JP2005136779A - Mobile communications system, base station instrument and mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication system for efficiently assigning the channel of a base station device in mobile communication. <P>SOLUTION: This mobile communication system having a plurality of base station devices is provided with a retrieving means which periodically retrieves the dead channel of each base station device, and acquires dead channel information, an information sharing means which notifies the dead channel information to the other base station device, and shares the mutual dead channel information and a dead channel information notifying means which notifies the dead channel information of the other base station device to the mobile terminal based on the shared dead channel information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a mobile communication system that can efficiently allocate a channel of a base station apparatus in mobile communication.

In order to reduce the frequency of call establishment rejected by the base station when the mobile terminal originates a call, the mobile terminal notifies the mobile terminal of empty channel information, and the mobile terminal makes a request to the base station based on the empty channel information. Then, a channel selection method in which a call channel is designated from a base station is known (for example, see Patent Document 1). This is to notify the mobile station that is waiting for the channel usage status of the base station, search for available channel information in response to a transmission request, and use available channel information that satisfies a predetermined condition as a channel use request signal. The data is transmitted to the base station, and the base station checks whether it can be used at that time. If it can be used, the mobile station designates a communication channel and performs communication.
JP-A-4-286432

  However, the channel selection method disclosed in Patent Document 1 has a problem that negotiation for an actual empty channel search is required after notification of an empty channel. There is also a problem that a plurality of base stations are installed, and call establishment cannot be performed by reflecting free channel information to other base stations, so that free channels cannot be allocated effectively.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a mobile communication system capable of efficiently allocating a channel of a base station apparatus in mobile communication.

  The invention according to claim 1 is a mobile communication system comprising a plurality of base station devices, wherein search means for periodically searching for free channels of each base station device to acquire free channel information, Information sharing means for notifying other base station devices of the free channel information and sharing the free channel information with each other, and based on the shared free channel information, the mobile terminal transmits the free channel information of the other base station devices. And a free channel information notifying means for notifying the above.

  The invention according to claim 2 comprises a multiprocessing means for establishing slot multiplexing processing in each channel of the own station, and the empty channel information notifying means determines that the empty channel of the own station is a result of the search by the search means. When there is no slot and slot multiplexing by the multiplex processing means is impossible, based on the shared vacant channel information, the vacant channel information of another base station apparatus is notified to the mobile terminal. It is characterized by.

  According to a third aspect of the present invention, there is provided a multiprocessing means for establishing slot multiplexing processing in each channel of the own station, and as a result of searching by the searching means, there is no empty channel of the own station, and the multiplexing processing When slot multiplexing by means is possible, and there are a plurality of empty channels including other base station apparatuses, the mobile terminal is a base station indicating the communication status between the mobile terminal and the base station apparatus Information is transmitted to the base station device, the base station device selects a free channel based on a predetermined priority order based on channel establishment information that is a condition for slot multiplexing with the base station information, The mobile terminal is notified.

  The invention according to claim 4 is a search means for periodically searching for a free channel to obtain free channel information, and transmitting the free channel information to another base station device, while also freeing other base station devices. Information sharing means for receiving channel information and sharing each other's free channel information, and a free channel for notifying mobile terminals of free channel information of other base station devices based on the shared free channel information And an information notification means.

  The invention according to claim 5 is provided with a multiplex processing means for establishing slot multiplex processing in each channel of the own station, and the vacant channel information notifying means determines whether the vacant channel of the own station is a result of the search by the search means. When there is no slot and slot multiplexing by the multiplex processing means is impossible, based on the shared vacant channel information, the vacant channel information of another base station apparatus is notified to the mobile terminal. It is characterized by.

  The invention according to claim 6 is provided with a multiplex processing means for establishing slot multiplex processing in each channel of the own station, and as a result of the search by the search means, there is no vacant channel of the own station, and the multiplex processing If there is a plurality of vacant channels including other base station apparatuses that can be slot multiplexed by means, a base that indicates a communication status between the mobile terminal and the base station apparatus including the own station from the mobile terminal Receiving station information, selecting a free channel based on a predetermined priority order based on channel establishment information, which is a condition for slot multiplexing with the base station information, and notifying the mobile terminal And

  The invention according to claim 7 is a mobile communication method in a mobile communication system including a plurality of base station apparatuses, and searches for free channel information by periodically searching for free channels of each base station apparatus. Process, an information sharing process for notifying other base station devices of the free channel information and sharing the free channel information with each other, and free channels of other base station devices based on the shared free channel information A vacant channel information notifying process for notifying the mobile terminal of information and a multiplex processing process for establishing slot multiplex processing in each channel of the own station. As a result, when there is no free channel of its own station and slot multiplexing by the multiplexing process is impossible, based on the shared free channel information, And notifies the free channel information of the base station apparatus to the mobile terminal.

  The invention according to claim 8 is a mobile communication method in a mobile communication system comprising a plurality of base station devices, wherein a search is performed to periodically search for free channels of each base station device to obtain free channel information. Process, an information sharing process for notifying other base station devices of the free channel information and sharing the free channel information with each other, and free channels of other base station devices based on the shared free channel information There is a vacant channel information notifying process for notifying information to the mobile terminal and a multiplex processing process for establishing slot multiplex processing in each channel of the own station. As a result of the search by the search process, there is no vacant channel of the own station If there is a plurality of idle channels including other base station apparatuses when slot multiplexing is possible in the state and the multiplexing process, the mobile terminal Base station information indicating a communication status with the base station device is transmitted to the base station device, and the base station device preliminarily determines channel establishment information that is a condition for slot multiplexing with the base station information. A free channel is selected based on the determined priority order and notified to the mobile terminal.

  The invention according to claim 9 is a mobile terminal used in a mobile communication system including a plurality of base station devices, and periodically searches for a free channel of each base station device to acquire free channel information. Search means, information sharing means for notifying other base station devices of the free channel information and sharing the free channel information with each other, and free base stations of other base station devices based on the shared free channel information A call is made by designating a base station apparatus based on the vacant channel information notified from a base station apparatus provided with vacant channel information notifying means for notifying channel information to a mobile terminal.

  According to the present invention, since the idle channel information of the base station apparatus having an idle channel is notified to the mobile terminal, the base station apparatus that first received the call establishment request requested from the mobile terminal. Even if there is no free channel, it is possible to establish a call if there is a free channel in another base station apparatus, so that call loss of the mobile terminal can be reduced and free channel assignment is possible. Since the channel to be used is determined using the channel establishment information and the base station information, the channel assignment can be performed more efficiently, and the free channel can be effectively used. The effect that it can be obtained.

  Hereinafter, a mobile communication system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the base station apparatus in the embodiment. In this figure, reference numeral 1 denotes a transmission / reception unit that performs wireless communication with a mobile terminal. Reference numeral 2 denotes a signal processing unit that performs signal processing such as modulation on a signal to be transmitted and received. Reference numeral 3 denotes an exchange network connection unit for connecting the base station apparatus to the exchange network. Reference numeral 4 denotes a slot multiplexing processing unit that performs a process of multiplexing (SDMA) the slots of each channel of the own station. Here, slot multiplexing refers to accommodating two calls with the same frequency and the same timing. Reference numeral 5 denotes an empty channel search unit that searches for an empty channel by periodically monitoring the status of the signal processing unit 2 in the own station and outputs empty channel information. Reference numeral 6 denotes a vacant channel information transmission unit that transmits vacant channel information output from the vacant channel search unit 5 to another base station apparatus.

  Reference numeral 7 is a local channel free channel information table that stores information on free channels searched by the free channel search unit 5, and the content is periodically updated by the free channel search unit 5. Reference numeral 8 denotes a vacant channel information receiving unit that receives vacant channel information transmitted from other base station apparatuses. Reference numeral 9 denotes an other station empty channel information table that stores the empty channel information of another base station apparatus received by the empty channel information receiving unit 8, and the contents are periodically updated by the empty channel information receiving unit 8. Reference numeral 10 denotes an empty channel information notifying unit that refers to the own station empty channel information table 7 and the other station empty channel information table 9 and notifies the mobile terminal of information on a channel that is currently an empty channel. . Reference numeral 11 is a pre-selected in order to select one channel from the available channels when there are a plurality of available channels as a result of referring to the own station available channel information table 7 and the other station available channel information table 9. This is a priority definition table in which priorities are defined.

  Here, a configuration example of the entire mobile communication system will be described with reference to FIG. Here, it is assumed that three base station apparatuses BS1, BS2, and BS3 are installed, and the mobile terminal T can communicate with any of these three base station apparatuses. Each of the three base station apparatuses BS1, BS2, and BS3 shown in FIG. 6 has the configuration shown in FIG. When the base station device BS1 is the own station, the free channel information of the base station device BS1 is stored in the own station free channel information table 7 in the base station device BS1. In addition, the other station empty channel information table 9 in the base station apparatus BS1 stores the empty channel information of the base station apparatuses BS2 and BS3 (these are referred to as other stations). Here, only three base station apparatuses are illustrated, but the number of base station apparatuses is not limited to “3”, and two or four or more base station apparatuses may be installed.

Next, with reference to FIG. 2, the operation in which the base station apparatus shown in FIG. 1 updates the stored contents of the own station free channel information table 7 and the other station free channel information table 9 will be described.
First, the empty channel search unit 5 searches for an empty channel in the own station from the processing status of the signal processing unit 2 at regular time intervals (step S1). Then, the free channel search unit 5 notifies the free channel information transmission unit 6 of information related to the free channel obtained by the search. In response to this, the vacant channel information transmission unit 6 generates vacant channel information based on the information about the vacant channel notified from the vacant channel search unit 5. The free channel information here refers to the identification number of the channel that is free at the present time and the identification number of the base station device of the own station, and header information that can identify the free channel information is added. Information. When there are a plurality of vacant channels, information corresponding to the identification number of the channel and the identification number of the base station apparatus of the own station is generated for the number of vacant channels. On the other hand, when there is no free channel, information that can identify that there is no free channel and information associated with the identification number of the base station apparatus of the local station are generated.

  Subsequently, the vacant channel information transmission unit 6 transmits the generated vacant channel information via the signal processing unit 2 (step S2). This idle channel information is exchanged between base stations via an exchange network such as ISDN or a dedicated communication line.

  Next, the vacant channel search unit 5 notifies the vacant channel information transmission unit 6 of the vacant channel and stores information on the vacant channel obtained by searching at the same time in the own channel vacant channel information table 7 (step S3). . As a result, the current station free channel information table 7 newly stores the current free channel identification number, and the local station free channel information table 7 is updated.

  Next, the vacant channel information receiving unit 8 receives the vacant channel information transmitted in step S2 by another base station device via the signal processing unit 2 (step S4). Then, the empty channel information receiving unit 8 stores the received empty channel information in the other station empty channel information table 9 (step S5). As a result, the other station free channel information table 9 newly stores the current channel ID number of the other station, and the other station free channel information table 9 is updated.

  In this way, the vacant channel information of the own station and other stations is acquired at regular time intervals, and the stored contents of the own station vacant channel information table 7 and other station vacant channel information table 9 based on the obtained vacant channel information. Are updated at regular time intervals.

Next, with reference to FIG. 3, an operation for assigning a channel to the mobile terminal T without using slot multiplexing will be described.
First, the base station apparatus BS1 collects free channel information (steps S1 to S5 shown in FIG. 2). Then, the signal processing unit 2 determines whether or not there is a link channel establishment request from the mobile terminal T to the own station (base station apparatus BS1) (step S6). If there is no link channel establishment request from the mobile terminal T, the processes in steps S1 to S5 are repeated, and the stored contents of the local station free channel information table 7 and the other station free channel information table 9 are updated at regular time intervals. . On the other hand, if there is a link channel establishment request from the mobile terminal T, the signal processing unit 2 requests the free channel information notification unit 10 to notify the free channel information.

  The vacant channel information notifying unit 10 refers to the own station vacant channel information table 7 and determines whether there is an vacant channel in the own station (step S7). As a result, if there is a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the free channel. In response to this, the signal processing unit 2 assigns the channel having the notified channel identification number as a link channel to the mobile terminal T (step S8). In response, the mobile terminal T sets up a call using the notified channel.

  On the other hand, when there is no empty channel of the own station, the empty channel information notifying unit 10 refers to the other station empty channel information table 9 and searches for the empty channel information of the other station (step S9). Is determined (step S10). As a result, if there is no base station apparatus having a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 that there is no free channel. In response to this, the signal processing unit 2 notifies the mobile terminal T of the link channel assignment refusal (step S11).

  If there is a base station apparatus having an empty channel, the empty channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the base station apparatus having an empty channel and the identification number of the empty channel. To do. At this time, when there are empty channels in a plurality of base station apparatuses, the empty channel information notification unit 10 refers to the priority definition table 11 and selects an empty channel. In the priority order definition table 11, the order of base station apparatuses that are close to the physical distance from the own station are defined in advance. Subsequently, the signal processing unit 2 sends a base station-designated calling instruction including the notified base station apparatus identification number and free channel identification number to the mobile terminal T (step S12). In response, the mobile terminal T sets up a call using the notified channel.

Next, with reference to FIG. 4, an operation of assigning a channel to the mobile terminal T using the slot multiplexing processing by the slot multiplexing processing unit 4 will be described.
First, the base station apparatus BS1 collects free channel information (steps S1 to S5 shown in FIG. 2). Then, the signal processing unit 2 determines whether or not there is a link channel establishment request from the mobile terminal T to the own station (base station apparatus BS1) (step S21). If there is no link channel establishment request from the mobile terminal T, the processes in steps S1 to S5 are repeated, and the stored contents of the local station free channel information table 7 and the other station free channel information table 9 are updated at regular time intervals. . On the other hand, if there is a link channel establishment request from the mobile terminal T, the signal processing unit 2 requests the free channel information notification unit 10 to notify the free channel information.

  The vacant channel information notifying unit 10 refers to the own station vacant channel information table 7 and determines whether there is an vacant channel in the own station (step S22). As a result, if there is a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the free channel. In response to this, the signal processing unit 2 assigns the channel having the notified channel identification number as a link channel to the mobile terminal T (step S25). In response, the mobile terminal T sets up a call using the notified channel.

  On the other hand, when there is no empty channel of the own station, the empty channel information notification unit 10 notifies the signal processing unit 2 that there is no empty channel of the own station. In response to this, the signal processing unit 2 requests the slot multiplexing processing unit 4 to establish slot multiplexing processing. In response to this, the slot multiplex processing unit 4 determines whether or not multiplex processing can be established for the slot of each channel of the own station (step S23). As a result, if slot multiplexing processing is possible, the slot multiplexing processing unit 4 executes slot multiplexing processing (step S24), and notifies the signal processing unit 2 of the channel obtained by this multiplexing processing. In response to this, the signal processing unit 2 assigns the notified channel by multiplexing processing to the mobile terminal T as a link channel (step S25). In response, the mobile terminal T sets up a call using the notified channel.

  Next, when the multiplexing process cannot be established for the slot of each channel of the own station, the slot multiplexing processing unit 4 notifies the signal processing unit 2 that the slot multiplexing process cannot be performed. In response to this, the signal processing unit 2 requests the free channel information notification unit 10 to notify the free channel information of other stations. Subsequently, the vacant channel information notifying unit 10 searches the vacant channel information of the other station with reference to the other station vacant channel information table 9 (step S26), and determines whether there is an vacant channel of the other station (step S27). ). As a result, if there is no base station apparatus having a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 that there is no free channel. In response to this, the signal processing unit 2 notifies the mobile terminal T of the rejection of link channel assignment (step S28).

  If there is a base station apparatus having an empty channel, the empty channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the base station apparatus having an empty channel and the identification number of the empty channel. To do. At this time, when there are empty channels in a plurality of base station apparatuses, the empty channel information notification unit 10 refers to the priority definition table 11 and selects an empty channel. Subsequently, the signal processing unit 2 sends a base station-designated calling instruction including the notified base station apparatus identification number and free channel identification number to the mobile terminal T (step S29). In response, the mobile terminal T sets up a call using the notified channel.

Next, an operation for assigning a channel to the mobile terminal T during the slot multiplexing process will be described with reference to FIG.
First, the slot multiplex processing unit 4 collects information on the multiplex slot establishment state, which is channel establishment information, from the signal processing unit 2 during the slot multiplex processing (step S31). The information collected here is information such as the reception level, the correlation with the multiplexing target channel, the frame error rate, and the phase. Subsequently, the slot multiplexing processing unit 4 compares the collected established state value with a predetermined threshold value, and determines whether or not slot multiplexing can be maintained (step S32). As a result, if it can be maintained, the slot multiplexing process is continued while repeating the information collecting process.

  On the other hand, when it is determined that the slot multiplexing processing cannot be maintained, the slot multiplexing processing unit 4 determines whether other slot multiplexing processing within the own station is possible (step S33). As a result, if possible, the slot multiplexing processing unit 4 determines whether or not slot remultiplexing establishment is possible (step S34). As a result, when it is determined that the slot remultiplexing process is possible, the slot multiplexing processing unit 4 instructs the signal processing unit 2 to switch channels (step S35). Thereby, in the signal processing unit 2, the channel switching process is executed, and the slot multiplexing process is continued (step S36).

  When the multiplexing process cannot be performed on another slot of the own station in step S33 and when the slot re-multiplexing cannot be established in step S34, the signal processing unit 2 notifies the empty channel information notification unit 10 of the other station. Request notification of free channel information. In response to this, the vacant channel information notifying unit 10 searches the vacant channel information of the other station with reference to the vacant channel information table 9 of the other station (step S36), and determines the presence / absence of the vacant channel of the other station ( Step S37). As a result, if there is no base station apparatus having a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 that there is no free channel. In response to this, the signal processing unit 2 notifies the slot multiplexing processing unit 4 that there is no free channel of another station. The slot multiplexing processing unit 4 executes the process of step S33 again and repeats the process.

  On the other hand, if there is a base station device having an empty channel, the empty channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the base station device having an empty channel and the identification number of the empty channel. To do. At this time, when there are free channels in a plurality of base station apparatuses, the free channel information notification unit 10 refers to the priority definition table 11 and selects a free channel. Subsequently, the signal processing unit 2 sends a handover instruction with base station designation including the notified identification number of the base station apparatus and the identification number of the free channel to the mobile terminal T (step S38). In response, the mobile terminal T performs handover using the notified channel.

Next, with reference to FIG. 6, an operation of selecting a channel based on channel establishment information and base station information and notifying the mobile terminal when there are a plurality of empty channels will be described.
First, the base station apparatus BS1 collects free channel information (steps S1 to S5 shown in FIG. 2). Then, the signal processing unit 2 determines whether or not there is a link channel establishment request from the mobile terminal T to the own station (base station apparatus BS1) (step S42). If there is no link channel establishment request from the mobile terminal T, the processes in steps S1 to S5 are repeated, and the stored contents of the local station free channel information table 7 and the other station free channel information table 9 are updated at regular time intervals. . On the other hand, if there is a link channel establishment request from the mobile terminal T, the signal processing unit 2 requests the free channel information notification unit 10 to notify the free channel information.

  The vacant channel information notifying unit 10 refers to the own station vacant channel information table 7 and determines whether there is an vacant channel in the own station (step S43). As a result, if there is a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the free channel. In response to this, the signal processing unit 2 assigns the channel having the notified channel identification number as a link channel to the mobile terminal T (step S51). In response, the mobile terminal T sets up a call using the notified channel.

  On the other hand, when there is no empty channel of the own station, the empty channel information notification unit 10 notifies the signal processing unit 2 that there is no empty channel of the own station. In response to this, the signal processing unit 2 requests the slot multiplexing processing unit 4 to establish slot multiplexing processing. In response to this, the slot multiplexing processing unit 4 determines whether or not the multiplexing process can be established for the slot of each channel of the own station (step S44). As a result, if slot multiplexing processing is possible, the signal processing unit 2 requests the empty channel information notification unit 10 to notify the empty channel information of other stations. Subsequently, the vacant channel information notifying unit 10 searches the vacant channel information of the other station with reference to the other station vacant channel information table 9 (step S45), and determines the presence / absence of the vacant channel of the other station (step S46). ). As a result of this search, if there is no empty channel in the other station, the signal processing unit 2 notifies the slot multiplexing processing unit 4 that there is no empty channel in the other station. In response to this, the slot multiplexing processing unit 4 executes slot multiplexing processing (step S50), and notifies the signal processing unit 2 of the channel obtained by this multiplexing processing. In response to this, the signal processing unit 2 assigns the notified channel by multiplexing processing to the mobile terminal T as a link channel (step S51). In response, the mobile terminal T sets up a call using the notified channel.

  Next, when there is an empty channel of another station, the signal processing unit 2 transmits a request for base station information to the mobile terminal T (step S47). The signal processing unit 2 receives the base station information transmitted from the mobile terminal T in response to this request. The base station information here is a frame error rate and a reception level when the mobile terminal T receives information transmitted by each of the base station apparatuses BS1, BS2, and BS3. Subsequently, the signal processing unit 2 acquires channel establishment information of a channel on which slot multiplexing processing is to be performed. The channel establishment information is information such as a reception level, a correlation with a multiplexing target channel, a frame error rate, and a phase. Then, the signal processing unit 2 scores the acquired channel establishment information and base station information (step S48).

  Base station information is scored for each item of information in advance, for example, reception level 70 dB = 5 points, 40 dB = 3 points,..., Frame error rate 0% = 5 points, 30% = 2 points,. A score is determined for the acquired information, and the obtained information is given a corresponding score to obtain a total value. For channel establishment information, points are determined in advance for each item of information (reception level, correlation with multiplexing target channel, frame error rate, phase, etc.), and the acquired information On the other hand, the corresponding score is given and the total value is obtained. As a result, the channel establishment information of the channels that can be slot multiplexed and the base station information acquired from the mobile terminal T are scored.

  Next, the signal processing unit 2 compares the channel establishment information points (scoring points) with the base station information points (scoring points) (step S49). At this time, the signal processing unit 2 uses the channel establishment information point of the channel having the highest point among all the channel establishment information points of all channels that can be slot multiplexed, and all the base stations acquired from the mobile terminal T. Comparison is made with the base station information point of the channel with the highest point among the information points. As a result of this size comparison, if the channel establishment information point is larger than the base station information point, the signal processing unit 2 requests the slot multiplexing processing unit 4 to perform slot multiplexing processing. In response to this, the slot multiplexing processing unit 4 executes slot multiplexing processing (step S50), and notifies the signal processing unit 2 of the channel obtained by this multiplexing processing. In response to this, the signal processing unit 2 assigns the notified channel by multiplexing processing to the mobile terminal T as a link channel (step S51). In response, the mobile terminal T sets up a call using the notified channel.

  On the other hand, if the channel establishment information point is smaller than the base station information point as a result of the size comparison, the signal processing unit 2 identifies the channel with the highest point among all the base station information points acquired from the mobile terminal T. A base station designation call instruction including the number and the identification number of the base station apparatus is transmitted to the mobile terminal T (step S54). In response, the mobile terminal T sets up a call using the notified channel.

  Next, when the multiplexing process cannot be established for the slot of each channel of the own station, the slot multiplexing processing unit 4 notifies the signal processing unit 2 that the slot multiplexing process cannot be performed. In response to this, the signal processing unit 2 requests the free channel information notification unit 10 to notify the free channel information of other stations. Subsequently, the vacant channel information notifying unit 10 searches the vacant channel information of the other station with reference to the other station vacant channel information table 9 (step S52), and determines whether there is an vacant channel of the other station (step S53). ). As a result, if there is no base station apparatus having a free channel, the free channel information notification unit 10 notifies the signal processing unit 2 that there is no free channel. In response to this, the signal processing unit 2 notifies the mobile terminal T of the rejection of link channel assignment (step S55).

  If there is a base station apparatus having an empty channel, the empty channel information notification unit 10 notifies the signal processing unit 2 of the identification number of the base station apparatus having an empty channel and the identification number of the empty channel. To do. Subsequently, the signal processing unit 2 sends a base station-designated calling instruction including the notified base station apparatus identification number and free channel identification number to the mobile terminal T (step S54). In response, the mobile terminal T sets up a call using the notified channel.

  In this way, when there is no free channel in the own station, the mobile terminal T is notified of the free channel of the other station, so that efficient channel allocation to the mobile terminal T is possible, and the call The probability that the setting can be made can be improved.

The mobile terminal T includes base station information means for periodically acquiring base station information such as reception levels and frame error rates of the base stations BS1, BS2, and BS3, and base station information for storing the base station information. A base station that has storage means, transmits base station information stored at the time of the link establishment request during operation shown in FIG. 3 or 4 to the base station apparatus that requests the link establishment, and receives the link establishment request The apparatus may refer to the received base station information and instruct the mobile terminal T to make a call by designating the base station apparatus that establishes the link.
Further, the idle channel information may be transmitted and received between the base station apparatuses by using a dedicated channel.

  Further, the program for realizing the function of the processing unit in FIG. 1 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into the computer system and executed to execute channel assignment processing. You may go. Here, the “computer system” includes an OS and hardware such as peripheral devices. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.

  The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

It is a block diagram which shows the structure of the base station apparatus in one Embodiment of this invention. 3 is a flowchart showing an operation of the base station apparatus shown in FIG. 3 is a flowchart showing an operation of the base station apparatus shown in FIG. 3 is a flowchart showing an operation of the base station apparatus shown in FIG. 3 is a flowchart showing an operation of the base station apparatus shown in FIG. 3 is a flowchart showing an operation of the base station apparatus shown in FIG. It is a block diagram which shows the structural example of the whole mobile communication system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Transmission / reception part 2 ... Signal processing part 3 ... Switching network connection part 4 ... Slot multiplexing processing part 5 ... Empty channel search part 6 ... Empty channel information transmission part 7 ... Own station vacant channel information table 8 ... Empty channel information receiving unit 9 ... Other station vacant channel information table 10 ... Empty channel information notifying unit 11 ... Priority order definition table BS1 to BS3 ... Base station Equipment T ... Mobile terminal

Claims (9)

A mobile communication system comprising a plurality of base station devices,
Search means for periodically searching for free channels of each base station device to obtain free channel information;
Information sharing means for notifying the free channel information to other base station devices and sharing mutual free channel information;
A mobile communication system comprising: empty channel information notifying means for notifying a mobile terminal of empty channel information of another base station apparatus based on the shared empty channel information. Multi-processing means for establishing slot multi-processing in each channel of its own station,
The empty channel information notification means includes:
As a result of the search by the search means, when there is no free channel of the local station and slot multiplexing by the multiplexing processing means is impossible, another base station is based on the shared free channel information. The mobile communication system according to claim 1, wherein the mobile channel information is notified to the mobile terminal. Multi-processing means for establishing slot multi-processing in each channel of its own station,
As a result of the search by the search means, when there is no empty channel of the own station and slot multiplexing by the multiplexing processing means is possible, when there are a plurality of empty channels including other base station devices,
The mobile terminal transmits base station information representing a communication status between the mobile terminal and the base station apparatus to the base station apparatus,
The base station apparatus selects an empty channel based on a predetermined priority based on channel establishment information which is a condition for slot multiplexing with the base station information, and notifies the mobile terminal of the selected channel. The mobile communication system according to claim 1. Search means for periodically searching for free channels and obtaining free channel information,
Information sharing means for transmitting the free channel information to other base station devices, receiving the free channel information of other base station devices, and sharing mutual free channel information;
A base station apparatus comprising: empty channel information notification means for notifying a mobile terminal of empty channel information of another base station apparatus based on the shared empty channel information. Multi-processing means for establishing slot multi-processing in each channel of its own station,
The empty channel information notification means includes:
As a result of the search by the search means, when there is no free channel of the local station and slot multiplexing by the multiplexing processing means is impossible, another base station is based on the shared free channel information. The base station apparatus according to claim 4, wherein the vacant channel information of the apparatus is notified to the mobile terminal. Multi-processing means for establishing slot multi-processing in each channel of its own station,
As a result of the search by the search means, when there is no empty channel of the own station and slot multiplexing by the multiplexing processing means is possible, and there are a plurality of empty channels including other base station devices,
Based on the channel establishment information, which is a condition for receiving the base station information indicating the communication status between the mobile terminal and the base station apparatus including the own station from the mobile terminal and slot multiplexing with the base station information The base station apparatus according to claim 4, wherein an empty channel is selected based on a predetermined priority order and notified to the mobile terminal. A mobile communication method in a mobile communication system comprising a plurality of base station devices,
A search process of periodically searching for free channels of each base station device to obtain free channel information,
An information sharing process of notifying the idle channel information to other base station devices and sharing the idle channel information with each other,
Based on the shared free channel information, a free channel information notification process of notifying the mobile terminal of free channel information of another base station device;
A multi-processing process for establishing slot multi-processing in each channel of the own station;
The empty channel information notification process includes:
As a result of the search in the search process, when there is no free channel of the local station and slot multiplexing by the multiplexing process is not possible, another base station is based on the shared free channel information. A mobile communication method characterized by notifying a mobile terminal of empty channel information of a device. A mobile communication method in a mobile communication system comprising a plurality of base station devices,
A search process of periodically searching for free channels of each base station device to obtain free channel information,
An information sharing process of notifying the idle channel information to other base station devices and sharing the idle channel information with each other,
Based on the shared free channel information, a free channel information notification process of notifying the mobile terminal of free channel information of another base station device;
A multi-processing process for establishing slot multi-processing in each channel of the own station is provided,
As a result of the search by the search process, when there is no free channel of the own station and slot multiplexing by the multiplexing process is possible, when there are a plurality of free channels including other base station devices,
The mobile terminal transmits base station information representing a communication status between the mobile terminal and the base station apparatus to the base station apparatus,
The base station apparatus selects an empty channel based on a predetermined priority based on channel establishment information which is a condition for slot multiplexing with the base station information, and notifies the mobile terminal of the selected channel. Mobile communication method. A mobile terminal used in a mobile communication system including a plurality of base station devices,
Search means for periodically searching for free channels in each base station apparatus to acquire free channel information, and information sharing means for notifying the free channel information to other base station apparatuses and sharing mutual free channel information And, based on the shared free channel information, the free channel notified from the base station device provided with free channel information notifying means for notifying the mobile terminal of free channel information of another base station device. A mobile terminal that makes a call by designating a base station apparatus based on information.

Images