JP2010172044A - Communication control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication control method which changes a temporarily set transmission rate of communication data as needed. <P>SOLUTION: The communication control method for controlling wireless communication to be performed between a base station and a mobile station belonging to the inside of radio coverage of the base station, includes: a speed notification step for notifying the base station or the mobile station about a communication speed between the base station and the mobile station; a timing notification step for notifying the base station or the mobile station about timing to switch the communication speed between the base station and the mobile station to the notified communication speed; and a speed switching step for switching the communication speed between the base station and the mobile station to the notified communication speed in the notified timing. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a communication control method for setting an asymmetric data communication channel in which a transmission rate of communication data transmitted from a mobile station to a base station is different from a transmission rate of communication data transmitted from the base station to the mobile station.

  FIG. 15 is a block diagram showing a conventional mobile communication system disclosed in, for example, Patent Document 1. In FIG. 15, 1 is a mobile station mounted on a movable automobile or the like, and 2 is communication data having a low transmission rate. Is a low-speed transmission means for transmitting data to the base station 5, 3 is a high-speed reception means for receiving communication data having a high transmission rate from the base station 5, 4 is an uplink of a data communication channel, and 5 is a mobile station 1 belonging to the radio coverage area. A base station that wirelessly communicates with the mobile station 1, a low-speed receiving means that receives low-speed communication data from the mobile station 1, a high-speed transmission means that transmits high-speed communication data to the mobile station 1, and 8 It is the downlink of the communication channel.

Next, the operation will be described.
For example, when the mobile station 1 needs to transmit communication data to a communication device (not shown) connected to the public communication network, the mobile station 1 receives the control channel of the base station 5 and is assigned to the mobile station 1 Place a call through the control channel.

  That is, the mobile station 1 transmits control information necessary for wireless communication through the control channel (for example, when transmitting communication data to the base station 5, it transmits at a low transmission rate but receives communication data from the base station 5. In this case, information indicating that communication data having a high transmission rate is received) is transmitted to the base station 5.

  When the control information is transmitted from the mobile station 1, the base station 5 transfers the control information transmitted from the mobile station 1 to a mobile switching station (not shown), and the mobile switching station or the like Is accepted, the base station 5 notifies that the intention is accepted through the control channel.

  Thereby, the transmission rate of communication data transmitted from the mobile station 1 to the base station 5 is set to a low transmission rate, and the transmission rate of communication data transmitted from the base station 5 to the mobile station 1 is set to a high transmission rate. Thus, asymmetric wireless communication in which the transmission rates of the uplink 4 and the downlink 8 are different is realized.

Japanese Patent Application Laid-Open No. 8-331115

  Since the conventional mobile communication system is configured as described above, it is possible to realize asymmetric radio communication in which the transmission rates of the uplink 4 and the downlink 8 are different, but once the transmission rate of communication data is set After that, since there is no means for changing the transmission rate of communication data, even if the data amount fluctuates as time passes, it cannot be changed to a transmission rate commensurate with the data amount. There was a problem.

  The present invention has been made to solve the above-described problems, and provides a communication control method capable of appropriately changing the communication data transmission rate once the communication data transmission rate has been set. With the goal.

  A communication control method according to the present invention is a communication control method for controlling radio communication performed between a base station and a mobile station belonging to a radio coverage area of the base station, wherein the base station and the mobile station A speed notification step for notifying the base station or the mobile station of a communication speed between the base station and the mobile station, and a timing at which the communication speed between the base station and the mobile station should be switched to the communication speed notified. A timing notification step of notifying a station or the mobile station, and a speed switching step of switching the communication speed between the base station and the mobile station to the notified communication speed at the notified timing. It is characterized by.

  According to this invention, the base station or the mobile station is notified of the communication speed between the base station and the mobile station belonging to the radio coverage of the base station, and the base station and the mobile station Is notified to the base station or the mobile station, and at the notified timing, the communication speed between the base station and the mobile station is set to the notified communication speed. Since switching is performed, there is an effect that the transmission rate can be changed quickly and reliably.

It is a block diagram which shows the mobile communication system by Embodiment 1 of this invention. It is a data block diagram which shows the structure of the time slot for PCS and cellular by time division CDMA, high-speed TDMA, low-speed TDMA, etc. It is a state transition diagram of a mobile communication system. It is a flowchart explaining operation | movement of the mobile communication system by Embodiment 1 of this invention. It is a block diagram which shows the detail of the mobile switching center of the mobile communication system by Embodiment 2 of this invention. It is a state transition diagram explaining the control subject of a mobile communication system. It is a transmission flowchart which shows the mobile communication system by Embodiment 3 of this invention. It is a table | surface figure which shows the content of the mobile station information memory in which the transmission speed and speed switching time which each mobile station can handle were memorize | stored. It is a transmission flow figure which shows the mobile communication system by Embodiment 4 of this invention. It is a transmission flowchart which shows the mobile communication system by Embodiment 5 of this invention. It is a flowchart which shows the confirmation process before a hand-over. It is a transmission flowchart which shows the mobile communication system by Embodiment 6 of this invention. It is a transmission flowchart which shows the mobile communication system by Embodiment 7 of this invention. It is a flowchart which shows a transmission power confirmation process. It is a block diagram which shows the conventional mobile communication system.

Embodiment 1 FIG.
1 is a block diagram showing a mobile communication system according to Embodiment 1 of the present invention. In the figure, 11 is a database (communication device) connected to the public communication network 12, 12 is a public service telephone network (PSTN), 13, 14, and 15 are switching stations belonging to the PSTN 12, and 16 to 22 are automobiles. Or the like, or a semi-fixed WLL (Wireless Local Loop) station. These communication devices are hereinafter referred to as mobile stations. 23 to 26 are base stations that exchange control information necessary for wireless communication with a mobile station 16 and the like belonging to a wireless coverage area through a control channel, and transmit and receive communication data including audio data and image data through a data communication channel , 23a is a radio coverage area of the base station 23, 24a is a radio coverage area of the base station 24, 25a is a radio coverage area of the base station 25, 26a is a radio coverage area of the base station 26, and 27, 28, and 29 are connected to the PSTN 12 The control information necessary for data communication is received from the database 11 and the control information transmitted from the mobile station 16 or the like is received through the base station 23 or the like. 11 is a mobile switching center that sets a transmission speed of communication data transmitted and received between the mobile stations.

Next, the operation will be described.
First, the subscriber number, user ID, billing, authentication, etc. in the mobile communication system are control information that does not depend on the characteristics of the communication medium.
On the other hand, the allowable transmission speed and speed switching time of user terminals (mobile station 16 and database 11 etc.) vary greatly depending on the settings of each user terminal and system.
Hereinafter, in this specification, the former is not particularly mentioned, and handling of a transmission rate and the like depending on the characteristics of the communication medium will be described in detail.

  First, as shown in FIG. 1, the mobile switching center 27 and the like that control the base station 23 and the like are wired to the PSTN 12, but the mobile station 16 and the base station 23 and the like have a modulation scheme based on a digital modulation scheme. Control signal etc. are used to transmit and receive, frequency division division access / time division duplex communication method (FDMA / TDD method), code division multiple access / time division bidirectional communication method (Code Division) Multiple Access / Time Division Duplex (CDMA / TDD), Multi-Carrier-Time Division Multiple Access / Frequency Division Duplex (TDMA / FDD), TDMA / TDD Wireless connection is made using a time division CDMA / FDD system or a time division CDMA / TDD system.

  Here, FIG. 2 is a diagram showing the configuration of time slots for PCS (Personal Communication System) and cellular for time division CDMA. In the figure, # 41-0 to # 3 are PCS time slots, and # 47-T1 / R1 and T2 / R2 are cellular time slots.

Also, time slot # 44-T0 / R0 for TDMA medium-speed data communication, time slot # 51-T0 / R0, T1 / R1, T2 / R2, T3, T7A for TDMA high-speed data communication, and time division CDMA high-speed A time slot # 52-T7C for data communication is shown.
However, other low-speed TDMA time slots (marked with *) are examples used as voice data, low-speed data, or control channels.

  In FIG. 2, the downlink time slots are five slots T0, T1, T2, T3, and T7, while the uplink time slots are three slots R0, R1, and R2, which are asymmetric time-division bidirectional. It constitutes a communication system (TDD system).

  Next, the state transition of the radio channel between the mobile station 16 etc. and the base station 23 etc. will be described using the state transition diagram of FIG. 3 and the flowchart of FIG. 4 (however, the mobile station wirelessly connected to the base station When there are a plurality of state transition diagrams as in FIG. 3, there are as many state transition diagrams as the number of mobile stations. Here, for convenience of explanation, state transitions between the mobile station 16 and the base station 23 will be described).

  First, when the mobile station 16 makes a call, in the state J1, the mobile station 16 receives the control channel transmitted by the base station 23 and wirelessly transmits it through the time slot in the control channel assigned to the mobile station 16. A connection is requested (step ST1).

  When a request for wireless connection is transmitted from the mobile station 16, the mobile switching center 27 receives the request for wireless connection via the base station 23, determines whether the wireless connection is good, and determines whether the mobile station 16 and the base station A call channel is set between the terminals 23 (step ST2).

  On the other hand, when the base station 23 makes a call (the call of the base station 23 is a call accompanying the call of the database 11), in the state J1, the base station 23 uses a broadcast channel in the control channel. Then, the telephone number of the mobile station 16 designated from the database 11 is transmitted (step ST3).

  When the mobile station 16 that has received the telephone number of the local station responds to the base station 23 through the designated control channel, the mobile switching center 27 communicates between the mobile station 16 and the base station 23 with a call channel or a low-speed data channel. Is set (step ST4).

  However, the mobile switching center 27 receives control information necessary for wireless communication from the mobile station 16 through the control channel when setting the call channel. For example, information such as a transmission rate that can be handled by the mobile station 16 is received.

  When a call channel is set between the mobile station 16 and the base station 23, the online operator of the PSTN 12 receives the mobile station ID from the mobile station 16 through the FACCH (Fast Access Control Channel) of the call channel, and the mobile station 16 Authentication or the like is performed (step ST5).

  When the mobile station 16 is authenticated by the online operator of the PSTN 12, the mobile switching center 27 sets a data communication channel between the mobile station 16 and the base station 23 (steps ST6 and ST7), and transitions from the state J1 to the state J2. To do.

  As a result, transmission / reception of communication data between the mobile station 16 and the database 11 is started. Initially, the database 11 is used to confirm whether the mobile station 16 has the capability of processing communication data or the like. Start preliminary communication.

  In the case of such preliminary communication, since the transmission amount of communication data is small, the communication data is transmitted from the uplink (transmission path for transmitting communication data from the mobile station 16 to the database 11) and the downlink (from the database 11 to the mobile station 16). The transmission speed of the transmission line) is normally set in the range of low-speed data transmission (less than 19.6 Kbps).

  However, although the uplink and downlink transmission paths are both set within the range of low-speed data transmission, the uplink and downlink transmission rates do not necessarily match, and the uplink transmission rate is set to 8 Kbps, for example. . On the other hand, the downlink transmission speed may be set to 2 Kbps (asymmetric wireless communication setting).

  If high-speed data transmission or medium-speed data transmission is necessary from the beginning, the transmission speed is set within the high-speed data transmission range (200 Kbps or more) or medium-speed data transmission range (19.6 Kbps or more, less than 200 Kbps). Sometimes it is done.

  In this way, the transmission speed of the data communication channel that wirelessly connects the mobile station 16 and the base station 23 is set, and transmission / reception of communication data is started. However, the amount of communication data is not always constant, and the passage of time Accordingly, the amount of data may fluctuate, and at the initially set transmission speed, there may be a failure such that communication data cannot be transmitted in a short time.

  Therefore, in the first embodiment, after the transmission rate of communication data is once set, if the mobile station 16 or the database 11 requests the transmission rate to be changed, the mobile switching center 27 will handle it. The uplink transmission rate and the downlink transmission rate are independently changed in consideration of the transmission rate that can be transmitted and the current free data communication channel conditions.

  J3 to J8 indicate a state in which the mobile switching center 27 changes the transmission rate of the uplink and the downlink in response to a request from the mobile station 16 or the database 11, but the intermittent data transmission in J6 to J8 Refers to data transmission in which a wireless connection between the mobile station 16 and the base station 23 is maintained, but there is a time slot during which no communication data is transmitted. If the transition to intermittent data transmission is recognized, there is a merit that the communication fee can be reduced if the connection fee is charged only at the time of transmission of the communication data. Then, there is an effect that the base station 23 can release the data communication channel.

  As described above, according to the first embodiment, in response to a request from the mobile station 16 or the database 11 or the database 11, the mobile switching center 27 transmits the communication data transmitted from the mobile station 16 or the like to the database 11 or the database 11 moves. Since the transmission rate of the communication data transmitted to the station 16 etc. is changed separately and independently, the data amount of the communication data to be transmitted from the mobile station 16 etc. to the database 11 once the communication data transmission rate is set once Alternatively, even if the data amount of communication data transmitted from the database 11 to the mobile station 16 or the like varies, there is an effect that the transmission rate can be appropriately changed to the transmission rate corresponding to the data amount. Therefore, there is an effect that a multimedia wireless environment can be created.

Embodiment 2. FIG.
FIG. 5 is a configuration diagram showing details of the mobile switching center of the mobile communication system according to the second embodiment of the present invention. In the figure, 31 is a PSTN interface, 32 is a speech path switching unit, and 33 is a high-speed data transmission. A high-speed data memory device that functions as a buffer for communication data, 34 stores a data number management processor, 35 stores a transmission rate that can be handled by the mobile station 16 and the like, and sets a speed switching time of the mobile station 16 and the like. In addition, the mobile station information memory 35 stores vehicle travel speed information, vehicle travel speed release information, and the like.

  When there are a plurality of mobile stations that transmit and receive communication data via the base station 23 and the like, 36 is a transition state control processor that manages transmission speed state transitions for each mobile station, and 37 is a mobile switching center 27. Priority control processor for managing the data communication channel setting action by the network operator, the authentication action of the mobile station 16 and the like by the network operator and the transmission speed changing action by the mobile switching center 27, and 38 when the transmission speed change request is output When the vehicle speed information or the vehicle speed cancellation information is stored in the mobile station information memory 35, the time slot is changed so that the guard time of the data communication channel matches the speed of the mobile station 16 etc. A system setting processor 39, a signaling processor 39, and a base station interface 40. 5 shows the configuration of the mobile switching center 27, the configuration of the mobile switching centers 28 and 29 is the same.

Next, the operation will be described.
In the first embodiment, the configuration of the mobile switching center 27 or the like is not particularly mentioned, but the mobile switching center 27 or the like is configured as shown in FIG. 5, and data for changing the transmission rate of communication data. In the speed change process, as shown in FIG. 6, the mobile switching center and the base station serve as a window for receiving a transmission speed change request from the mobile station 16 or the database 11 or the database 11, and the mobile switching center 27 etc. Responsible for control.

  In addition, among the mobile switching centers 27 and the like, in particular, the system setting processor 38 executes a process of accepting a transmission rate change request, and sets the transmission rate so that the transmission rate of communication data matches the requested rate.

  The database 11 stores a large amount of data such as geology and crust as in the case of the Geophysical Laboratory, and receives a large amount of data and a function for transmitting the large amount of data. In the case of having a function to do this, the database 11 may transmit and receive a large amount of data with the mobile station 16 or the like.

  However, when a large amount of data is transmitted, if a large amount of data is simply transmitted without managing the transmission speed or the like, the transmission capability of the mobile station 16 or the database 11 or the database 11 is not fully exhibited, and the data transmission time is longer than necessary. This may cause a problem that the length becomes longer.

  Therefore, in such a case, the mobile switching center accepts a transmission rate change request from the mobile station or database 11 and changes the transmission rate, so that the transmission capability of the mobile station or database 11 can be fully exhibited. There is an effect.

Embodiment 3 FIG.
FIG. 7 is a transmission flow diagram showing a mobile communication system according to Embodiment 3 of the present invention. FIG. 8 is a table showing the contents of the mobile station information memory 35 in which the transmission speed and speed switching time that can be handled by each mobile station are stored.

Next, the operation will be described.
First, when the mobile station 16 enters the wireless coverage area 23a of the base station 23 (this embodiment 3 will be described by taking the mobile station 16 as an example), the mobile station 16 sends a location registration request through the control channel to the base station. 23 (P1).

  When receiving the location registration request from the mobile station 16, the base station 23 performs location registration of the mobile station 16 and transmits the location registration request to the mobile switching center 27 (P1).

  When the mobile switching center 27 receives a location registration request from the base station 23, the mobile switching center 27 sends a signal requesting to report information indicating a transmission rate (hereinafter referred to as “transmission rate”) that can be handled by the mobile station and a rate switching time. It transmits to the mobile station 16 via the base station 23 (P2).

  Thereby, when the mobile station 16 transmits the transmission rate and the speed switching time to the mobile switching center 27 via the base station 23 (P3), the mobile switching center 27 transmits the transmission rate and the speed switching time transmitted from the mobile station 16. Is stored in the mobile station information memory 35, and the transmission rate of the mobile station 16 is registered (see FIG. 8).

  When the transmission rate of the mobile station 16 is registered in this way, the database 11 or the mobile station 16 makes a call (the call includes information indicating the transmission rate required by the caller) ( P4, P5), the mobile switching center 27 selects a transmission rate required by the calling party among the transmission rates stored in the mobile station information memory 35, and uses the transmission rate information as the base station 23 and the mobile station. 16 is notified (P6, P7).

  Further, when the mobile switching center 27 notifies the base station 23 and the mobile station 16 of the information on the transmission rate, the mobile switching center 27 counts the time starting from the time of the notification, and the time is stored in the mobile station information memory 35. When the speed switching time is reached, the switching timing information is notified to the base station 23 and the mobile station 16 (P9, P10). Here, the mobile switching center 27 counts the time and notifies the switching timing information. However, the base station 23 counts the time according to an instruction from the mobile switching center 27, and the switching timing information is sent to the mobile station 16. May be notified.

  When the switching timing information is notified from the mobile switching center 27, the base station 23 and the mobile station 16 start transmission / reception of communication data at a transmission rate corresponding to the previously notified transmission rate information (P11, P12).

  In this way, transmission / reception of communication data is started. If a transmission rate change request is transmitted from the database 11 or the mobile station 16 during communication data communication (P13, P14), the change request is handled. The transmission rate to be transmitted is selected from the transmission rates stored in the mobile station information memory 35, and information on the transmission rate is notified to the base station 23 and the mobile station 16 (P15, P16).

  Further, when the mobile switching center 27 notifies the base station 23 and the mobile station 16 of the information on the transmission rate, the mobile switching center 27 counts the time starting from the time of the notification, and the time is stored in the mobile station information memory 35. When the speed switching time is reached, the switching timing information is notified to the base station 23 and the mobile station 16 (P18, P19).

  When the switching timing information is notified from the mobile switching center 27, the base station 23 and the mobile station 16 transmit and receive communication data at a new transmission rate from the time slot in the first frame after receiving the notification. Is resumed (P20, P21).

  In this way, the transmission rate of the communication data is changed. When a request for changing the TDMA guard time is transmitted from the mobile station 16 in accordance with the change of the transmission rate, the mobile switching center 27 makes a new guard. Information indicating time is notified to the base station 23 and the mobile station 16 (P23, P24).

  In addition, when the mobile switching center 27 notifies the base station 23 and the mobile station 16 of information indicating a new guard time, the mobile switching center 27 counts the time from the time of the notification, and the time is designated by the mobile station 16. When it arrives, the base station 23 and the mobile station 16 are notified of the switching timing information (P26, P27).

  When the switching timing information is notified from the mobile switching center 27, the base station 23 and the mobile station 16 resume transmission / reception of communication data using a new guard time (P28, P29).

  As described above, according to the third embodiment, when the mobile station 16 performs location registration, the mobile switching center 27 registers the transmission rate of the mobile station 16 and sets the speed switching time of the mobile station 16. Since the mobile switching center 27 is configured to be registered, the mobile switching center 27 can quickly change the transmission speed or guard time of communication data as necessary.

  In the third embodiment, the TDMA guard time is changed in accordance with the change in the transmission speed. Specifically, the moving speed is within the walking speed range (for example, less than 4 km / h). In some cases, when it is detected that the moving speed exceeds the walking speed range, a change in guard time is requested by notifying the mobile switching center through the base station of the vehicle traveling speed information indicating that fact. When the moving speed is within the range of the vehicle traveling speed (for example, 4 km / h or more), when it is detected that the traveling speed falls below the range of the vehicle traveling speed, the vehicle traveling speed release information indicating that fact is A change in guard time may be requested by notifying the mobile switching center through the station.

  Then, the vehicle travel speed information and the vehicle travel speed release information are stored in the mobile station information memory 35 of the mobile switching center 27, and when the vehicle travel speed information and the vehicle travel speed release information are stored in the mobile station information memory 35. The system setting processor 38 changes the time slot so that the guard time of the data communication channel matches the walking speed or the vehicle traveling speed.

Embodiment 4 FIG.
FIG. 9 is a transmission flow diagram showing a mobile communication system according to Embodiment 4 of the present invention.

Next, the operation will be described.
First, when the mobile station 16 requests a data transmission request, a data communication channel is set between the mobile station 16 and the base station 23 and transmission / reception of communication data is started in the same manner as in the first embodiment. (Embodiment 4 will also be described taking mobile station 16 as an example).

  However, in the fourth embodiment, when the mobile station 16 requests the database 11 to transmit data (P31), the database 11 notifies the mobile switching center 27 of the amount of communication data, and the mobile station 16 implements the data. The mobile switching center 27 is requested to provide information on the maximum possible transmission rate (P32).

  The mobile switching center 27 determines the transmission rate of the mobile station 16 stored in the mobile station information memory 35 because the maximum possible transmission rate is determined by the transmission performance of the mobile station 16 and the current free data communication channel status. At the same time, the current state of the free data communication channel is checked to determine the maximum transmission rate that can be actually transmitted.

  The mobile switching center 27 determines whether or not the data amount notified from the database 11 can be transmitted within a predetermined time when transmission of communication data is started at the maximum transmission rate that can be actually transmitted. If it is determined that transmission is not possible within a certain time, transmission of communication data is rejected, and notification to that effect is sent to the mobile station 16 and the database 11.

  On the other hand, when it is determined that transmission is possible within a certain time, information indicating the maximum transmission rate is notified to the database 11, the base station 23, and the mobile station 16 (P33, P34, P35).

  When the mobile station 16 notifies the mobile switching center 27 and the database 11 of the ACK signal that acknowledges the change to the maximum transmission rate (P36, P37), the mobile switching center 27 performs the same as in the third embodiment. Then, processing for switching the transmission rate of communication data is executed (P38).

  When the mobile switching center 27 switches the transmission rate of communication data, the database 11 transmits the communication data to the mobile station 16 at the transmission rate (P39).

  Next, when the mobile station 16 transmits a large amount of data to the database 11, the mobile station 16 transmits a data transmission request including the data amount of communication data to the mobile switching center 27 and the database 11 (P40, P41).

  The mobile switching center 27 refers to the transmission rate of the mobile station 16 stored in the mobile station information memory 35, confirms the current free data communication channel status, and determines the maximum transmission rate that can be actually transmitted. decide.

  Then, the mobile switching center 27 determines whether or not the data amount notified from the mobile station 16 can be transmitted within a predetermined time when transmission of communication data is started at the maximum transmission rate that can be actually transmitted. If it is determined that transmission is not possible within a certain time, transmission of communication data is rejected, and notification to that effect is sent to the mobile station 16 and the database 11.

  On the other hand, when it is determined that transmission can be performed within a predetermined time, information indicating the maximum transmission rate is notified to the database 11, the base station 23, and the mobile station 16 (P42, P43, P44).

  Then, when the mobile switching center 27 and the mobile station 16 are notified of the ACK signal that acknowledges the change to the maximum transmission rate from the database 11 (P45, P46), the mobile switching center 27 performs the same as in the third embodiment. Then, processing for switching the transmission rate of communication data is executed (P47).

  When the mobile switching center 27 switches the communication data transmission rate, the mobile station 16 transmits the communication data to the database 11 at the transmission rate (P48).

  As described above, according to the fourth embodiment, when communication data is transmitted from the database 11 or the like to the mobile station 16 or the like, the database 11 or the like notifies the mobile switching center 27 of the data amount of the communication data. Therefore, the mobile switching center 27 can grasp the data amount of the communication data. As a result, when the database 11 or the like transmits a large amount of communication data, the mobile station 16 or the like reliably receives the large amount of communication data. There is an effect that it can be determined whether or not it can be performed.

  Further, when transmission of communication data is started at the maximum transmission rate, it is determined whether or not the amount of data notified from the database 11 or the like can be transmitted within a certain time, and it is determined that transmission cannot be performed within a certain time. In this case, since transmission of communication data is rejected, there is an effect that a communication data reception error can be avoided.

  In the fourth embodiment, the communication data is transmitted from the database 11 to the mobile station 16 and the communication data is transmitted from the mobile station 16 to the database 11. However, the communication data is transmitted from the database 11 to another database. Or when transmitting communication data from the mobile station 16 to another mobile station, the same effects can be obtained.

Embodiment 5 FIG.
FIG. 10 is a transmission flow diagram showing a mobile communication system according to Embodiment 5 of the present invention, and FIG. 11 is a flowchart showing a confirmation process before handover.

Next, the operation will be described.
In the fifth embodiment, for example, handling when the mobile station 16 is handed over by moving from the radio coverage area 24a of the base station 24 to the radio coverage area 23a of the base station 23 will be described.

  First, when there is a handover request from the mobile station 16 or the base station 24 (step ST11), the mobile switching center 27 transmits radio waves transmitted from all base stations 23 and 25 adjacent to the currently connected base station 24. And instructing the mobile station 16 to report the field strength to the mobile switching center 27 (step ST12).

  When the mobile switching center 27 receives the electric field strength of the radio waves transmitted from the adjacent base stations 23 and 25 from the mobile station 16, the mobile switching center 27 compares the electric field strengths with each other and transmits the radio wave having the maximum electric field strength. Are determined as base stations to be switched to (step ST13). However, for convenience of explanation, the following description will be made assuming that the base station 23 is determined as the base station to be switched to.

  Then, when the switching destination base station is determined, the system setting processor 38 of the mobile switching center 27 refers to the stored contents of the mobile station information memory 35 and determines the free data communication channel of the base station 23 that is the switching destination base station. Among them, a data communication channel capable of realizing the maximum transmission rate within the range of the maximum transmission rate that can be implemented by the mobile station 16 is selected (step ST14).

  Then, the transmission rate before switching and the transmission rate after switching are compared (step ST15). If the transmission rate after switching is faster, the handover of the mobile station 16 is performed quickly. As shown, before the transmission rate is switched, the mobile station 16 is handed over (P54). The case where the transmission rate before switching is faster will be described in Embodiment 6.

  When the mobile station 16 is handed over in this way, the system setting processor 38 of the mobile switching center 27 confirms an empty data communication channel again and then selects a data communication channel in the same manner. The maximum transmission rate information is notified to the base station 23 and the mobile station 16 (P55, P56).

  Further, when the mobile switching center 27 notifies the base station 23 and the mobile station 16 of the information on the maximum transmission rate, the mobile switching center 27 counts the time from the notification time point, and the time is stored in the mobile station information memory 35. When the speed switching time is reached, the switching timing information is notified to the base station 23 and the mobile station 16 (P58, P59).

  When the switching timing information is notified from the mobile switching center 27, the base station 23 and the mobile station 16 start transmission / reception of communication data at a transmission rate corresponding to the previously notified information on the maximum transmission rate (P60). , P61).

  As described above, according to the fifth embodiment, the data communication that can realize the maximum transmission rate within the range of the maximum transmission rate that can be performed by the mobile station 16 among the vacant data communication channels of the switching destination base station. Since the channel is selected, each time the mobile station 16 is handed over, the transmission rate of communication data is optimized.

  Further, when the transmission speed is increased when the handover of the mobile station 16 is performed, the handover is performed before the transmission speed is changed, so that the handover of the mobile station 16 can be performed quickly. There is an effect that can be done.

Embodiment 6 FIG.
In the fifth embodiment, the case where the transmission rate is increased when the handover is performed is shown. However, as shown in FIG. 12, when the transmission rate is decreased when the handover is performed, the transmission rate is changed. You may make it implement a hand-over.
Thereby, there is an effect that it is possible to avoid the disconnection of the wireless connection accompanying the handover of the mobile station 16.

Embodiment 7 FIG.
FIG. 13 is a transmission flowchart showing a mobile communication system according to Embodiment 7 of the present invention, and FIG. 14 is a flowchart showing a transmission power confirmation process.

Next, the operation will be described.
In the fifth embodiment, the transmission speed is changed immediately after the handover is performed. For example, in order to double the transmission speed, the transmission power of the transmission side apparatus is doubled (in decibel values). 3db increase), the transmission power may be confirmed after the handover as shown in FIG.

  For example, when communication data is transmitted / received between the mobile station 16 and the base station 23 (step ST21), a free data communication channel higher than the current transmission rate is present in the cell in which the mobile switching center 27 is currently communicating. It is determined whether or not there is (step ST22).

  If there is no free space, this process ends. If there is free space (step ST23), the mobile station information indicates whether the mobile station 16 and the database 11 can execute communication at a higher speed than the current time. Judgment is made by referring to the memory 35 and the like (step ST24).

  When the mobile switching center 27 determines that high-speed communication is possible, if the mobile station 16 is the receiving side, the mobile switching center 27 confirms the transmission power of the base station 23 by confirming the reception power of the mobile station 16. Then, it is determined whether or not there is a margin in transmission power (step ST26).

  On the other hand, if the base station 23 is the receiving side, the transmission power of the mobile station 16 is confirmed by confirming the reception power of the base station 23, and it is determined whether or not there is a margin in the transmission power (step ST26).

  When the mobile switching center 27 determines that the transmission power has a margin (step ST27), it immediately switches the transmission rate (step ST28), but determines that the transmission power has no margin. In step ST27, an instruction to increase the level of transmission power is sent to the mobile station 16 (or base station 23) on the transmission side, and the reception power is sent to the base station 23 (or mobile station 16) on the reception side. Notify instructions to report.

  As a result, it is determined whether or not there is a transmission power margin that can withstand changes in the transmission speed due to an increase in the reception power, and the transmission speed is switched only when the margin is secured. If it is not secured, the transmission speed switching is stopped.

  As described above, according to the seventh embodiment, when an increase in transmission power commensurate with the change in transmission rate is obtained, the change in transmission rate is permitted, but transmission suitable for the change in transmission rate is performed. When the increase in power cannot be obtained, the change in the transmission rate is rejected, so that when the transmission rate cannot be increased, it is possible to prevent the occurrence of a useless process for increasing the transmission rate. In addition, it is possible to prevent the occurrence of a communication abnormality accompanying the occurrence of such a process.

  DESCRIPTION OF SYMBOLS 11 Database (communication apparatus), 12 Public communication network (PSTN), 13, 14, 15 Switching office, 16-22 Mobile station, 23-26 Base station, 23a-26a Radio coverage, 27, 28, 29 Mobile switching center 31 PSTN interface, 32 speech path switching unit, 33 high-speed data memory device, 34 data number management processor, 35 mobile station information memory, 36 transition state control processor, 37 priority control processor, 38 system setting processor, 39 signaling processor, 40 Base station interface.

Claims (1)

A communication control method for controlling radio communication performed between a base station and a mobile station belonging to a radio coverage area of the base station,
A speed notification step of notifying the base station or the mobile station of the communication speed between the base station and the mobile station;
A timing notification step of notifying the base station or the mobile station of the timing at which the communication speed between the base station and the mobile station should be switched to the notified communication speed;
A communication control method, comprising: a speed switching step of switching a communication speed between the base station and the mobile station to the notified communication speed at the notified timing.

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