently registered in HM, the location registration needs to be performed again.

Further, since transmission and reception can be performed simultaneously for a plurality of systems, different transmitters and receivers are required for each system independently. For this reason, the mobile station radio must be equipped with a plurality of transceivers, which inevitably leads to an increase in size of the mobile station radio. On the other hand, if it is not necessary to transmit and receive at the same time, the mobile station can be simplified by partially sharing the transceiver, and the device can be downsized and the power consumption can be reduced. That is, when the transmission / reception frequency band is greatly different between mobile communication systems, the high frequency stage of the receiver and the output stage of the transmitter are required for each mobile communication system, but can be set independently of the transmission / reception frequency. Signal processing in the intermediate frequency band and the baseband can be shared, and the mobile device can be simplified.

The drawback of the configuration that requires simultaneous transmission / reception for a plurality of mobile communication systems becomes more serious as the number of systems to be realized increases. In the above, as an example, the case where communication is performed using two wireless communication systems of PHS and PDC is mainly considered.
The above problems become more serious in the case of realizing a mobile wireless device compatible with various types of mobile communication systems.

Due to advances in semiconductor technology and communication technology, an environment is being established in which a single mobile station can realize communication using a plurality of communication systems. However, the conventional mobile communication systems are operated independently. That is, control channel reception, location registration, etc. are independent of each other, so when a mobile station attempts to receive a service that spans multiple mobile communication systems, it will It was necessary to individually receive the control channel and register the location. On the other hand, Japanese Patent No. 3044288 "Wireless communication basic service system" integrates incompatible systems such as mobile phones and PHS to enable mutual access of services. For the purpose of providing a service system, "a mobile communication user carries only a wireless communication device for a basic wireless communication service system, and inserts his or her own wireless communication device into a communication terminal at the destination, so that Use as a communication terminal with a number Separate the line connection control function of all current wireless communication systems as a basic wireless communication service and unify the frequency and communication method of the line connection control function.
In order to perform line connection control, a bidirectional low-speed data communication function is necessary, so a wireless communication card that has only that function and that electronically stores a subscriber number or personal number,
A communication device on the user side is configured with a communication terminal for inserting the wireless communication card to realize voice and image communication. The invention is being made.

This method is a SIM card (Subscriber Identify Module: "Mobile Cellular) for personal authentication in GSM.
Telecommunications ", William CY Lee, McGraw-Hi
ll, Inc. second edition 1995, pp. 464, 482), but with a wireless communication function for control.
It has the following drawbacks. 1) Outside the service area of the wireless communication card, services of all existing wireless communication systems cannot be received. For example, 10 types of mobile communication systems are provided as current mobile communication services, and a user who holds a radio device and a wireless communication card for the 10 types of mobile communication systems can provide 10 types of mobile communication services as current mobile communication services. It is assumed that the mobile communication system is within the reach of radio waves. However, these communication resources can be utilized only within the service area of the wireless communication card, and outside the service area, the service of any existing wireless communication system cannot be received. The service area of the wireless communication card becomes the bottleneck of this system. 2) A new wireless communication card is required for control. A card having a wireless communication function, and a wireless base station and a control station for exchanging control signals with the wireless communication card are newly required. The user is in the service area of the wireless communication card,
Moreover, communication is possible only when you are within the service area of the current wireless communication system you want to receive the service. 3) Communication of voice, images, etc. cannot be performed only by the control wireless communication card. 4) Communication cannot be performed only by the wireless device of the current wireless communication system. Always need a wireless communication card. Even a user who uses only a specific current wireless communication system always needs a wireless communication card. 5) Since the line connection control function of all existing wireless communication systems is performed by the wireless communication card for control, the channel for the wireless communication card for control is congested due to the increase in control traffic. Conventionally, the influence of control channel congestion was limited only to the specific current wireless communication system in which the congestion occurred, but in the present invention, if congestion occurs, the current wireless communication system is all unusable without exception. Become.

[0018]

As described above, in the past, in a mobile station radio capable of communicating using a plurality of mobile communication systems, signals from the base station are transmitted to all of the plurality of mobile communication systems. Had to receive at the same time. Also, due to the movement of the mobile station, it is necessary to change the registration position of the mobile station registered in the HM. For that purpose, transmission and reception of signals between the mobile station and the base station are performed individually for each mobile communication system. Had to do. The operation of the mobile station is reduced due to the decrease of the frequency utilization efficiency due to the increase of the control traffic due to the transmission and reception of the signal and the discharge of the mobile station battery due to the increase of the power consumption of the mobile station due to the simultaneous reception of the signals from the multiple mobile communication system base stations There was a problem that the available time was shortened. In addition, the transceiver configuration was complicated.

The present invention has been made in view of the above,
The purpose is to reduce the traffic of the control channel associated with location registration in a mobile station radio that can communicate using a plurality of mobile communication systems, and to reduce the number of times the control channel is received by the mobile station. There is an extension of the operational time and simplification of the transceiver.

[0020]

To achieve SUMMARY OF to the above objects, a mobile communication network of the present invention, there <br/> mobile communication network composed of a plurality of different mobile communication systems, wherein is 1 or more channels for transmitting control signals for informing the predetermined for each mobile mobile stations belonging to it radio base station or <br/> et belonging to the communication system, the <br/> each mobile Each radio base station belonging to the communication system adds information of a perch channel of an arbitrary mobile communication system different from the mobile communication system to the control information by using the predetermined channel. Made to send
And the mobile station uses the predetermined channel
Based on the transmitted information, it becomes possible to determine the channel that waits for the control signal from the radio base station.
And the transmitted perch channel information
Based on the channel that waits for the control signal from the wireless base station.
Control by a radio base station belonging to another mobile communication system
Move to the destination when changing to the channel that sends signals
The location is registered in the home memory of the communication system.
To the home memory of the source mobile communication system.
Notify that the mobile communication system of the destination has been transferred and store it
It is designed to let you .

Also , a digital car telephone system
Wireless base station belonging to, by using the extended information element portion of the broadcast channel in the digital car telephone system,
Perch channel of said different mobile communication system
The information is what is adapted to transmit. This makes it easy to implement the present invention within the existing PDC standard range.

[0022] In addition, the mobile communication system is congested
First, according to the user number or user group number of the mobile station, a radio base station belonging to an uncongested mobile communication system transmits a control signal on a channel on which the mobile station waits for a control signal from the radio base station. it is what is made so that to change the channel. Even more
In addition , according to the service required by the mobile station, a channel on which the mobile station waits for a control signal from the radio base station ,
In which the radio base station belonging to a specific mobile communication system is adapted to change the channel for notifying a control signal. As a result, in response to a particular service request of the user, it is possible to make available to the user any mobile communication system that matches the request.

Furthermore, the mobile station is
Whether the communication quality is impaired from the reception status of the control signal of
When it is determined that the communication quality may be impaired.
, The channel that waits for the control signal from the wireless base station
A radio base station belonging to another mobile communication system transmits a control signal.
Change to the channel to be transmitted, and the signal of the control signal of the change destination
When the quality is inferior to the signal quality of the control signal before change
Does not move to another mobile communication system,
It is designed to stay on the stem .

Furthermore, the wireless base station device of the present invention
Is a mobile communication system in the mobile communication network.
Wireless base station device that belongs to
The mobile communication system to which the user belongs to the channel that broadcasts control information.
As a perch channel for mobile communication systems different from
It has a means for adding and transmitting information related thereto .

[0025] Furthermore, transfer Dokyoku apparatus of the present invention, before
A mobile station apparatus capable of communicating with a mobile communication system belonging to a mobile communication network, the mobile communication apparatus being currently connected using a control channel from a radio base station of the mobile communication system being currently connected. storage means and, perch tea stored in said storage means for storing information of the perch channels of different mobile communication systems with
Means for determining a channel for waiting a control signal from the radio base station of the different mobile communication system based on the information of the channel. Furthermore, at least one of the baseband processing unit and the intermediate frequency processing unit in the transmission unit or the reception unit is commonly provided for the plurality of different mobile communication systems.

According to the present invention as described above, the mobile station does not have to simultaneously receive control signals from all mobile communication systems. Further, it is not necessary to sequentially search for control signals from all mobile communication systems. Further, even if the base station of the communication system in which the mobile station has registered its location is damaged due to a disaster or the like and the communication channel is reduced, if the channel transmitting the control signal is not damaged, the mobile station concerned It is possible to shift to another mobile communication system.

[0027]

BEST MODE FOR CARRYING OUT THE INVENTION A mobile communication network to which the present invention is applied includes one or a plurality of mobile stations, one or a plurality of base stations capable of communicating with the mobile stations without going through a wire, a control device, and a switching device. There is a plurality of mobile communication systems having the mobile communication system, and the mobile communication systems are formed by connecting the mobile communication systems to each other in a wired or wireless manner. An embodiment of the present invention will be described below with reference to the accompanying drawings. The mobile communication network of the present invention, a conceptual diagram illustrating a radio base station apparatus and mobile station apparatus shown in FIG. Note that the mobile communication network of the present invention is configured by integrating a plurality of different arbitrary mobile communication systems, but here, a case where two mobile communication systems are connected will be described as an example.

In the example shown in FIG. 1, a first mobile communication system 1, a second mobile communication system 15, and a mobile station (abbreviated as MS1) 14 belonging to the first mobile communication system 1 are used for the present invention. A mobile communication network is configured. In the first mobile communication system 1, there are usually a plurality of mobile stations belonging to this station, but here, only one station is described as MS1 (14) to simplify the description. Moreover, the mobile station 14 has a function of communicating with both the first mobile communication system 1 and the second mobile communication system 15. As shown, the first mobile communication system 1 is provided with the following components. 2 is a mobile gateway repeater exchange (abbreviated as MGS1) of the first mobile communication system, 3 is a mobile subscriber exchange (abbreviated as MLS1) of the first mobile communication system, and 4 is a first of the first mobile communication system.
Base station (abbreviated as BS1-1), 5 is a second base station (abbreviated as BS1-2) of the first mobile communication system, and 6 is a home memory (abbreviated as HM1) of the first mobile communication system. is there. Further, the second mobile communication system 15 is provided with the following components. 7 is a mobile gateway exchange (abbreviated as MGS2) of the second mobile communication system, 8 is a first mobile subscriber exchange (abbreviated as MLS2-1) of the second mobile communication system, and 9 is a second mobile communication. System second mobile subscriber exchange (ML
S2-2), 10 is a home memory of the second mobile communication system (abbreviated as HM2), 11 is a first base station (abbreviated as BS2-1) of the second mobile communication system, and 12 is a second. Second base station (abbreviated as BS2-2) of the mobile communication system, 13 is a third base station (abbreviated as BS2-3) of the second mobile communication system
Is. The mobile gateway repeater exchange MGS1 (2) of the first mobile communication system 1 and the mobile gateway repeater exchange MGS2 (7) of the second mobile communication system are mutually connected so that information can be exchanged. Has been done. Here, it is assumed that the information regarding the mobile station 14 is stored in the home memory 6 of the first mobile communication system 1. Further, it is assumed that the mobile station 14 receives the broadcast channel from the first mobile communication system 1 from the second base station 5 of the first mobile communication system.

In the present invention, the first mobile communication system 1 is the mobile station 14 belonging to the first mobile communication system 1.
In order to switch the other party to be connected from the first mobile communication system 1 to the second mobile communication system 15, the broadcast channel from the second base station 5 of the first mobile communication system is The first base station 11, the second base station 12, and the third base station 13 belonging to the second mobile communication system 15 are added with information about the perch channel and transmitted. Further, although not shown, for a mobile station belonging to the second mobile communication system, information regarding the perch channel of the first mobile communication system is added to the broadcast channel from the base station of the second mobile communication system. I am sending. That is, in the mobile communication network of the present invention, the information about the control channel of another mobile communication system is added to the broadcast channel from the mobile communication system to which the mobile station currently belongs and transmitted.

Mobile station 1 belonging to the first mobile communication system
4 is the most signal among the perch channels transmitted by the first base station 11, the second base station 12 or the third base station 13 of the second mobile communication system 15 based on the added information. Search for high level signals. For convenience of explanation, it is assumed here that the signal level from the first base station 11 is the highest and the mobile station 14 is in a state of waiting for a signal from the first base station 11. If the standards of the communication system used between the first mobile communication system 1 and the second mobile communication system 15 (for example, PHS or PDC) are different, the stop used by the second mobile communication system 15 is stopped. Not only the information about the tree channel but also the information about the standard (for example, PHS or PDC) of the communication system used by the second mobile communication system 15 in the broadcast channel of the first mobile communication system 1 as in the example described later. I need to inform you. Further, when the mobile station 14 fails to receive the perch channel transmitted by the first base station 11 of the second mobile communication system for some reason, for example, the mobile station 14 makes the first base station of the second mobile communication system. When the mobile station 14 is out of the service area of the base station 11, the mobile station 14 continues to receive the broadcast channel from the second base station 5 of the first mobile communication system, so that the mobile station 14 receives at least one mobile communication. It is possible to continue to receive information on the broadcast channel from the system.

Here, when the second mobile communication system 15 is a system that does not perform authentication or location registration, the mobile station 14 belonging to the first mobile communication system sends a call request to the second mobile communication system. It is possible to perform communication with the first base station 11 of the communication system and immediately use the second mobile communication system 15.

When the second mobile communication system 15 is a system for performing authentication and location registration, the mobile station 14 belonging to the first mobile communication system 1 first sets the second mobile communication system 15 The location registration request to the home memory 10 is sent to the first base station 11 of the second mobile communication system.
This is done by sending a request signal to. The first mobile subscriber exchange 8 of the second mobile communication system 15 is the mobile station 1
4 information via the mobile gateway repeater exchange 7 of the second mobile communication system and the mobile gateway repeater exchange 2 of the first mobile communication system, and the home memory 6 of the first mobile communication system.
Authenticate by contacting. At this time, the mobile station 14 has the second mobile communication system 15
The home memory 6 of the first mobile communication system is notified that the user is in the location registration area, and the position of the mobile station 14 is stored in the home memory 6 of the first mobile communication system. Further, by recording the information of the mobile station 14 in the home memory 10 of the second mobile communication system, the incoming call to the mobile station 14 becomes possible. That is, when calling the mobile station 14, first, the current position of the mobile station 14 is queried with respect to the home memory 6 of the first mobile communication system 1 to which the mobile station 14 originally belongs. Since the information from the home memory 10 is registered in the home memory 6, as a result of the inquiry, the mobile station 14
Is in the location registration area of the second mobile communication system 15. Therefore, next, the home memory 10 of the second mobile communication system 15 is inquired about the current position of the mobile station 14. As a result of the inquiry, it is found that the mobile station 14 is within the range of the first base station 11 of the second mobile communication system 15, so that the mobile station 14 can be called by using the base station 11.

As described above, in the present invention, the information about the control channel of the mobile communication system different from the mobile communication system to which the mobile station currently belongs is added to the broadcast channel and transmitted. Can be transmitted using the extension element part of the broadcast channel of the mobile communication system to which the mobile station currently belongs. Generally, in the broadcast channel of the mobile communication system, message type, network number, regulation information, control channel structure information and the like are defined as broadcast information message contents. For details of the stipulations, for example, for PDC, see Table 4 on page 262 of RCR-STD27F.
It is described as the contents of the broadcast information message in 3.5.2-24.In the digital mobile communication system for public works, RCR-ST is used.
It is described on page 795 of D39B as the contents of the notification information message of Table 4.3.5.2-12. According to these, PDC and RCR
-In the case of STD39B π / 4 shift QPSK system, it is possible to register the perch channel number of the own system from 0 to a maximum of 20 as the number of perch channels for the zone / sector determination in the broadcast information message content. Has become. In addition to this, the present embodiment attempts to register the perch channel number of another system in the portion of the broadcast information message content extended information element. That is, as the extended standard information element of the BCCH of the PDC, any other mobile communication system (for example, the second mobile communication system) different from the mobile communication system (for example, the first mobile communication system 1) transmitting the BCCH. 15) A base station belonging to (for example, the first base station 11 of the second mobile communication system)
The information about the perch channel sent from
What is the mobile communication system in which the mobile station is transmitting the BCCH by reporting from the base station in the mobile communication system transmitting the BCCH (for example, the second base station 5 in the first mobile communication system)? It enables communication with any other different mobile communication system (for example, the second mobile communication system 15).

For example, as shown in FIG. 2, it is assumed that the contents of the notification information message have already been defined up to the second operator unique information. After that, write the length of the extended information element,
Then, for example, the number of perch channels of the first other system, the first perch channel number of the first other system,
Second perch channel number of first other system, first
Enter the standard classification number of other systems. In this example, the number of the first perch channels of the first other system is 2, so that 2 is described in the content of the first number of the perch channels of the first other system (in FIG. 2, the description is omitted). Omitted). Second
Other systems are described and notified in the same manner. In the example of FIG. 2, since the total number of extension elements is 8, the extension information element length (K) = 8. Also, the standard type number of other system indicates PDC if the number is 1, for example,
If it is 2, the mobile station receiving BCCH uses what kind of standard (for example, PHS or PDC) that the other system uses. It is possible to know what the number of the perch channel is. According to the embodiment using such an extended information element portion, the present invention can be implemented within the standard range of the existing PDC.

In the present invention thus constructed, the PD
When C is the first mobile communication system and PHS is the second mobile communication system, even if there is a situation in which the network is congested and communication becomes temporarily difficult due to an increase in calls in the PDC, for example, PDC if PHS is not congested
It is possible to temporarily transfer some of the users to PHS. As a method, for example, the channel of the mobile station currently receiving the BCCH of the PDC may be changed to the perch channel of the radio base station belonging to the PHS for each user number or user group number of the mobile station. There are two types of methods for selecting this user or user group. One of them is a method of notifying not only a signal related to a perch channel of PHS but also the number of a user or a user group moving to PHS by BCCH of PDC at the same time. The other one is PDC to PHS in advance.
It is decided by the user or user group to move to PDC, and the PDC is used as the start signal for the transfer.
There is a method of using a signal related to a perch channel of PHS in BCCH of. In this method, when a signal relating to a perch channel is broadcast, the mobile communication system is shifted to each user or user group at that stage. If the PDC recovers from the congestion state, for the mobile station that was temporarily using PHS, from the PHS base station, the perch channel information of the PDC, to the mobile station using the PCH BCCH. The mobile communication system to which the mobile station connects.
It is also possible to return to PDC. Information about the current state of the mobile communication system such as congestion and whether or not to accept roaming are exchanged via the mobile gateway relay exchanges (MGS1 and MGS2) of the respective mobile communication systems.

Further, each mobile communication system includes
Each of them may have features that other mobile communication systems do not have. For example, PHS can achieve higher speed transmission than PDC currently in service. On the other hand, PDC has a wider service area than PHS. Therefore, here, a procedure for changing the currently connected mobile communication system to another mobile communication system from the viewpoint of the user receiving the required service will be described.
Here, a specific case where a user who is currently receiving PDC service changes to PHS in order to realize high-speed transmission will be described as an example. This is because, for example, the transmission speed of the PDC to which the mobile station is currently connected is insufficient,
It is supposed to switch to.

First, the mobile station reports P from BCCH of PDC.
Attempts to receive the PHS BCCH signal based on the perch channel information of the HS. If the BCCH signal can be received, connect to the PHS network and connect to the PDC via the PHS network.
Informs its home memory that the mobile station has moved from PDC to PHS. This makes it possible to transfer the call to the PHS system when the call to the mobile station is made to the PDC system.
After that, the mobile station receives the high speed transmission service by the PHS system.

On the other hand, the mobile station which has been receiving the PHS service in the PHS service area is likely to be out of the service area due to the weakening of the PHS radio wave due to the movement, and there it is in the PDC service area. Then, when the mobile station wants to communicate with the PDC service, the mobile station should shift to the PDC service by using the perch channel information of the PDC transmitted from the BCCH of the PHS according to the present invention. You can At this time, PDC is stored in the home memory of PHS.
A location registration operation is performed to notify the mobile station that the mobile station has moved. This allows PH to call the mobile station.
Until now, the user who referred to the home memory of S simply returned the answer that the mobile station was out of the PHS range, but by referring to the home memory of the PDC by applying the present invention. The home memory of PHS answers. Therefore, by using the information of the home memory of the PDC introduced in the home memory of the PHS, the PDC can call the mobile station and perform communication (incoming operation). For this reason,
For a user who tries to call the mobile station by PHS, it is possible to communicate with the mobile station MS1 (14) by using the PDC as if the call came to the PHS. In this case, as a time sequence of location registration, a method of notifying the home memory of the PHS that the mobile station has moved to the PDC while connected to the PHS, and a method of notifying the PHS using the communication line of the PDC after connecting to the PDC A method of notifying the home memory that the mobile station has moved to the PDC can be considered.

Next, FIG. 3 shows an example of a concrete device configuration of the mobile station MS1 (14). Since the method of control is mainly described here, the description of how the audio signal is transmitted by the device according to the present invention is omitted. As shown in the figure, the mobile station MS1 includes a communication device 20 for communicating using the first mobile communication system 1 (here, PHS), and a second mobile communication system 15
(Here, it is referred to as PDC.) A communication device 21 for communicating using PDC, information 23 related to a perch channel of the second mobile communication system 15 obtained from the first mobile communication system 1, and a second information. First obtained from mobile communication system 15
Related to the perch channel of mobile communication system 1
4 has a perch channel storage device 22 for storing 4 and a control device 25. The communication system to be used is selected from the first mobile communication system 1 and the second mobile communication system 15 by the system selection signal 28 from the user.
In the control device 25, in addition to the system selection signal 28 from the user, a signal indicating the reception state from the communication device 20 for communicating using the first mobile communication system 1 and the second mobile communication system 15 are used. Communication device 2 for communication
The signal indicating the reception status from 1 is monitored. As a method of monitoring the reception status, RSSI (Received Signal Stre
In addition to the ngth indicator) signal, the size of the metric obtained when decoding the error-correction-coded signal used for CAC (Call admission control) of the downlink control channel for transmitting BCCH is used.

When the mobile station MS1 (14) receives the BCCH from the first mobile communication system 1 and is under the control of it,
When the mobile station MS1 (14) determines that the communication quality is impaired as a result of monitoring the signal indicating the reception state from the communication device 20 for communicating using the first mobile communication system 1, the control device 25 , Perch channel storage device 2
2, the information of the perch channel of the second mobile communication system 15 is read, and the BC of the second mobile communication system 15 is read.
Perform CH reception operation. If the BCCH is successfully received,
The mobile station MS1 (14) passes through the second mobile communication system 15 and the home memory HM1 of the first mobile communication system 1.
In (6), the mobile station MS1 (14) notifies that the mobile station MS1 (14) is within the range of the second mobile communication system 15, and also performs position registration in the home memory HM2 (10) of the second mobile communication system. The mobile station MS1 (14) does not perform an outgoing operation to the first mobile communication system 1 or an incoming operation from the first mobile communication system 1, but merely receives the BCCH from the first mobile communication system. At this time, if it is determined that there is a possibility that the communication quality is not impaired, the mobile communication system to be connected by the above operation is switched from the first mobile communication system 1 to the second mobile communication system 15. However, in this case, the second mobile communication system 1
If it is determined that the second mobile communication system 15 is inferior in signal quality to the first mobile communication system 1 as a result of receiving the BCCH of No. 5, shift to the second mobile communication system 15. Instead, stay in the first mobile communication system 1.

Contrary to the above, the mobile station MS1 (14) is
When the mobile station MS1 (14) receives the BCCH from the mobile communication system 15 and is under the control of the BCCH, the mobile station MS1 (14) is a signal indicating the reception state from the communication device 21 for communication using the second mobile communication system 15. When it is determined that the communication quality is impaired as a result of the monitoring of the above, the control device 25 causes the perch channel storage device 22 to detect the first mobile communication system 1
The perch channel information is read and the BCCH reception operation of the first mobile communication system 1 is performed. When the BCCH has been successfully received, the mobile station MS1 (14) passes through the first mobile communication system 1 to the home memory HM2 (10) of the second mobile communication system 15 and the mobile station MS1 (14). Informs that the user is within the range of the first mobile communication system 1, and also the home memory HM1 (6) of the first mobile communication system.
Register the location for. The mobile station MS1 (14) does not make a call to the second mobile communication system 15 or perform an incoming operation from the second mobile communication system 15, and only receives the BCCH from the second mobile communication system 15. In this case, even if the communication quality is not impaired, if it is determined that there is a possibility that it will be lost, the mobile communication system connected by the above operation is switched from the second mobile communication system 15 to the first mobile communication system 1. . However, in this case, when it is determined that the first mobile communication system 1 is inferior in signal quality to the second mobile communication system 15 as a result of receiving the BCCH of the first mobile communication system 1, Without moving to the first mobile communication system 1, the second mobile communication system 1
Stay at 5.

As shown in FIG. 3, the mobile station MS1 has a plurality of transmitters and receivers corresponding to a plurality of mobile communication systems (communications using the first mobile communication system 1 in FIG. 3). Communication device 20 for communication, and communication device 21 for communication using second mobile communication system 15). Communication is performed when a base station of one mobile communication system (here, the communication device 20 for communication using the first mobile communication system 1 is taken as an example) and the mobile station MS1 communicate with each other. The device configuration of the mobile station MS1 (14) necessary for this will be described with reference to FIG.

FIG. 4 shows the configuration of the communication device 20. Since the communication is performed using the first mobile communication system 1, the mobile station transmitter for communication using the first mobile communication system 1 is shown. The frequency synthesizer 32 receives the signal 26 for controlling the frequency, and the frequency thereof is set so that the perch channel of the first mobile communication system 1 can be received.
At the same time, the synthesizer 32 also outputs a signal having a frequency such that the output of the mobile station transmitter 30 for communication using the first mobile communication system 1 enables communication with the first mobile communication system 1. The mobile station receiver 31 for communicating using the first mobile communication system 1 demodulates the received signal from the first mobile communication system 1. The control unit 33 is used to extract the information 23 about the perch channel of the second mobile communication system 15 from the signal obtained by demodulating the BCCH signal from the first mobile communication system. Information 23 regarding the extracted perch channel is stored in the perch channel storage device 22.

As described above, as a measure of the evaluation of the received signal quality, the size of the metric obtained when decoding the error correction coded signal used for CAC of the downlink control channel transmitting RSSI and BCCH There is. Therefore, the magnitude of this metric obtained from the mobile station receiver 31 is also stored in the storage device 22, and when switching the destination mobile communication system with which the mobile station 14 communicates, which system has a higher signal quality. It can be used as a material when determining whether or not. Even if the mobile station MS1 (14) moves out of the service area of the first mobile communication system 1 and the second mobile communication system 15, the perch channel storage device 22 is stored in the perch channel storage device 22 when it is in the service area. Based on the stored perch channel information, the perch channel capturing operation of the first mobile communication system 1 and the second mobile communication system 15 can be continued. Therefore, the mobile station MS1 (1
When 4) returns to the service area of any one of the first mobile communication system 1 and the second mobile communication system 15, communication can be resumed immediately by capturing the perch channel.

Depending on the mobile communication system, it is possible to newly start the service, stop the conventional service, and change the perch channel, etc., but it is predetermined at the mobile station manufacturing stage. Conventional methods that can only obtain perch channel information cannot flexibly adapt to these system changes. In such a case, until now, it is necessary to collect all mobile stations currently used in the mobile communication system and rewrite the information related to the dead channel in the storage device. It was very difficult. On the other hand, according to the present invention, it is possible to transmit information regarding the control channel of another mobile communication system using the broadcast channel and store the information in the storage device 22, so that the system can be flexibly changed. It is significantly superior to the conventional method in which only the perch channel information determined in advance at the mobile station manufacturing stage can be obtained.

In the description of FIG. 3, the communication device 20 for communicating using the first mobile communication system 1 and the second mobile communication system 15 are provided for convenience of explanation of functions.
In order to communicate using the mobile station, the communication device 21 has been clearly separated and described. However, as described in the section of the prior art, the mobile station is partially shared by the application of the present invention. Can be simplified. The simplified configuration method will be described. Generally, in a wireless communication device, its circuit components can be divided into a part closely related to a frequency band in which the wireless communication device transmits and a frequency band in which the wireless communication device receives, and a part not directly related to the frequency band. Examples of closely related parts are the power amplification stage of the transmitter and the high frequency reception stage of the receiver. As a general rule, these are required in the same number as the mobile communication systems with which the mobile station can communicate. On the other hand, a part that is not related to these frequency bands can be configured with a single block regardless of the frequency band used for transmission / reception, even if the wireless communication device can communicate using various types of frequency bands. . Examples of such parts are the baseband stage and the intermediate frequency stage. Although these need to absorb the difference due to the modulation / demodulation method of a plurality of wireless communication systems that perform communication and the occupied frequency bandwidth, they can be configured with a single block.

A simplified configuration of the mobile station radio will be described with reference to FIG. In this figure, 49 is a mobile station transmitter section, and the baseband stage 46 of the mobile station transmitter to which the voice transmission signal input 52 is input and the intermediate frequency stage 45 of the mobile station transmitter are the first mobile communication units. System 1 (eg PD
Let it be C. 2) and the signal for the second mobile communication system 15 (for example, PHS).
The output of the intermediate frequency stage 45 is output via the changeover switch to the first
The mobile station transmitter 40 for communication using the mobile communication system 1 or the mobile station transmitter 41 for communication with the second mobile communication system 15 is connected. In the present invention, the mobile station 14 does not need to communicate simultaneously between the first mobile communication system 1 and the second mobile communication system 15,
It can be configured in this way. Similarly, the mobile station receiver section 50 also outputs the outputs of the mobile station receiver 42 for the first mobile communication system 1 and the mobile station receiver 43 for the second mobile communication system 15 via a changeover switch. By supplying selectively, only one intermediate frequency stage 47 and one baseband stage 48 are required. The audio demodulation signal output of the baseband stage 48 is output as the audio reception signal output 53. Further, the output of the signal for controlling from the baseband stage 48 is supplied to the control device 51, where the perch channel information is extracted and stored in the storage device 22.
28 is a mobile communication system selection signal, 25 is a control device, 4
A frequency synthesizer 4 operates in the same manner as described above. Generally, the power amplification stage and the high-frequency reception stage are mostly composed of a filter element for the purpose of matching between stages and suppression of an unnecessary signal and an amplification element for actually performing amplification. As long as the frequency bands are not significantly different, the amplification element can be commonly used in the system, so in that case, only the filter element for the purpose of matching between stages and suppressing unnecessary signals can be switched or tuned. Further miniaturization is possible by forming the filter element using the element. Further, in FIG. 5, the baseband stage and the intermediate frequency stage are common to both the transmitting unit and the receiving unit, but only one of them may be common.
The baseband stage or the intermediate frequency stage may be common only to either the transmitting unit or the receiving unit.

In the above description, the mobile communication network in which the two mobile communication systems of the first mobile communication system 1 and the second mobile communication system 15 are integrated has been described as an example. The number of mobile communication systems provided can be arbitrary plural. In this case, the information about the control channel of the other mobile communication system notified from each radio base station may be arbitrarily determined according to the positional relationship between each radio base station and the other mobile communication system.

[0049]

As described above, in the conventional mobile communication system, in the mobile station radio that can communicate using a plurality of mobile communication systems, all of the plurality of mobile communication systems are transmitted from the base station. Although it was necessary to receive the signals at the same time, the present invention eliminates that need. Also, due to the movement of the mobile station, it is necessary to change the registration position of the mobile station registered in the home memory. For that purpose, transmission and reception of signals between the mobile station and the base station are performed individually for each mobile communication system. However, according to the present invention, location registration may be performed only for one mobile communication system. Therefore, due to the decrease in frequency utilization efficiency due to the increase in control traffic due to the transmission and reception of signals related to location registration, and the discharge of the mobile station battery due to the increase in mobile station power consumption accompanying the simultaneous reception of signals from multiple mobile communication system base stations. It is possible to prevent a reduction in the operation time of the mobile station. Furthermore, the mobile station transceiver can be simplified.

[Brief description of drawings]

The mobile communication network of the present invention; FIG is a conceptual diagram illustrating a radio base station apparatus and mobile station apparatus.

FIG. 2 is a diagram for explaining an embodiment in which a perch channel number of another system is registered in a portion of extended information element of broadcast information message content.

FIG. 3 is a diagram showing an example of a specific device configuration of a mobile station MS1 in the present invention.

FIG. 4 is a diagram showing an example of a specific device configuration of a transceiver that communicates with a specific communication system in the mobile station MS1.

FIG. 5 is a diagram illustrating that the mobile station can be simplified and the power consumption can be reduced because the mobile station can be simplified by partially sharing the transceiver.

[Explanation of symbols]

1 first mobile communication system 2 mobile barrier relay switch of first mobile communication system 3 mobile subscriber switch of first mobile communication system 4 first base station 5 of first mobile communication system 5 first mobile communication Second base station of the system 6 Home memory of the first mobile communication system 7 Mobile gateway relay switch of the second mobile communication system 8 First mobile subscriber switch 9 of the second mobile communication system 9 Second mobile communication Second mobile subscriber switch of the system 10 Home memory of the second mobile communication system 11 First base station 12 of the second mobile communication system Second base station 13 of the second mobile communication system Second mobile Third base station 14 of communication system Mobile station 15 Second mobile communication system, 16 Signal exchanged between mobile station 14 and base station 20 Communication using first mobile communication system 1 Communication device 21 for communicating using the second mobile communication system 15 communication device 22 perch channel of the second mobile communication system 15 obtained from the first mobile communication system 1 and from the second mobile communication system 15 Obtained first mobile communication system 1
Perch channel storage device 23 for storing information relating to the perch channels Perch channel information 24 for the second mobile communication system 15 obtained from the first mobile communication system 1 No. 24 obtained from the second mobile communication system 15 2 Perch channel information of mobile communication system 1 25 Control device 26 Signal for controlling communication device for communication using first mobile communication system 1 27 Communication using second mobile communication system 15 Signal for controlling communication device 28 Mobile communication system selection signal from user 30 Mobile station transmitter 31 for communication using first mobile communication system 1 Movement for communication using first mobile communication system 1 Station receiver 32 Frequency synthesizer 33 for communicating using the first mobile communication system 1 Base of the first mobile communication system 1 Control unit 40 for extracting information on the perch channel of the second mobile communication system 15 from the signal transmitted from the station Mobile station transmitter 41 for communication using the first mobile communication system 1 Second mobile Mobile station transmitter 42 for communicating using the communication system 15 Mobile station receiver 43 for communicating using the first mobile communication system 1 Mobile station for communicating using the second mobile communication system 15 Receiver 44 frequency synthesizer 45 mobile station transmitter intermediate frequency stage 46 mobile station transmitter baseband stage 47 mobile station receiver intermediate frequency stage 48 mobile station receiver baseband stage 49 mobile station transmitter 50 mobile station reception Machine 51 Control device 52 for extracting perch channel information from received signals Voice transmission signal input 53 Voice reception signal output

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /00-7/38

Claims (8)

(57) [Claims] 1. A plurality of different mobile communication systems that consists of a mobile communication network, and transmits a control signal for notifying the mobile station belonging to it from the radio base station belonging to the respective mobile communication system 1 or
Is a plurality of channels are predetermined, each radio base station belonging to each mobile communication system, the
A perch channel of any mobile communication system different from the mobile communication system using a predetermined channel.
Ninasa to send information Le in addition to the control information
The mobile station can determine a channel for waiting a control signal from the radio base station, based on the information transmitted using the predetermined channel.
And based on the transmitted perch channel information
The channel that waits for the control signal from the wireless base station.
A radio base station belonging to another mobile communication system transmits a control signal.
When changing to the channel to send, the mobile communication system of the transfer destination
Register the location in the home memory of the system and move it.
To the home memory of the original mobile communication system,
Notify and store the transition to the mobile communication system
Mobile communication network, characterized by being adapted. 2. A radio base station belonging to the digital automobile telephone system, by using the extension information element part of the broadcast channel in digital mobile telephone system, transmitting information of the different arbitrary mobile communication system of the perch channel The mobile communication network according to claim 1, wherein: 3. When the mobile communication system is congested, the user number or user group number of the mobile station is responded to.
Flip, the change of the channel to which the mobile station is listening for control signals from the radio base station, a channel for transmitting a radio base station control signal belonging <br/> the mobile communication system that is not congested
The mobile communication network according to claim 1 or 2 was characterized Rukoto. 4. Depending on the service required by the mobile station,
The channel to which the mobile station is listening for control signals from the radio base station, to any one of claims 1, characterized in that a radio base station belonging to a specific mobile communication system to change the channel for notifying the control signal 3 The described mobile communication network. 5. The control signal from the radio base station when the mobile station determines that the communication quality is impaired or may be impaired from the reception state of the control signal from the radio base station. When the radio base station belonging to another mobile communication system changes the channel waiting for the control signal to a channel for transmitting a control signal, and the signal quality of the control signal of the change destination is inferior to the signal quality of the control signal before the change, The mobile communication network according to claim 1 or 2, wherein the mobile communication system remains in the original mobile communication system without shifting to another mobile communication system. 6. A radio base station apparatus belonging to Claim 1 put that mobile communications system <br/> mobile communication network, wherein the mobile self belongs to a channel for notifying control information to the mobile station Stop a mobile communication system different from the communication system
A radio base station apparatus comprising means for adding and transmitting information regarding a perch channel . 7. The mobile communication network according to claim 1.
A mobile station device capable of communicating with a mobile communication system to which the mobile communication system belongs, the mobile communication device being different from the mobile communication system being currently connected transmitted from a radio base station of the mobile communication system being currently connected using the control channel. System perch channel
Storage means for storing information based on information stored perch channel in the storage unit, from the radio base station of the different mobile communication system
And a means for determining a channel for waiting a control signal. 8. The at least one of a baseband processing unit and an intermediate frequency processing unit in a transmission unit or a reception unit is provided commonly to the plurality of different mobile communication systems. 7. The mobile station device according to 7 .