JP2004072459A - Radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hand-off procedure especially for a multi-carrier terminal in the hand-off of communications in a CDMA radio communication system for performing packet communication. <P>SOLUTION: A radio communication terminal 10 comprises a means for wirelessly communicating with a base station (20 or 30), using a plurality of carriers simultaneously. The base station (20 or 30) comprises a means for allocating the carriers the radio communication terminal 10 to be used for communications, and a means for switching over at least parts of the plurality of carriers used for communications at different timings in switching the base station (20 or 30) with which the radio communication terminal 10 communicates. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to handoff processing in a CDMA wireless communication system that performs packet communication, and particularly to handoff processing in a multicarrier terminal.
[0002]
[Prior art]
As a CDMA wireless communication system that performs packet communication by time division multiplexing (TDMA) in forward communication from a base station, for example, C.P.G.2 (http://www.3gpp2.org/), which is disclosed in C.I. The “HRPD” standard specified in S0024 is known. This is a wireless communication technology of a single carrier terminal that performs packet communication via a set of uplink and downlink frequency channels (carriers).
[0003]
On the other hand, as a technique for performing forward packet communication from a base station using code division multiplexing (CDMA), for example, C.P. S0001 to C.I. “Spread Rate 3” (SR3) of S0005-A is known. 2. This is a wireless communication technology of a multi-carrier terminal that performs packet communication using a plurality of frequency channels at the same time, and performs communication by simultaneously using three carriers (frequency channels) having a chip rate of 1.2288 MHz. It is a technology that can communicate at 6864 MHz.
[0004]
The handoff means in the conventional wireless communication technology described above measures the quality of radio waves for communication between the mobile station and the base station, the distance between the mobile station and the base station, and compares the measured communication quality and distance. Then, based on the result, the handoff is performed to the base station having the best communication quality.
[0005]
Furthermore, when handoff is performed, the base station is switched by a single handoff process. Therefore, even when the mobile station is a multicarrier terminal, a plurality of frequency channels (carriers) used by the multicarrier terminal for communication as shown in FIG. ) At the same time.
[0006]
[Problems to be solved by the invention]
In the handoff process in the above-described multicarrier terminal, transmission and reception of communication data are stopped because a control message occupies traffic when performing handoff. Further, since the transmission and reception of the stopped data are performed again after the end of the handoff process, the transfer of the data is temporarily stopped and the transfer speed is extremely reduced.
[0007]
[Means for Solving the Problems]
The invention according to claim 1 includes two or more base stations and a wireless communication terminal that performs wireless communication by switching between the base stations, and performs packet communication by allowing a communication channel from the base station to the wireless communication terminal. In a communication system, the wireless communication terminal includes communication means for performing wireless communication with the base station using a plurality of carriers simultaneously, and the base station allocates a carrier used by the wireless communication terminal for communication. When the wireless communication terminal switches a base station with which the communication is performed, the wireless communication terminal includes a switching unit that switches a plurality of carriers used for communication at different timings.
[0008]
According to a second aspect of the present invention, in the first aspect of the present invention, in the process of switching the base station, the switching unit performs communication with a carrier different from at least two of the base stations. And
[0009]
According to a third aspect of the present invention, in the first or second aspect, the switching means exchanges a handoff message for each carrier with which the wireless communication terminal and the base station perform communication in the process of switching the base station. It is characterized by doing.
[0010]
According to a fourth aspect of the present invention, in the second or third aspect of the present invention, after the base station is switched in one of the plurality of carriers used by the wireless communication terminal for communication, the wireless communication terminal is used for communication. In other carriers among the plurality of carriers, communication with a conventional base station is performed.
[0011]
The invention according to claim 5 is the communication device according to any one of claims 2 to 4, wherein the wireless communication terminal performs the switching process on at least one of the plurality of carriers used for communication. In another carrier of the plurality of carriers used by the wireless communication terminal for communication, communication is performed with a base station that has already completed the switching process.
[0012]
The invention according to claim 6 is a wireless communication terminal that performs wireless communication using a plurality of carriers at the same time, and a base station apparatus that performs packet communication by time-multiplexing a communication channel. And a switching unit that switches a plurality of carriers used for communication at different timings when switching the base station with which the wireless communication terminal communicates, wherein the switching unit includes the wireless communication terminal. It is characterized in that a base station with which communication is performed is switched based on a communication state with a communication terminal.
[0013]
The invention of claim 7 is a wireless communication terminal that performs wireless communication using a plurality of carriers at the same time, and a carrier allocating unit that performs packet communication by time-multiplexing a communication channel and allocates a carrier used by the wireless communication terminal for communication. A switching unit that switches a plurality of carriers used for communication at different timings when the wireless communication terminal switches a base station with which the communication is performed, and a wireless communication terminal that communicates with a base station device including: And transmitting a switching request to the base station based on a communication state with the base station, and switching the base station with which the base station communicates under the initiative of the base station.
[0014]
Function and Effect of the Invention
According to the invention of claim 1, the wireless communication terminal includes communication means for performing wireless communication with the base station using a plurality of carriers at the same time, and the base station uses a carrier used by the wireless communication terminal for communication. And a switching unit that switches a plurality of carriers used for communication at different timings when switching the base station with which the wireless communication terminal communicates, so that packet transfer can be stopped or stopped. It is possible to prevent a drastic decrease in transfer speed and perform continuous data transfer.
[0015]
According to the second aspect of the present invention, in the process of switching the base station, the switching unit performs communication on a carrier different from at least two of the base stations, and thus stops packet transfer used for communication. And an extremely low transfer speed can be prevented, and continuous data transfer can be performed.
[0016]
According to the invention of claim 3, the switching means exchanges a handoff message for each carrier with which the wireless communication terminal and the base station communicate with each other in the process of switching the base station. , The transfer of packets used for communication can be prevented from being stopped or the transfer speed can be extremely reduced, and continuous data transfer can be performed.
[0017]
According to the invention of claim 4, after a base station is switched in one of the plurality of carriers used by the wireless communication terminal for communication, another of the plurality of carriers used by the wireless communication terminal for communication is switched. Since the carrier is characterized by performing communication with a conventional base station, it is possible to prevent a packet transfer used for communication from being stopped or an extremely low transfer speed, and to perform continuous data transfer.
[0018]
According to the invention of claim 5, when the switching process is performed on at least one of the plurality of carriers used by the wireless communication terminal for communication, the plurality of carriers used by the wireless communication terminal for communication are used. In other carriers, communication is performed with the base station that has already completed the switching process, so that the stop of packet transfer used for communication and the extreme decrease in transfer speed are prevented, and continuous data transfer is prevented. It can be carried out.
[0019]
According to the invention of claim 6, the carrier allocating means for allocating the carrier used by the wireless communication terminal for communication and the plurality of carriers used for communication when the wireless communication terminal switches base stations for communication are different. Switching means for switching at a timing, wherein the switching means switches a base station to communicate with based on a communication state with the wireless communication terminal, so that a packet transfer stop or transfer speed used for communication with the wireless communication terminal is changed. Can be prevented, and continuous data transfer can be performed.
[0020]
According to the invention of claim 7, a wireless communication terminal that performs wireless communication using a plurality of carriers at the same time, and a carrier allocation that allocates carriers used for communication by time-multiplexing communication channels and performing packet communication. Means for switching a plurality of carriers used for communication at different timings when the wireless communication terminal switches base stations with which the wireless communication terminal communicates. Transmitting a switching request to the base station based on the communication state with the base station, and switching the base station to communicate with under the initiative of the base station, thereby stopping packet transfer used for communication to the base station. And an extremely low transfer speed can be prevented, and continuous data transfer can be performed.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a communication system according to an embodiment of the present invention will be described in detail with reference to the drawings.
[0022]
FIG. 1 shows a schematic diagram of a communication system according to an embodiment of the present invention.
[0023]
10 is a mobile station, 20 is a base station A, 30 is a base station B, 40 is an exchange, and 50 and 60 are cells.
[0024]
The mobile station 10 is a multi-carrier terminal, performs code division multiplexing for each carrier simultaneously using three carriers, and performs forward packet communication from the base station A or the base station B.
[0025]
The packet length used for this communication may be a fixed length or a variable length.
[0026]
The base station A or the base station B includes an antenna, a radio unit, and a control unit (not shown). The antenna is connected to the radio unit, receives radio waves from the mobile station 10, and transmits radio waves to the mobile station 10. The radio unit converts transmission data into a high-frequency signal transmitted from the antenna, and converts the high-frequency signal received by the antenna into reception data. The control unit controls the wireless unit.
[0027]
The exchange 40 connects the base station A and the base station B to another base station or a broadband line, and mediates communication.
[0028]
The cell 50 indicates the communicable area of the base station A, and the cell 60 indicates the communicable area of the base station B.
[0029]
Next, an outline of a handoff procedure of the communication system according to the embodiment of the present invention will be described.
[0030]
FIG. 2 is a timing chart illustrating an operation when the mobile station 10 of the present embodiment performs handoff from the base station A to the base station B.
[0031]
When the handoff process is performed from the base station A to the base station B, first, the handoff of the carrier 1 among the three carriers is performed. While the handoff of the carrier 1 is being performed, the communication with the base station A before the handoff is continued using the carrier 2 and the carrier 3.
[0032]
When the handoff of the carrier 1 ends, the handoff of the carrier 2 is executed. In this case, communication is continued using carrier 1 and carrier 3 in the same manner. However, carrier 1 is communicating with base station B after handoff, and carrier 3 is communicating with base station A before handoff.
[0033]
Next, the carrier 3 is handed off. In this case, similarly, communication is continued with the base station B after the handoff using the carrier 1 and the carrier 2.
[0034]
When the handoff of the three carriers ends, the handoff processing of the multicarrier terminal ends.
[0035]
During the execution of the handoff process, communication is continued in any one of the carriers 1 to 3, so that the handoff can be completed without interruption of communication data during the handoff process. In particular, even when an application in which inconvenience occurs if communication data is interrupted during communication is executed on the mobile station 10, communication data is not interrupted, so that handoff can be completed without hindering application execution. it can.
[0036]
Hereinafter, this handoff means will be described in detail.
[0037]
FIG. 3 is a flowchart showing a handoff process according to the present embodiment.
[0038]
First, the application performing communication (or using communication data) is a type of application that allows disconnection without inconvenience even if data disconnection occurs during communication, When this occurs, the attribute information of the application as to whether it is an inconvenient type of application is acquired (process 301). Based on the attribute information of the application, it is determined whether disconnection of the communication being executed is permitted. In other words, if the application is of a type that allows data disconnection during the execution of the application, the process proceeds to step 303, and if data disconnection occurs, it is inconvenient. The process proceeds to step 304 (step 302).
[0039]
In step 303, handoff is performed on all carriers at the same time. This processing will be described later with reference to FIG.
[0040]
In the process 304, handoff is performed for each carrier at different timing. This processing will be described later with reference to FIG.
[0041]
Thus, the handoff process ends.
[0042]
It should be noted that the acquisition of the application attribute information (process 301) and the determination of the application attribute (process 302) may be performed by the mobile station side to perform the determination, or the base station side may perform the determination and the process. Is also good.
[0043]
FIG. 4 shows a detailed sequence in a case where the mobile station 10 performs handoff from the base station A to the base station B simultaneously for each carrier (process 303 in FIG. 3). This process is basically the same as the conventional handoff process shown in FIG.
[0044]
First, when the mobile station 10 and the base station A are in a communication state (processing 401), when a handoff process is started, a handoff instruction message for all carriers is transmitted from the base station A to the base station B, and the mobile station 10 is notified that handoff is to be performed (process 402).
[0045]
In response to this, the mobile station 10 executes handoff (process 403). Details of the execution of this handoff will be described later.
[0046]
Next, when the execution of the handoff is completed, the mobile station 10 performs a process of establishing a communication state with the base station B that has become the new communication partner (process 404).
[0047]
When the establishment of the communication state is completed, the mobile station 10 sends a handoff completion message to the base station B (process 405). Base station B receives this and recognizes that the handoff process has been completed.
[0048]
As described above, the handoff process for simultaneously performing the handoff for all the carriers is completed.
[0049]
FIG. 5 shows a detailed sequence when the mobile station 10 performs handoff from the base station A to the base station B at different timings for each carrier (process 303 in FIG. 3).
[0050]
First, when the handoff process is started when the mobile station 10 and the base station A are in a communication state (process 501), first, the carrier 1 from the base station A to the mobile station 10 and the carrier 1 from the base station A to the base station B are transmitted. Is sent to notify the mobile station 10 that handoff is to be performed (process 502).
[0051]
The mobile station 10 receives the handoff instruction message and performs handoff of the carrier 1 (process 503). Details of the execution of this handoff will be described later.
[0052]
Next, when the handoff of the carrier 1 is completed, the mobile station 10 performs a process of establishing the communication state of the carrier 1 with respect to the base station B that has become a new communication partner in the carrier 1 (process 504).
[0053]
When the establishment of the communication state of carrier 1 is completed, mobile station 10 sends a handoff completion message of carrier 1 to base station B (step 505). In response to this, the base station B recognizes that the handoff process of the carrier 1 has been completed.
[0054]
At the time of the handoff process of the processes 502 to 505, packet communication is continued on the other two carriers that have not performed the handoff. Since only two carriers (carriers 2 and 3) excluding carrier 1 performing handoff perform communication, the communication speed is slightly reduced, but communication is not disconnected.
[0055]
Next, a handoff instruction message for carrier 2 from base station A to base station B is sent from base station A to mobile station 10 to notify mobile station 10 that handoff is to be performed (process 506).
[0056]
The mobile station 10 executes the handoff of the carrier 2 in response to the handoff instruction message (process 507). Details of the execution of this handoff will be described later.
[0057]
Next, when the handoff of the carrier 2 is completed, the mobile station 10 performs a process of establishing the communication state of the carrier 2 with respect to the base station B that has become a new communication partner in the carrier 2 (process 508).
[0058]
When the establishment of the communication state of carrier 2 is completed, mobile station 10 sends a handoff completion message for carrier 2 to base station B (step 509). In response to this, the base station B recognizes that the handoff process of the carrier 2 has been completed.
[0059]
Also during the handoff process of the processes 506 to 509, the packet communication is continued on the other two carriers that have not performed the handoff.
[0060]
Next, a handoff process for the carrier 3 is performed in the same manner (processes 510 to 512).
[0061]
As described above, when the handoff of the three carriers 1 to 3 ends, the handoff process of the mobile station 10 from the base station A to the base station B ends.
In the present embodiment, handoff is performed at different timings for carriers 1 to 3 individually. For example, handoff is performed simultaneously for carrier 1 and carrier 2 and handoff for carrier 1 and carrier 2 is performed only for carrier 3. A configuration in which handoff is performed after completion is also possible. In this case, compared to the individual handoff process described above, the communication speed during the handoff is further reduced because only one carrier is continuing communication at the time of the handoff process. It has the advantage of being shorter.
[0062]
FIG. 6 is a sequence diagram showing details of the execution of the handoff in each carrier in the process 403 in FIG. 4 and the processes 503, 507, and 511 in FIG.
[0063]
First, when the mobile station 10 and the base station A are in communication (process 601), the base station A sends a handoff request message to the mobile station 10 (process 602). Since the handoff request message includes information on the base station to which the handoff is to be performed, the mobile station 10 recognizes which base station is to be handed off at which timing. Upon receiving the handoff request message from the base station A, the mobile station 10 returns a request acknowledgment message and notifies the base station that the request message has been normally received (process 603).
[0064]
Next, the base station A sends a handoff start message to the mobile station 10 (process 604). The mobile station 10 receives this message and executes handoff (process 605). In accordance with the execution of the handoff of the mobile station 10, the base station B transmits / receives the wireless communication of the mobile station 10 and executes the handoff (process 606).
[0065]
When the execution of the handoff of the mobile station 10 is completed, the mobile station sends a handoff completion message to the base station B (operation 606). When the base station B receives this message, the handoff process is completed.
[0066]
With the above processing, the handoff of each carrier is executed.
[0067]
In the embodiment of the present invention configured as described above, in the multicarrier terminal, handoff is performed at different timings in a plurality of carriers used for communication, and when any one carrier is performing the handoff, the handoff is performed. Since packet transmission / reception is maintained in a carrier that is not performing data transmission, stop of data transfer and extreme reduction in transfer speed can be prevented, and continuous data transfer can be performed.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a configuration of a communication system according to an embodiment of the present invention.
FIG. 2 is a timing chart of a handoff process in a multicarrier terminal.
FIG. 3 is a flowchart of a handoff process.
FIG. 4 is a sequence diagram in a case where handoff is performed simultaneously for each carrier.
FIG. 5 is a sequence diagram when handoff is performed at different timings for each carrier.
FIG. 6 is a sequence diagram of a handoff process in each carrier.
FIG. 7 is a timing chart of a handoff process in a conventional multicarrier terminal.
[Explanation of symbols]
10 mobile station 20 base station A
30 base station B
40 exchanges 50, 60 cells

Claims (7)

A communication system comprising two or more base stations and a wireless communication terminal performing wireless communication by switching the base station, and performing packet communication by time-multiplexing a communication channel from the base station to the wireless communication terminal,
The wireless communication terminal, using a plurality of carriers at the same time, comprises a communication means for performing wireless communication with the base station,
The base station, a carrier allocating unit that allocates a carrier used by the wireless communication terminal for communication,
When the wireless communication terminal switches a base station with which to communicate, a switching unit that switches at least a part of a plurality of carriers used for communication at different timings,
A communication system comprising: 2. The communication system according to claim 1, wherein in the process of switching the base station, the switching unit performs communication with the wireless communication terminal using a carrier different from at least two of the base stations. 3. The communication system according to claim 1, wherein the switching unit exchanges a handoff message for each carrier with which the wireless communication terminal and the base station communicate with each other in a process of switching the base station. . After the base station is switched in one of the plurality of carriers used for communication by the wireless communication terminal, in another carrier of the plurality of carriers used by the wireless communication terminal for communication, The wireless communication system according to claim 2, wherein the wireless communication system communicates with a wireless communication device. While performing the switching process in at least one carrier of the plurality of carriers used by the wireless communication terminal for communication, in the other carrier of the plurality of carriers used by the wireless communication terminal for communication The wireless communication system according to any one of claims 2 to 4, wherein communication is performed with a base station that has already completed the switching process. A wireless communication terminal that performs wireless communication using a plurality of carriers simultaneously, and a base station apparatus that performs packet communication by time-multiplexing communication channels,
Carrier allocating means for allocating a carrier used by the wireless communication terminal for communication, and switching means for switching a plurality of carriers used for communication at different timings when switching a base station with which the wireless communication terminal communicates, With
The base station apparatus, wherein the switching unit switches a base station that communicates based on a communication state with the wireless communication terminal. A wireless communication terminal that performs wireless communication using a plurality of carriers at the same time, a packet allocating time-multiplexed communication channel to perform packet communication, and a carrier allocating unit that allocates a carrier used by the wireless communication terminal for communication; When switching base stations for communication, a switching unit that switches a plurality of carriers used for communication at different timings, and a wireless communication terminal that communicates with a base station device including:
A wireless communication terminal, comprising: transmitting a switching request to the base station based on a communication state with the base station, and switching a base station to communicate with under the initiative of the base station.

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