JP2003274455A - Cellular communication system and mobile station and method in the cellular communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To decrease transmission of information unnecessary for transition of systems in the case that a mobile station in a waiting state or a communication state in one system starts communication in the other system. <P>SOLUTION: The communication system of this invention comprises first and second cellular communication networks. The cellular communication system allows a mobile station to acquire control channel information including information for communication using a control channel in a prescribed cell of the second cellular communication network by utilizing a control channel or a communication channel in a cell of the first cellular communication network. When the mobile station desires communication within a prescribed cell, the second cellular communication network transmits communication channel information including information for the communication to the mobile station by utilizing the communication channel in a prescribed cell and utilizing the communication channel information. The mobile station utilizes the communication channel decided on the basis of the communication channel information to start communication at a prescribed cell. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates generally to the technical field of cellular communication, and more particularly to a cellular communication system comprising a plurality of cellular communication networks and mobile stations and methods in such a cellular communication system.

[0002]

2. Description of the Related Art A typical cellular communication system in such a technical field includes a mobile station and a plurality of geographical areas (cells). These cells are managed by a network including a plurality of base stations coupled to mobile stations via a wireless link, a control device for controlling the base stations, a cellular switching center and the like. There are various types of cellular communication systems depending on the service content, and there are some cellular communication systems in which a plurality of cellular communication systems coexist in the same area.

FIG. 1 shows such a cellular communication system 1
00 shows a conceptual diagram of 00. The cellular communication system 100 is, for example, an 800 MHz digital car telephone system (PDC: Pe).
It includes a cellular communication system A of rsonal Digital Cellular (system A) and a cellular communication system B of digital car telephone system of 1500 MHz (system B), for example. System A includes a plurality of cells 101 to 11
4 and a network 129 of system A that manages these cells. The plurality of cells 101 to 114 collectively constitute the service area of the system A. System B also includes a plurality of cells 115-128 and the system B network 130 that manages these cells. The plurality of cells 115 to 128 collectively constitute the service area of System B. The networks 129 and 130 of the systems A and B can communicate as needed. It is assumed that the service area of system A and the service area of system B at least partially overlap geographically. In the example shown, for example, system A cell 114 and system B cell 126 are geographically overlapping. In FIG. 1, for convenience of explanation, the systems A and B are drawn separately.

In principle, a mobile station (not shown) in a standby state or a communication state in the system A uses the communication resources of the system A for communication. Therefore, for example, when there is not enough communication resource in the system A, the mobile station cannot perform communication. However, when the mobile station is located in the cell 114 and the communication resources of the system B are sufficient, if the communication resources of the system B are allocated for communication, the convenience for the user is increased. Instead, it becomes possible to use communication resources effectively.

FIG. 2 shows a conventional procedure 200 for a mobile station in system A, which is in a stand-by or communication state, to initiate communication in system B. First, the mobile station is in the standby state or the communication state in the system A. In this state, the mobile station is connected to the system A network 12
The notification message is acquired from 9 (FIG. 1). The information included in this notification message is information necessary for communication within the system A. Specifically, information necessary to perform communication using the control channel in the cell of system A (control channel information) and necessary to perform communication using the communication channel in the cell of system A Information (communication channel information) is included. These pieces of information do not include information for performing communication in the system B. In step 212, the mobile station measures the reception level of the pilot channel (or the signal transmitted on the control channel) for each cell of system B and creates a table in which the cells are arranged in order of reception level. In step 214, the control channel of the highest cell in the table (the cell associated with the strongest reception level) is utilized to establish synchronization. After that, the mobile station acquires the broadcast message regarding the highest cell. This notification message includes information (control channel information) necessary to perform communication using the control channel within the cell of system B and information (communication information required to perform communication using the communication channel). Channel information). As will be described later, in the control channel information,
It contains regulatory information that describes the restrictions on communicating in that cell. This restriction information is, for example, for notifying the mobile station that new communication is prohibited in the cell when the base station control device is out of order or communication resources are insufficient. It is a thing. In step 216, it is determined whether or not the highest cell in the table clears the regulation according to the regulation information. If the regulation has not been cleared, the process proceeds to step 218, and the cell is deleted from the table. As a result, the highest cell in the table becomes the cell with the next strongest reception level. If the regulation is cleared, step 220
In the case where the user's button operation or the like indicates that he / she desires to communicate in the system B (when the system B should be shifted to), the process proceeds to step 222.
The communication channel used in the cell of the system B is determined, and the connection procedure in the system B is started. This makes it possible for the mobile station of system A to start communication in system B without changing the equipment of system A. However, if such a technique is adopted, a table of reception level order is created (step 212) before communication in system B is desired (step 216), and a notification message must be received from system B. I won't. If these are not transferred to the system B, useless processing and useless information reception will result. In particular, creating a table in order of reception level is a relatively large processing load. Therefore, such a conventional method has a problem that the processing load on the mobile station is heavy.

FIG. 3 illustrates another conventional procedure 300 for a mobile station in system A, which is in a stand-by state or in communication, to initiate communication in system B. In this method, first, the network of system B notifies the network of system A of the content of the notification message of system B as a notification message. Next, the network of system A transmits the content of the system B broadcast message to the mobile station in addition to the system A broadcast message. Note that the notification message and the broadcast message delivered from the network of the system B have the same substance, but the former is a message between networks, while the latter is a message between the network and a mobile station. There are some differences. Next, in step 302, when an intention to communicate in the system B is indicated through a button operation by the user, etc., step 304
At, the mobile station confirms that the cell of the transfer destination candidate clears the restriction based on the content of the broadcast message regarding the system B received earlier, and determines the cell of the transfer destination. Then, in step 306, a connection procedure for starting communication in the system B is performed. In this case, the notification from the system A to the system B is performed for each cell. That is, the content of the broadcast message regarding the cell 126 of the system B is transmitted to the mobile station together with the broadcast message regarding the cell 114 of the system A. Therefore,
Since the mobile station already knows that the cell to be accessed is the cell 126, it is advantageous in that it does not require the cell selection procedure as performed in the above conventional example. (However, it is determined in step 30 whether communication is possible in the cell 126.
In step 4, it is determined by the regulation information. However, if this method is adopted, the system A must deliver not only the broadcast message of its own system but also the broadcast message of the other system (system B) to the mobile station. In general, since the information amount of the notification message is relatively large, there is a problem that the communication resources of the system A are consumed more than when the system B does not exist. Further, since the notification message regarding the system B is received before the communication by the system B is desired, it becomes useless information when the system B is not moved. This point is similar to the previous example.

[0007]

The general problems of the present application are:
When the mobile station in the standby state or the communication state in the system A starts the communication in the system B, the information transmission unnecessary for the system transition is reduced.

One of the concrete problems of the present application is to reduce the processing load of the mobile station when the mobile station in the standby state or the communication state in the system A starts the communication in the system B.

[0009] One of the concrete problems of the present application is to save communication resources of the system A when a mobile station in a standby state or a communication state in the system A starts communication in the system B.

[0010]

The above-mentioned problems can be solved by the means described below.

According to the solution according to the invention, a cellular communication system comprising first and second cellular communication networks, for performing communication using a control channel in a predetermined cell of said second cellular communication network. Of the control channel information including the information of the mobile station communicating with the control channel or the communication channel in the cell of the first cellular communication network, and the mobile station communicates in the predetermined cell. If you want to
Using the control channel information, communication channel information including information for performing communication using the communication channel in the predetermined cell is transmitted from the second cellular communication network to the mobile station, and the communication channel information is transmitted. There is provided a cellular communication system in which communication of a mobile station in the predetermined cell is started using a communication channel determined based on the above.

According to the invention described in claim 1, 4 or 7,
The control channel information and the communication channel information are distinguished from each other, and after the mobile station desires to communicate in a predetermined cell of the second cellular communication network, the communication channel information regarding the predetermined cell is acquired, and unnecessary communication channel information is acquired. Since it is possible to reject the request, it is possible to reduce the processing load on the mobile station, and it is also possible to effectively use communication resources.

According to the invention of claim 2, 5 or 8,
Since necessary information is received from the communication channel information from each cell, the processing load on the mobile station can be reduced. Further, the present invention can be realized without changing the configuration of the first cellular communication network.

According to the invention of claim 3, 6 or 9,
Since the amount of information on the control channel is small, it is possible to reduce the processing load on the mobile station and reduce the amount of communication resources used by the first cellular communication network due to the second cellular communication network.

[0015]

FIG. 4 shows a processing procedure 400 of the mobile station and each network in the first embodiment of the present application.
This processing procedure is performed until the mobile station in the standby state or in the communication state in the system A corresponding to the “first cellular communication system” starts communication of the system B corresponding to the “second cellular communication system”. Show. System A, B
Is a cellular phone communication system of the 800 or 1500 MHz digital car telephone system, a personal handy-phone system (PHS).
m) or IMT2000 system (IMT: Internationa
l Mobile Telecommunications 2000). Further, it is assumed that at least a part of the geographical areas of the systems A and B have a positional relationship where they overlap each other (for example, the cell 114 of the system A and the cell 126 of the system B in FIG. 1). Mobile stations are systems A and B
It is possible to work with both. It is assumed that the mobile station is initially in the standby state or the call state in the system A. That is, the mobile station communicates in the cell of system A using the control channel or the communication channel.

Next, the system A transmits a broadcast message to the mobile station. The notification message includes control channel information and communication channel information. The control channel information is transmitted for each cell. The control channel information transmitted at this stage includes (1) information indicating the geographical correspondence of the cells 114 and (2) control channels used by the cells 114. Frequency information of (3), regulation information about the cell 114, and the like. The information (1) indicating the geographical correspondence includes, for example, the position information of the cell 114, the information indicating the relative position relationship with the adjacent cells, and the like. (2)
Regarding this, in the present embodiment, it is assumed that the communication resource is specified by the frequency, but it is possible to use another communication resource. For example, it is possible to specify the communication resource by using the code for the control channel when performing spread spectrum and by using the time slot when performing time division, and to include this information in the control channel information. Is possible. The restriction information (3) indicates a restriction on communication in the cell 114. For example, the cell 11 is included in the regulation information.
4 may include information indicating how the success rate of access to the base station or the like is limited by the number of times or time, such as 50% or 20%. Further, when the base station itself is operating but the base station control device or the like is out of order, communication in the cell 114 may be prohibited, and such information may be included. As described above, the control channel information including the information of (1) to (3) includes information necessary for performing communication using the control channel in the cell. Note that, for convenience of description, the transmission of the control channel information is depicted only once before step 402 in FIG. 4, but the control channel information is broadcast continuously or at predetermined intervals for each cell. As will be described later, the communication channel information includes (1) frequency information of a communication channel that can be used in the cell, and (2) conditions when using the communication channel.

Next, in step 402, it is judged whether or not the system B should be migrated. This determination is, for example,
When the mobile station of the system A makes a call and the communication resources of the system A are insufficient, the mobile station automatically decides to shift to the system B, or by a button operation by the user or the like. Decide on a migration. Alternatively, when communication is performed using the voice communication channel and the packet communication channel, when the resources of one system related to packet communication are running out, the other resource is used to perform packet communication. It is also possible. If the system B is not used, the procedure up to this point is repeated. When the system B should be migrated, the process proceeds to step 404.

In step 404, it is determined which cell in system B to move to. First, step 406
At, the mobile station measures the reception level of the pilot channel (or the signal transmitted on the control channel) for each cell of system B and creates a table in which the cells are arranged in order of reception level. In step 407, the top cell of the table (the cell associated with the strongest reception level)
Establish synchronization by using the control channel of. After that, the mobile station acquires the broadcast message regarding the highest cell. In this way, cells that are candidates for the migration destination (migration destination candidate cells) are determined. The broadcast message includes information necessary to perform communication using the control channel in the cell of system B (control channel information) and information necessary to perform communication using the communication channel (communication channel). Information) and. In each of this control channel information,
It includes the above-mentioned (1) information indicating the geographical correspondence of the cell, (2) frequency information of the control channel used in the cell, and (3) regulation information regarding the cell.
The communication channel information includes (1) frequency information of a communication channel that can be used in the cell, and (2) conditions when using the communication channel. Regarding (1), it is possible to specify communication resources by using not only frequency information but also codes for communication channels when spectrum spreading is performed and time slots when time division is performed. It is also possible to include this information in the communication channel information. The condition regarding (2) may include a channel resource structure such as a communication resource usage plan related to a frequency or a time slot and a frequency hopping pattern. (In this sense, the “communication channel information” can also be called structural information about the communication channel.)
It is also possible to include a code (scramble code) for descrambling in consideration of confidentiality. As described above, the communication channel information includes information necessary for communication using the communication channel within the cell.
In step 408, it is determined whether or not the regulation is cleared, that is, whether or not it is possible to perform communication by shifting to the cell by checking the regulation information regarding the cell of the transfer destination candidate. If the regulation is not cleared, in step 409, the cell is removed from the table, and the cell having the next strongest reception level is set as the transfer destination candidate,
The determination in step 408 is performed. When the cell that has cleared the regulation is selected, the process proceeds to step 412. When the communication resource is given by a code, it is possible to perform the processing based on the magnitude of the correlation value instead of or in addition to the strength of the reception level.

Next, in step 412, the mobile station determines the communication channel to use based on the received communication channel information. In this embodiment, it is assumed that a plurality of communication channel candidates are presented to the mobile station by the system B and the mobile station selects the communication channel. However, it is also possible that system B assigns only a single communication channel without presenting a plurality of candidates. In any case, the mobile station starts the connection procedure for communication in the system B by utilizing the selected or assigned communication channel. Specifically, the mobile station in the standby state in the system A starts the connection with the partner node. In addition, a handover procedure for continuing a call in system B using a new communication channel is executed for a mobile station in a call state in system A.
Or, in addition to the voice communication that was performed in System A,
In the system B, it is possible to execute the procedure of adding new communication, as in the case of performing data communication.

According to this embodiment, since the mobile station receives the communication channel information after it is decided to shift to the system B in step 402, the mobile station receives the communication channel information without receiving unnecessary communication channel information. The processing load can be reduced, and the communication resources can be effectively used.

FIG. 5 shows a processing procedure 500 of the mobile station and each network in the second embodiment of the present application. First, the system B notifies the system A of control channel information regarding the system B. This control channel information is the same as that described above, but the information indicating the geographical correspondence between cells requires that the correspondence between the cells of system A and the cells of system B be specified. This is because the control channel information is notified for each cell. For example, the control channel information for cell 126 specifies that it geographically corresponds to system A cell 114. The network of system A that has received such control channel information transmits the control channel information and communication channel information regarding the cells of system A and the control channel information received from system B to the mobile station. As in the case of the embodiment shown in FIG. 4, the control channel information is actually broadcast continuously or at regular intervals.

Next, in step 502, it is judged whether or not the system B should be shifted to. If the system B is not used, the procedure up to this point is repeated. If the system B should be migrated, the process proceeds to step 504. Unlike the case of the embodiment of FIG. 4, at this stage, the mobile station knows which cell in the system B is the cell of the transfer destination candidate, and the control channel information regarding the cell. This is because the control channel information regarding the system A includes the correspondence between the cells of the system A and the cell of the system B. For example, the mobile station that knows that it is located in the cell 114 is based on the correspondence. Cell 126 is the migration destination
It is possible to know that Step 5
In 04, it is confirmed that the migration destination candidate cell has cleared the regulation, and the migration destination cell is determined. That is, finally, the cell that has cleared the regulation is selected as the transfer destination. After that, the mobile station acquires from the system B the communication channel information regarding the target cell (for example, the cell 126 of the system B). "Communication channel information" includes
It includes (1) frequency information of a communication channel that can be used in the cell, and (2) conditions for using the communication channel. Although the process of step 504 is performed after step 502,
It is also possible to do it before 02. This way,
This is preferable from the viewpoint of shortening the connection time to the system B, since the number of procedures after the user desires to move to the system B is reduced. On the other hand, if it is performed after step 502, step 504 is not performed when the system B is not migrated, which is preferable from the viewpoint of reducing the processing of unnecessary mobile stations.

Next, in step 512, the mobile station determines the communication channel to use based on the received communication channel information. In this embodiment, it is assumed that a plurality of communication channel candidates are presented to the mobile station by the system B and the mobile station selects the communication channel. However, it is also possible that system B assigns only a single communication channel without presenting a plurality of candidates. In any case, the mobile station starts the connection procedure for communication in the system B by utilizing the selected or assigned communication channel.

According to the present embodiment, since the mobile station receives the communication channel information after it is decided to move to the system B in step 502, the communication resources are saved without receiving unnecessary communication channel information. It can be used effectively. Further, since the control channel information is less than the communication channel information and has an information amount of, for example, about 1/10, when the system A transmits its own control channel information to the mobile station, the control channel information of the system B is transmitted. Even if the above is included, the communication resources of the system A are not significantly tightened. This point is particularly advantageous as compared with the conventional example of FIG. Further, according to the present embodiment, it is not necessary to search for the transition destination cell as in step 404 of the embodiment of FIG. 4, so that it is possible to reduce the processing load and processing duration of the mobile station. .

FIG. 6 is a schematic block diagram showing the main configuration of the mobile station. The mobile station has an antenna 610 for the first cellular communication network (system A) and a radio circuit 612 connected to this antenna 610. The radio circuit 612 has a circuit that performs processing such as modulation / demodulation, encoding, and decoding of radio waves communicated in the system A. Similarly, the mobile station has an antenna 620 for the second cellular communication network (system B) and a radio circuit 622 connected to this antenna 620. Radio circuit 622
Also has a circuit that performs processing such as modulation / demodulation, encoding, and decoding of radio waves communicated by the system B. Radio circuit 612
And 622 are coupled to switch 630 to couple radio circuit 612 or 622 to subsequent processing elements.
What the switch 630 selects is determined based on the control signal transmitted from the control circuit 634 via the control line 632. The processing of the mobile station in FIGS. 4 and 5 described above is mainly performed by this control circuit 634. The switch 630 is coupled to a user operation unit such as a dial via the control circuit 634. The switch 630 is also coupled to an input / output element 638 such as a microphone, speaker, display screen, etc. In the figure, the solid line mainly shows the path of the communication signal, and the broken line mainly shows the path of the control signal. In the example shown in FIG. 6, two separate antennas are provided, but in the case where the first and second cellular communication networks use communication resources of the same frequency, for example, one common antenna is used. It is also possible. Further, although two radio circuits are separately provided, if the processes such as modulation / demodulation method, coding, and compounding are the same in the first and second cellular communication networks, the whole radio circuit or It is also possible to share a part.

FIG. 7 is a schematic block diagram showing the main configuration of a base station that can be used in the networks of systems A and B. For simplicity, the base station is system A,
It is assumed that B has a common structure, but it is also possible to adopt a different configuration. The base station includes an antenna 710 for communicating with a mobile station and the antenna 71
It has a radio circuit 712 connected to 0. The radio circuit 712 has a circuit for performing processing such as modulation / demodulation, encoding, and decoding of radio waves transmitted / received to / from a mobile station. The base station has a separation circuit 714 that is coupled to the radio circuit 712 and separates the communication signal and the control signal. The separated communication signals are coupled via communication signal interface 716 to a voice / data processing device of the network, such as a base station controller. The voice / data processing device provides, for example, control channel information and communication channel information. Separation circuit 71
The control signals separated by 4 are coupled to the controller of the network via the control signal interface 718.
In the figure, the solid line mainly shows the path of the communication signal, and the broken line mainly shows the path of the control signal.

As described above, according to the embodiments of the present application, attention is paid to the difference in the information amount of the control channel information and the communication channel information in the conventional broadcast message, and these are distinguished and transmitted to the mobile station. This not only makes it possible to effectively utilize communication resources when a mobile station hands over between networks, but also reduces the processing load on the mobile station.

[0028]

As described above, according to the present invention, a mobile station in a standby state or a communication state in one system,
When communication is started in the other system, it becomes possible to reduce information transmission unnecessary for system transition.

[0029]

[Brief description of drawings]

FIG. 1 shows a conceptual diagram of a cellular communication system including a plurality of cellular communication systems.

FIG. 2 shows a conceptual diagram of a conventional technique for a mobile station of system A to initiate communication with system B.

FIG. 3 shows a conceptual diagram of another conventional technique for a mobile station of system A to initiate communication with system B.

FIG. 4 is a flowchart showing a processing procedure of the mobile station and each network in the first embodiment of the present application.

FIG. 5 is a flowchart showing a processing procedure of a mobile station and each network in the second embodiment of the present application.

FIG. 6 is a schematic block diagram showing a main configuration of a mobile station.

FIG. 7 is a schematic block diagram showing a main configuration of a base station.

[Explanation of symbols]

100 cellular communication system 101-114 System A cells 115-128 System B cell 129 System A network 130 System B network 610 and 620 antennas 612, 622 radio circuit 630 switch 632 control line 634 Control circuit 710 antenna 712 radio circuit 714 separation circuit 716 Communication signal interface 718 Control signal interface

Continued front page    (72) Inventor Seigo Harano             2-11-1, Nagatacho, Chiyoda-ku, Tokyo Stock             Ceremony company NTT Docomo F term (reference) 5K027 AA11 CC08 KK02                 5K067 AA15 BB04 DD11 EE24 KK11

Claims (9)

[Claims] 1. A cellular communication system comprising first and second cellular communication networks, control channel information including information for performing communication using a control channel within a predetermined cell of the second cellular communication network. Is acquired by a mobile station communicating in the cell of the first cellular communication network using a control channel or a communication channel, and the mobile station desires to communicate in the predetermined cell. Using the control channel information, transmitting communication channel information including information for performing communication using the communication channel in the predetermined cell from the second cellular communication network to the mobile station, A communication channel determined based on the information is used to start communication of the mobile station in the predetermined cell. Lula communication system. 2. A control channel used by the mobile station based on a reception level of the signal, the signal being related to each of a plurality of cells in the second cellular communication network, the mobile station receiving the signal through each control channel. 2. The cellular communication system according to claim 1, wherein the control channel information is acquired by causing the mobile station to select from among a plurality of control channels. 3. The control channel information is transmitted from a second cellular communication network to a first cellular communication network, and the control channel information is transmitted together with information for performing communication in a cell of the first cellular communication network using the control channel. The cellular communication system according to claim 1, wherein control channel information is transmitted from the first cellular communication network to the mobile station. 4. A mobile station capable of performing communication in first and second cellular communication networks, wherein communication is performed using a control channel or a communication channel in a cell of the first cellular communication network. If the control channel information including information for performing communication using a control channel in a predetermined cell of the second network is acquired, and if it is desired to perform communication in the predetermined cell, Using the control channel information, communication channel information including information for performing communication using the communication channel in the predetermined cell is acquired from the second cellular communication network, and determined based on the communication channel information. A mobile station which starts communication in the predetermined cell by using the communication channel. 5. A signal for each of a plurality of cells in the second cellular communication network is received through each control channel, and a plurality of control channels used by the mobile station are controlled based on a reception level of the signal. The mobile station according to claim 4, wherein the control channel information is acquired by selecting from channels. 6. The control channel information transmitted from a second cellular communication network to a first cellular communication network together with information for communicating using a control channel within a cell of the first cellular communication network, The mobile station according to claim 4, wherein the mobile station is obtained from the first cellular communication network. 7. A method for a mobile station communicating in a cell of a first cellular communication network using a control channel or a communication channel to initiate communication in a predetermined cell of a second cellular communication network. In the acquisition step, the mobile station acquires control channel information including information for performing communication using a control channel in the predetermined cell, and the mobile station communicates in the predetermined cell. If desired, using the control channel information, communication channel information including information for performing communication using the communication channel in the predetermined cell is transmitted from the second cellular communication network to the mobile station. Using the transmission step of transmitting and the communication channel determined based on the communication channel information, the mobile station starts communication in the predetermined cell. A method comprising a first step. 8. The step of acquiring, wherein the mobile station receives a signal regarding each of a plurality of cells in the second cellular communication network through respective control channels, and based on a reception level of the signal, 8. The method of claim 7, comprising the step of obtaining the control channel information by selecting a control channel to be used by the mobile station from a plurality of control channels. 9. The step of transmitting the control channel information from the second cellular communication network to the first cellular communication network in the acquisition step, and performing communication using a control channel in a cell of the first cellular communication network. 8. The method of claim 7, comprising transmitting the control channel information from the first cellular communication network to the mobile station along with information for