JP3589910B2 - Wireless communication system, handover method, and wireless relay device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio communication system, a handover method, and a radio relay device, and in particular, includes a radio base station, a radio terminal, and a radio relay device, and the radio relay device is interposed between the radio terminal and the radio base station. The present invention relates to a wireless communication system, a handover method, and a wireless relay apparatus that perform communication by using a wireless communication system.
[0002]
[Prior art]
There is a radio communication system that includes a radio terminal, a radio relay device, and a plurality of radio base stations, and in which the radio terminal and the radio base station communicate via the radio relay device.
FIG. 1 shows a configuration example of a conventional wireless communication system. Wireless terminal 10, wireless relay device 20 connected to wireless terminal 10 through a wireless channel, and wireless base station 30 connected to wireless relay device 20 through a wireless channel ₁ ~ 30 _n It consists of. Wireless base station 30 ₁ ~ 30 _n Are connected to other radio base stations, PSTN (Public Switched Telephone Network), ISDN (Integrated Services Digital Network), an exchange station such as the Internet, a router, and the like.
[0003]
A handover sequence in this conventional wireless communication system will be described with reference to FIG. FIG. 6 shows a case where 32k wireless communication is performed using PHS (Personal Handy-phone System).
The wireless terminal 10 is currently connected to the wireless base station 30 via the wireless relay device 20. ₁ (101). Wireless relay device 20 and wireless base station 30 ₁ When the quality of wireless communication with the wireless terminal 10 deteriorates (102), the wireless relay device 20 transmits a handover instruction for switching the wireless base station 30 to the wireless terminal 10 (103).
[0004]
The wireless relay device 20 is referred to as a control channel (hereinafter referred to as “LCCH”). _. LCCH (Logical Control Channel) is searched (104), and the radio base station 30 having the highest received power is searched. _n And LCCH synchronization is performed (105). After the LCCH synchronization, the radio relay apparatus 20 transmits a new control signal (hereinafter referred to as “new LCCH”) at the frame timing of the switching destination radio base station searched for the radio terminal 10. _. ) Is transmitted (106).
[0005]
After receiving the new LCCH, the radio terminal 10 transmits an LCH (link channel) establishment request signal to the radio relay apparatus 20 in order to request allocation of a new communication channel (107).
After receiving the LCH establishment request signal, the radio relay device 20 switches to the switching destination radio base station 30. _n An LCH establishment request signal is transmitted to request for allocation of a new communication channel (108).
[0006]
Switching destination radio base station 30 _n Transmits an LCH assignment signal to the radio relay apparatus 20 in order to allocate an available communication channel to the radio relay apparatus 20 (109).
The radio relay apparatus 20 includes a switching destination radio base station 30 _n It is checked whether the communication channel allocated from can be used, and if possible, the switching destination radio base station 30 _n Communication channel synchronization is established (110). Then, a communication channel is assigned to the wireless terminal 10 (111).
[0007]
With the procedure described above, the radio terminal 10 can perform handover of the radio base station via the radio relay device 20.
However, in the conventional radio handover method, the radio relay apparatus 20 transmits a handover instruction to the radio terminal 10 and then searches for the radio base station 30 that is the handover destination. _n Then, the LCCH is transmitted to the radio terminal 10 at the handover destination frame timing.
[0008]
By the way, in the PHS, a radio terminal starts a timer after receiving a handover instruction from a radio relay device, and when the timer exceeds a predetermined timer value, reception of a communication channel with the original radio base station is received. Is set to do.
For this reason, the radio relay apparatus needs to search for a handover destination radio base station within the timer value of the radio terminal and transmit a new LCCH.
[0009]
Therefore, if the timer value of the radio terminal is small, the radio relay apparatus may not be able to search for a handover destination radio base station. This decreases the handover success rate of the wireless terminal.
In addition, when 64k data communication is performed with PHS, depending on the radio base station, 64k data communication may not be performed. At this time, if the search time for the handover destination radio base station is short at the time of handover, there may be a case where it is not possible to confirm whether the radio base station is capable of 64k data communication. Therefore, when the wireless terminal 10 performing 64k data communication is handed over, the handover may fail because the wireless base station cannot use the 64k data communication.
[0010]
[Problems to be solved by the invention]
As described above, in the conventional radio channel allocation method, the radio relay apparatus needs to search for a new base station within a predetermined period after the radio terminal receives the handover instruction. This makes it difficult to search for a handover destination radio base station, which is one of the causes of handover failure.
[0011]
In addition, when a communication method that cannot be used depending on the radio base station, such as 64k data communication, is used, a handover fails when attempting to perform a handover to a radio base station that does not have a communication method before the handover. It was the cause that the rate increased.
The present invention has been made in view of the above problems, and it is an object of the present invention to lengthen the search time of a radio base station by a radio relay apparatus at the time of handover and improve the success rate of handover.
[0012]
[Means for Solving the Problems]
According to the present invention, the above-mentioned problems are solved by the means described in the claims.
The invention described in claim 1 includes a radio base station 30, a radio terminal 10, and a radio relay device 20, and a radio communication system in which the radio terminal and the radio base station communicate via the radio relay device In the handover method associated with movement of the wireless terminal and the wireless relay device in FIG. 1, when the quality of the communication channel between the wireless relay device and the wireless base station deteriorates, the wireless relay device transmits a signal to the wireless terminal. And the radio relay apparatus searches for the radio base station and performs handover to the radio base station 30. _n A second step of establishing synchronization with the handover destination radio base station, and thereafter, the radio relay apparatus transmits a signal to the radio terminal on the channel before the handover to establish a communication channel A communication channel between the wireless relay device and the wireless terminal and between the wireless relay device and the handover destination wireless base station is established by a third step and then a call request of the wireless terminal And a fourth step.
[0013]
According to a second aspect of the present invention, in the first step according to the first aspect, the wireless relay device 20 may stop the transmission of the signal to the wireless terminal 10 before the wireless terminal 10 A handover method characterized by transmitting a handover instruction signal instructing to perform a handover process.
According to a third aspect of the present invention, in the second step of the first aspect, the radio relay device 20 receives a control signal of the radio base station 30, and the received power of the control signal is the largest. Radio base station 30 as a handover destination of radio base station _n This is a handover method characterized by:
[0014]
According to a fourth aspect of the present invention, in the second step according to the first aspect, the radio relay device 20 receives a control signal of the radio base station 30 and can communicate by a communication method before handover. Among the radio base stations, the radio base station having the highest received power of the control signal is designated as the handover destination radio base station 30. _n This is a handover method characterized by:
[0015]
According to a fifth aspect of the present invention, in the third step of the first aspect, the radio relay device 20 is a channel before handover, and the radio base station 30 that is the handover destination. _n A handover method comprising a step of transmitting a signal in accordance with the TDMA frame timing of
The invention described in claim 6 includes a radio base station 30, a radio terminal 10, and a radio relay apparatus 20, and the radio terminal and the radio base station communicate with each other via the radio relay apparatus. In the handover method associated with movement of the wireless terminal and the wireless relay device in FIG. 1, when the quality of the communication channel between the wireless relay device and the wireless base station deteriorates, the wireless relay device transmits a signal to the wireless terminal. And the radio relay apparatus searches for the radio base station and performs handover to the radio base station 30. _n A second step of establishing synchronization with the handover destination radio base station, the radio relay device requesting the handover destination radio base station to allocate a communication channel, a third step, The radio relay apparatus establishes a communication channel between the radio relay apparatus and the radio base station using a communication channel assigned from the handover destination radio base station, and performs communication between the radio relay apparatus and the radio terminal. A fourth step of instructing the wireless terminal to change the communication channel when it is possible to perform the communication channel change when the wireless terminal is instructed to change the communication channel by the wireless relay device; A handover method characterized by including a fifth step to be performed.
[0016]
According to a seventh aspect of the present invention, in the first step according to the sixth aspect, the wireless relay device 20 transmits the signal to the wireless terminal 10 before stopping transmission of the signal to the wireless terminal 10. A handover method characterized by transmitting a handover instruction signal instructing to perform a handover process.
According to an eighth aspect of the present invention, in the second step of the sixth aspect, the radio relay device 20 receives a control signal of the radio base station 30, and the received power of the control signal is the largest. Radio base station 30 as a handover destination of radio base station _n This is a handover method characterized by:
[0017]
According to a ninth aspect of the present invention, in the second step of the sixth aspect, the radio relay device 20 receives the control signal of the radio base station 30 and can communicate by a communication method before handover. Among the radio base stations, the radio base station having the highest received power of the control signal is designated as the handover destination radio base station 30. _n This is a handover method characterized by:
[0018]
According to a tenth aspect of the present invention, in the third step according to the sixth aspect, the radio relay device 20 is a channel before handover, and the radio base station 30 that is the handover destination. _n A handover method comprising a step of transmitting a signal in accordance with the TDMA frame timing of
The invention described in claim 11 includes a radio base station 30, a radio terminal 10, and a radio relay device 20, and a radio communication system in which the radio terminal and the radio base station communicate via the radio relay device And when the quality of the communication channel between the radio relay device and the radio base station deteriorates, the radio relay device stops transmission of signals to the radio terminal, and the radio relay device By searching for the radio base station, the radio base station 30 as the handover destination _n And means for establishing synchronization with the handover destination radio base station, and after establishing synchronization, the radio relay apparatus transmits a signal to the radio terminal on the channel before handover and establishes a communication channel And a wireless communication system including means for establishing a communication channel between the wireless relay device and the handover destination wireless base station after establishing a communication channel with the wireless terminal.
[0019]
The invention described in claim 12 includes a radio base station 30, a radio terminal 10, and a radio relay device 20, and a radio communication system in which the radio terminal and the radio base station communicate via the radio relay device In the radio relay apparatus in the above, when the quality of the communication channel between the radio relay apparatus and the radio base station is deteriorated, searching for the radio base station, means for stopping transmission of signals to the radio terminal, Handover destination radio base station 30 _n Means for establishing synchronization with the handover destination radio base station, means for transmitting a signal to the radio terminal on the channel before handover after establishment of synchronization, establishing a communication channel, and communicating with the radio terminal And a means for establishing a communication channel between the radio terminal and the handover destination radio base station in response to a call request from the radio terminal after channel establishment.
[0020]
The invention described in claim 13 includes a radio base station 30, a radio terminal 10, and a radio relay device 20, and a radio communication system in which the radio terminal communicates with the radio base station via the radio relay device. And when the quality of the communication channel between the radio relay device and the radio base station deteriorates, the radio relay device stops transmission of signals to the radio terminal, and the radio relay device By searching for the radio base station, the radio base station 30 as the handover destination _n Means for establishing synchronization with the handover destination radio base station, and after establishing synchronization, the radio relay apparatus requests the handover destination radio base station to allocate a communication channel, and the radio relay An apparatus establishes a communication channel between the radio relay apparatus and the radio base station using a communication channel allocated from the handover destination radio base station, and performs communication between the radio relay apparatus and the radio terminal Means for instructing the wireless terminal to change the communication channel, and when the wireless terminal is instructed to change the communication channel by the wireless relay device, the wireless terminal includes means for changing the communication channel. This is a wireless communication system.
[0021]
The invention described in claim 14 includes a radio base station 30, a radio terminal 10, and a radio relay device 20, and a radio communication system in which the radio terminal communicates with the radio base station via the radio relay device. In the radio relay apparatus in the above, when the quality of the communication channel between the radio relay apparatus and the radio base station is deteriorated, searching for the radio base station, means for stopping transmission of signals to the radio terminal, Handover destination radio base station 30 _n Means for establishing synchronization with the handover-destination radio base station, means for requesting communication channel allocation to the handover-destination radio base station after synchronization is established, and assignment from the handover-destination radio base station When communication between the wireless relay device and the wireless terminal can be established by establishing a communication channel between the wireless relay device and the wireless base station using the determined communication channel, a communication channel is transmitted to the wireless terminal. And a means for instructing a change of the wireless relay device.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
A configuration example of a wireless communication system to which the present invention is applied is the same as that shown in the conventional example. As shown in FIG. 1, a plurality of radio base stations 30 ₁ ~ 30 _n , The wireless terminal 10 and the wireless relay device 20, and the wireless terminal 10 and the wireless base station 30 ₁ ~ 30 _n Is used in a wireless communication system that performs communication via the wireless relay device 20.
[0023]
The present invention is a handover method in which a radio relay apparatus can increase the time for searching for a radio base station during handover, and as a result, handover can be performed efficiently.
Hereinafter, an embodiment of the present invention will be described with reference to FIG. FIG. 1 shows an example of the configuration of a wireless communication system to which the present invention is applied. The wireless terminal 10 includes a wireless relay device 20 connected to the wireless terminal 10 via a wireless channel, and a wireless base station connected to the wireless relay device 20 via a wireless channel.
[0024]
In the embodiment of the present invention, when the radio relay apparatus 20 determines that the quality of the communication channel with the radio base station 30 deteriorates and the handover is necessary, the radio relay apparatus 20 transmits a handover instruction to the radio terminal 10 and performs handover to Means for establishing a communication channel with the radio terminal 10 at a timing at which signals can be transmitted to and received from the radio base station 30. After establishing the communication channel with the radio terminal 10, a handover instruction is issued to the radio terminal 10. And means for transmitting and establishing a radio channel to the handover destination radio base station 30.
[0025]
Next, the operation of the present embodiment will be described with reference to FIG. 2 which is a transmission sequence diagram of the wireless communication system.
Here, the sequence is shown taking PHS as an example.
Reference numeral 1 is a handover instruction signal due to degradation of the quality of a communication channel with the radio base station 30, and reference numeral 2 is transmitted from the radio terminal 10 to the radio relay apparatus 20 or from the radio relay apparatus 20 to the radio base station 30. Reference numeral 3 denotes an LCH establishment request signal, reference numeral 3 denotes an LCH allocation signal transmitted from the radio base station 30 to the radio relay apparatus 20 or from the radio relay apparatus 20 to the radio terminal 10, and reference numeral 4 denotes a radio terminal 10 to the radio terminal 10. Reference numeral 5 is transmitted from the wireless terminal 10 to the wireless relay device 20 or from the wireless relay device 20 to the wireless base station 30. The handover instruction for establishing a communication channel between the wireless relay device 20 and the wireless terminal 10 is transmitted to the wireless base station 30. 6 is a TCH addition request signal transmitted from the radio base station 30 to the radio relay device 20 or from the radio relay device 20 to the radio terminal 10. Shows an equivalent signal.
[0026]
Further, the timing of the communication channel transmitted from the wireless relay device 20 to the wireless terminal 10 will be described with reference to FIG. In PHS, communication is performed using TDMA-TDD (Time Division Multiple Access-Time Division Duplex), and communication channels are assigned with four time slots (slot number 1 to slot number 4) and a carrier frequency.
[0027]
The radio relay apparatus 20 has a handover source radio base station 30 before the handover. ₁ Are transmitted and received at the same TDMA frame timing as (201). Here, the communication channel between the radio relay apparatus 20 and the radio terminal 10 is slot number 2, carrier frequency f. ₁ Suppose that
The wireless relay device 20 is connected to the wireless base station 30 during communication. ₁ When the quality of the communication channel is degraded and handover is required (202), the handover instruction 1 is transmitted to the radio terminal 10 and communication with the radio terminal 10 is stopped.
[0028]
When receiving the handover instruction 1, the radio terminal 10 measures a time during which the LCCH cannot be received.
By the way, in PHS, the wireless terminal has a public mode and a self-supporting mode. When the wireless terminal is used as the public mode, a communication channel is established with the public wireless base station. When the wireless terminal is in the private mode, the communication channel is established only with the set private wireless base station.
[0029]
In this system, if the wireless terminal 10 is used in the private mode and the wireless relay device 20 is registered as a wireless base station of the wireless terminal 10 in the private mode, the wireless terminal 10 is connected only to the wireless relay device 20. A communication channel can be established. Therefore, if the radio relay apparatus 20 stops the LCCH, the radio terminal 10 cannot receive the LCCH for handover. However, if the LCCH cannot be received for a predetermined period of time, the radio terminal 10 performs processing for returning to the state before the handover and attempts to receive a signal on the previous communication channel.
[0030]
After stopping the LCCH, the radio relay apparatus 20 also stops transmitting signals to the radio base station 30, and receives the LCCH and searches for a radio base station with the highest received power (203). Then, the radio relay apparatus 20 includes a handover destination radio base station 30. _n And LCCH are synchronized (204). After synchronization of the LCCH, the radio relay apparatus 20 transmits the communication channel before the handover to the radio terminal 10 (205). As shown in FIG. 3, the slot number of the communication channel transmitted to the radio terminal 10 at this time is the same as 2 before the handover, and the carrier frequency is the same as before the handover. ₁ Send with. This is made possible by receiving BCCH (Broadcast Control Channel) including frame information transmitted by the handover destination radio base station.
[0031]
As a method of determining the handover destination radio base station, there is a method of receiving the LCCH several times and setting the radio base station having the highest average power in addition to the radio base station having the highest received power.
When the wireless relay device 20 starts transmission of the communication channel, the wireless terminal 10 receives a signal and establishes a communication channel with the wireless relay device 20 (206). When the radio relay apparatus 20 establishes a communication channel with the radio terminal 10, the radio relay apparatus 20 transmits a handover instruction 4 to the radio terminal 10.
[0032]
Upon receiving the handover instruction 4, the radio terminal 10 performs a normal outgoing connection, and the radio base station 30 that is the handover destination. _n Establish communication channel with.
The wireless terminal 10 transmits the LCH establishment request signal 2 to the wireless relay device 20. When the wireless relay device 20 receives the LCH establishment request signal 2, the wireless relay device 20 _n LCH establishment request signal 2 is transmitted to.
[0033]
Wireless base station 30 _n When the LCH establishment request signal 2 is received, the assigned communication channel to be assigned to the radio relay apparatus 20 is determined from the empty communication channel, and the LCH assignment signal 3 is transmitted to notify the radio relay apparatus 20 of the assigned communication channel.
The radio relay apparatus 20 receives the LCH allocation signal 3 and receives the radio base station 30. _n If the communication channel allocated from is usable, the radio relay device 20 and the radio base station 30 _n (207), the assigned communication channel to be assigned to the radio terminal 10 is determined, and the LCH assignment signal 3 is transmitted to notify the radio terminal 10 of the assigned communication channel.
[0034]
When the radio terminal 10 receives the LCH allocation signal 3, if the allocated communication channel allocated from the radio relay apparatus 20 is usable, the radio terminal 10 establishes a communication channel between the radio terminal 10 and the radio relay apparatus 20 and can communicate with it. (208).
In the above description, communication is performed on one communication channel between one radio base station and one radio relay apparatus, and between one radio relay apparatus and one radio terminal 10, but one radio base station There may be a case where communication is performed using two or more communication channels between a station and one wireless relay device and between one wireless relay device and one wireless terminal. For example, in PHS, 64k data communication is possible using two communication channels.
[0035]
Here, FIG. 4 shows a handover sequence when communication is performed between one radio base station and one radio relay apparatus and between one radio relay apparatus and one radio terminal using two communication channels. Will be described. Assume that the system configuration is the same as in FIG.
The wireless relay device 20 communicates with the wireless base station 30 during communication (301). ₁ When the quality of the first communication channel or the second communication channel is deteriorated and handover is required (302), the handover instruction 1 is transmitted to the radio terminal 10 and communication with the radio terminal 10 is stopped.
[0036]
When receiving the handover instruction 1, the radio terminal 10 measures a time during which the LCCH cannot be received. Note that if the radio terminal 10 cannot receive the LCCH for a predetermined fixed time for handover as a result of the measurement, the radio terminal 10 performs processing to return to the state before the handover, and signals on the previous first communication channel and second communication channel Try to receive After stopping the LCCH, the radio relay apparatus 20 also stops transmission of signals to the radio base station, and for example, searches for a radio base station with the highest received power at the handover destination (303).
[0037]
In PHS, a radio base station (hereinafter referred to as a “multi-channel compatible radio base station”) that can communicate between one radio base station and one radio relay device using two communication channels. _. ) And one radio base station and one radio relay device that cannot communicate with two communication channels (hereinafter referred to as "multi-channel incompatible radio base station") _. ) Are mixed.
[0038]
The radio relay device 20 can distinguish between a “multi-channel radio base station” and a “multi-channel non-radio radio base station” by receiving a control signal transmitted on the LCCH of each radio base station. It becomes. In the LCCH reception, the radio relay apparatus 20 searches for a multi-channel compatible radio base station having the highest received power among the multi-channel compatible radio base stations and determines it as a handover destination radio base station. Then, the radio relay apparatus 20 includes a handover destination radio base station 30. _n And LCCH are synchronized (304). After LCCH synchronization, the radio relay apparatus 20 transmits the communication channel before the handover to the radio terminal 10 (305). At this time, the slot number of the communication channel transmitted to the radio terminal 10 is the same slot as before the handover, and the carrier frequency is also transmitted at the same frequency as before the handover.
[0039]
When the wireless relay device 20 starts transmission of the first communication channel and the second communication channel, the wireless terminal 10 receives a signal and establishes the first communication channel and the second communication channel with the wireless relay device 20. (306, 307).
When the first communication channel and the second communication channel are established with the radio terminal 10, the radio relay device 20 transmits a handover instruction 4 to the radio terminal 10.
[0040]
When receiving the handover instruction 4, the radio terminal 10 establishes a normal outgoing connection and establishes a communication channel with the handover destination radio base station.
As the outgoing connection, for example, there are the following methods.
The wireless terminal 10 transmits the LCH establishment request signal 2 to the wireless relay device 20. When the wireless relay device 20 receives the LCH establishment request signal 2, the wireless relay device 20 _n LCH establishment request signal 2 is transmitted to. Wireless base station 30 _n When the LCH establishment request signal 2 is received, the first communication channel to be allocated to the radio relay apparatus 20 is determined from the empty communication channel, and the LCH allocation signal 3 is transmitted to notify the radio relay apparatus 20 of the first communication channel. . The radio relay apparatus 20 receives the LCH allocation signal 3 and receives the radio base station 30. _n If the first communication channel allocated from is usable, the radio relay device 20 and the radio base station 30 _n 1st communication channel is established, the 1st communication channel allocated to the radio | wireless terminal 10 is determined, The LCH allocation signal 3 is transmitted in order to notify this radio | wireless terminal 10 of this 1st communication channel.
[0041]
When the radio terminal 10 receives the LCH assignment signal 3, if the first communication channel assigned from the radio relay apparatus 20 is usable, the radio terminal 10 establishes a first communication channel between the radio terminal 10 and the radio relay apparatus 20 ( 309). Then, a TCH addition request signal 5 is transmitted to establish the second communication channel. When the radio relay apparatus 20 receives the TCH addition request signal 5, the radio base station 30 _n TCH addition request signal 5 is transmitted. Wireless base station 30 _n When receiving the TCH addition request signal 5, the second communication channel to the radio relay device 20 is determined from the empty communication channels, and the second communication channel is transmitted to the radio relay device 20 by the TCH addition assignment signal 6. If the assigned second communication channel is usable, the radio relay device 20 uses the radio base station 30. _n And the second communication channel is established with the wireless relay device 20 (310), and the vacant channel is set as the second communication channel and transmitted to the wireless terminal 10 by the TCH additional allocation signal 6. When the radio terminal 10 receives the TCH additional allocation signal 6, if the allocated second communication channel is usable, the radio terminal 30 _n And establish a second communication channel between the wireless relay device 20 (311).
[0042]
By the way, many of the PHS wireless terminals cannot perform wireless communication with a combination of specific communication channels. Specifically, when the combination of the assigned channels assigned to the first communication channel and the second communication channel is slot number 1 and slot number 4, the wireless terminal cannot perform wireless communication.
Therefore, in FIG. 4, when applying to PHS, communication channel establishment (308, 310) is performed as follows, for example.
[0043]
When receiving the LCH establishment request signal 2 for assignment of the first communication channel from the wireless terminal 10 (between the wireless terminal and the wireless relay device), the wireless relay device 20 transmits a wireless base station to the wireless base station 30. LCH establishment request signal 2 is transmitted by the control channel for allocation of the first communication channel (between the radio relay device and the radio base station).
When the radio base station 30 receives the LCH establishment request signal 2 from the radio relay apparatus 20, the radio base station 30 assigns a communication channel not used by the radio base station 30 to the radio relay apparatus 20 as the first communication channel on the base station side. The wireless relay device 20 is notified by the assignment signal 3. The LCH allocation signal 2 includes information on the allocation channel between the radio base station 30 and the radio relay apparatus 20.
[0044]
As a method for determining the allocation channel of the base station side first communication channel, a radio channel not used by the radio base station 30 is allocated. Here, it is assumed that the radio base station 30 allocates the base station side first communication channel to the fourth slot.
The radio relay apparatus 20 receives the LCH assignment signal 3 transmitted from the radio base station 30. If the first communication channel on the base station side is assigned with the first slot or the fourth slot that is not assigned in combination with the radio terminal 10, these slots should be assigned last if possible. An LCH establishment re-request signal (not shown) is transmitted to the base station 30. When the radio base station 30 receives the LCH establishment re-request signal from the radio relay apparatus 20, if there is a communication channel assigned other than the communication channel assigned in the base station side first communication channel transmitted earlier, The LCH allocation signal 3 is transmitted to the radio relay apparatus 20 by being allocated to the base station side first communication channel.
[0045]
Here, it is assumed that the radio base station 30 assigns the base station side first communication channel to the third slot. The radio relay device 20 receives the LCH assignment signal 2 transmitted from the radio base station 30.
Then, the radio terminal 10 transmits a TCH addition request signal 5 to the radio relay apparatus 20 in order to request allocation of the terminal-side second communication channel. When receiving the TCH addition request signal 5 transmitted from the radio terminal 10, the radio relay apparatus 20 transmits the TCH addition request signal 5 to the radio base station 30. When receiving the TCH additional allocation signal 3 transmitted from the radio relay apparatus 20, the radio base station 30 transmits an available allocation channel to the radio relay apparatus 20 using the TCH additional allocation signal 6. Here, the allocation channel of the base station side second communication channel is defined as the second slot. The radio relay apparatus 20 receives the TCH additional allocation signal 6, and the allocation channel of the second communication channel on the base station side allocated by the TCH additional allocation signal 6 from the radio base station 30 is equal to the allocation channel of the first communication channel on the terminal side. For example, a TCH addition re-request signal (not shown) is transmitted to the radio base station 30.
[0046]
When receiving the TCH addition re-request signal, the radio base station 30 assigns a communication channel other than the assignment channel previously assigned as the second communication channel on the base station side, and transmits the communication channel to the radio relay apparatus 20 using the TCH addition assignment signal 6. If a communication channel other than the allocation channel previously allocated as the base station side second communication channel cannot be allocated, the allocation channel previously allocated as the base station side second communication channel is transmitted to the radio relay apparatus 20 by the TCH additional allocation signal 6. Send. Here, it is assumed that the radio base station 30 allocates the fourth slot as the base station side second communication channel.
[0047]
When receiving the TCH additional allocation signal 6, the radio relay apparatus 20 checks whether or not the allocation channel can be used, and if so, establishes synchronization of the second communication channel on the base station side. Here, the fourth slot is a terminal-side control channel, but the terminal-side LCCH is stopped to establish synchronization with the base station-side second communication channel.
After the radio relay apparatus 20 determines the handover destination radio base station, the radio relay apparatus 20 transmits a channel switching instruction to the radio terminal 10 instead of transmitting the handover instruction 4 to the radio terminal 10 again. It is also possible.
[0048]
A handover sequence when the handover method using the channel switching instruction is used will be described with reference to FIG.
Reference numeral 1 is a handover instruction signal due to quality degradation of a communication channel transmitted from the radio relay apparatus 20 to the radio terminal 10, and reference numeral 2 is a radio base station from the radio terminal 10 to the radio relay apparatus 20 or from the radio relay apparatus 20 to the radio base station. Reference numeral 3 denotes an LCH establishment request signal transmitted to 30, reference numeral 3 denotes an LCH allocation signal transmitted from the radio base station 30 to the radio relay apparatus 20 or from the radio relay apparatus 20 to the radio terminal 10, and reference numeral 4 denotes a radio relay apparatus 20. 2 shows a channel switching instruction for switching the communication channel between the wireless relay device 20 and the wireless terminal 10 transmitted from the wireless terminal 10 to the wireless terminal 10.
[0049]
The wireless relay device 20 communicates with the wireless base station 30 during communication (401). ₁ When the quality of the communication channel deteriorates and handover is required (402), the handover instruction 1 is transmitted to the radio terminal 10 and the communication with the radio terminal 10 is stopped. The radio relay apparatus 20 stops the LCCH, and then the radio base station 30 ₁ Signal transmission to the mobile station is also stopped, the LCCH is received, and a handover destination radio base station having the largest received power is searched (402). The radio relay apparatus 20 includes a radio base station 30 that is a handover destination. _n And establishing LCCH synchronization (404), the radio base station 30 _n LCH establishment request signal 2 is transmitted.
[0050]
Wireless base station 30 _n When the LCH establishment request signal 2 is received, the assigned communication channel to be assigned to the radio relay apparatus 20 is determined from the empty communication channel, and the LCH assignment signal 3 is transmitted to notify the radio relay apparatus 20 of the assigned communication channel.
When the radio relay apparatus 20 receives the LCH allocation signal 3 and can communicate between the radio relay apparatus 20 and the radio terminal 10 using the allocated communication channel, the radio relay apparatus 20 A communication channel is transmitted to the radio terminal 10 in synchronization with the frame timing of the base station (405). At this time, the slot number of the communication channel transmitted to the radio terminal 10 is the same as 2 before the handover, and the carrier frequency is the same as before the handover. ₁ Send with.
[0051]
When communication is performed using the assigned communication channel, when the communication between the wireless relay device 20 and the wireless terminal 10 cannot be performed, the wireless relay device 20 _n In addition, an LCH establishment re-request signal (not shown) is transmitted. Wireless base station 30 _n When an LCH establishment re-request signal is received, a channel is assigned to a channel other than the previously transmitted channel, and an LCH assignment signal 2 is transmitted. In this way, LCH allocation is performed between the radio base station capable of communicating with the radio relay apparatus 20 and the radio terminal 10 and the radio relay apparatus.
[0052]
When the communication channel with the wireless terminal 10 is established (406), the wireless relay device 20 transmits a channel switching instruction 4 to the wireless terminal 10. The switching destination channel of the channel switching instruction is the wireless relay device 20 and the wireless base station 30. _n Channel that does not affect the communication channel.
When receiving the channel switching instruction, the wireless terminal 10 switches the communication channel between the wireless relay device 20 and the wireless terminal 10 in accordance with the channel switching instruction 4.
[0053]
The wireless relay device 20, after completing the switching of the communication channel with the wireless terminal 10, _n The communication channel is established (408).
2, 4, and 5, when a handover is required, the radio relay apparatus 20 transmits a handover instruction 1 to the radio terminal 10 before stopping transmission to the radio terminal 10. Although an example has been described, transmission to the radio terminal 10 may be stopped without transmitting the handover instruction 1 to the radio terminal 10. The search time for handover can be made longer when transmission to the radio terminal 10 is stopped without transmitting the handover instruction 1 to the radio terminal 10.
[0054]
The radio relay apparatus 20 can transmit the handover instruction 1 or can not transmit the handover instruction 1. The radio relay apparatus 20 selects one in consideration of a search time required for handover.
Note that, when the radio terminal 10 receives the handover instruction 1 from the radio relay device 20, the radio terminal 10 searches for the LCCH for transmission, the signal disconnection confirmation operation from the radio relay device 20, and the operation for measuring the time during which the LCCH cannot be received. Etc.
[0055]
【The invention's effect】
As described above, according to the present invention, after the wireless relay device searches for a handover destination wireless base station, a communication channel before handover is established between the wireless relay device and the wireless terminal, and then the wireless terminal and the wireless relay device are established. By establishing channels between the wireless relay device and the wireless base station, it is possible to lengthen the time for the wireless relay device to search for the handover target wireless base station. This also allows the radio relay apparatus to search for radio base stations with better communication channel quality.
[0056]
Furthermore, when performing a handover, the communication method of the wireless base station that is the handover destination can be confirmed, so the handover failure rate due to the difference in the communication method can be reduced.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a wireless communication system.
FIG. 2 is a sequence diagram (part 1) for explaining a handover according to the present invention;
FIG. 3 is a diagram for explaining timing in handover between a radio relay apparatus and a radio base station.
FIG. 4 is a sequence diagram (part 2) for explaining the handover of the present invention;
FIG. 5 is a sequence diagram (part 3) for explaining the handover of the present invention;
FIG. 6 is a sequence diagram for explaining a conventional handover.
[Explanation of symbols]
10 Wireless terminal
20 Wireless relay device
30 radio base stations

Claims (14)

A wireless base station, a wireless terminal, and a wireless relay device are provided, and the wireless terminal and the wireless base station communicate with each other in the wireless communication system in which communication is performed via the wireless relay device. In the handover method,
A first step of stopping transmission of a signal to the radio terminal when the quality of a communication channel between the radio relay device and the radio base station deteriorates;
The wireless relay device searches for the wireless base station, determines a handover destination wireless base station, and establishes synchronization with the handover destination wireless base station;
Thereafter, the wireless relay device transmits a signal to the wireless terminal on the channel before the handover, and establishes a communication channel;
Thereafter, a fourth step of establishing a communication channel between the wireless relay device and the wireless terminal and between the wireless relay device and the handover destination wireless base station according to a call request of the wireless terminal. A handover method comprising: In the first step of claim 1,
The wireless relay apparatus transmits a handover instruction signal instructing the wireless terminal to perform a handover process before stopping transmission of a signal to the wireless terminal. In the second step of claim 1,
The radio relay apparatus receives a control signal of the radio base station, and sets a radio base station having the largest received power of the control signal as a handover destination radio base station. In the second step of claim 1,
The radio relay apparatus receives a control signal of the radio base station and selects a radio base station having the highest received power of the control signal as a handover destination among radio base stations capable of communicating by a communication method before handover. A handover method characterized by being a radio base station. In the third step of claim 1,
The radio relay apparatus includes a step of transmitting a signal in accordance with a TDMA frame timing of the radio base station that is a handover destination on a channel before handover. A wireless base station, a wireless terminal, and a wireless relay device are provided, and the wireless terminal and the wireless base station communicate with each other in the wireless communication system in which communication is performed via the wireless relay device. In the handover method,
A first step of stopping transmission of a signal to the radio terminal when the quality of a communication channel between the radio relay device and the radio base station deteriorates;
The wireless relay device searches for the wireless base station, determines a handover destination wireless base station, and establishes synchronization with the handover destination wireless base station;
The wireless relay device requests the handover destination wireless base station to allocate a communication channel;
When the radio relay apparatus establishes a communication channel between the radio relay apparatus and the radio base station using a communication channel allocated from the handover destination radio base station, the radio relay apparatus communicates between the radio relay apparatus and the radio terminal. A fourth step of instructing the wireless terminal to change the communication channel when it is possible to
The wireless terminal includes a fifth step of changing a communication channel when instructed to change a communication channel by the wireless relay device. In the first step of claim 6,
The wireless relay apparatus transmits a handover instruction signal instructing the wireless terminal to perform a handover process before stopping transmission of a signal to the wireless terminal. In the second step of claim 6,
The radio relay apparatus receives a control signal of the radio base station, and sets a radio base station having the largest received power of the control signal as a handover destination radio base station. In the second step of claim 6,
The radio relay apparatus receives a control signal of the radio base station and selects a radio base station having the highest received power of the control signal as a handover destination among radio base stations capable of communicating by a communication method before handover. A handover method characterized by being a radio base station. In the third step of claim 6,
The radio relay apparatus includes a step of transmitting a signal in accordance with a TDMA frame timing of the radio base station that is a handover destination on a channel before handover. In a wireless communication system comprising a wireless base station, a wireless terminal, and a wireless relay device, wherein the wireless terminal and the wireless base station communicate via the wireless relay device,
Means for stopping transmission of a signal to the radio terminal when the quality of the communication channel between the radio relay device and the radio base station deteriorates;
The radio relay device searches the radio base station, determines a handover destination radio base station, and establishes synchronization with the handover destination radio base station;
After the synchronization is established, the wireless relay device transmits a signal to the wireless terminal in a channel before handover, and establishes a communication channel;
After establishing a communication channel with the wireless terminal, a communication channel is established between the wireless relay device and the wireless terminal and between the wireless relay device and the handover destination wireless base station in response to a call request from the wireless terminal. A wireless communication system. In a radio relay apparatus in a radio communication system, comprising a radio base station, a radio terminal, and a radio relay apparatus, wherein the radio terminal and the radio base station communicate via the radio relay apparatus,
Means for stopping transmission of a signal to the radio terminal when the quality of a communication channel between the radio relay apparatus and the radio base station deteriorates;
Means for searching for the radio base station, determining a radio base station of a handover destination, and establishing synchronization with the radio base station of the handover destination;
Means for establishing a communication channel by transmitting a signal to the wireless terminal in a channel before handover after synchronization is established;
And a means for establishing a communication channel between the radio terminal and the handover destination radio base station in response to a call request from the radio terminal after establishing the communication channel with the radio terminal. . In a wireless communication system comprising a wireless base station, a wireless terminal, and a wireless relay device, wherein the wireless terminal and the wireless base station communicate via the wireless relay device,
Means for stopping transmission of a signal to the radio terminal when the quality of the communication channel between the radio relay device and the radio base station deteriorates;
The radio relay device searches the radio base station, determines a handover destination radio base station, and establishes synchronization with the handover destination radio base station;
After synchronization is established, the radio relay apparatus requests the handover destination radio base station to allocate a communication channel;
When the radio relay apparatus establishes a communication channel between the radio relay apparatus and the radio base station using a communication channel allocated from the handover destination radio base station, the radio relay apparatus communicates between the radio relay apparatus and the radio terminal. Means for instructing the wireless terminal to change the communication channel when it is possible to
A wireless communication system, comprising: means for changing a communication channel when the wireless terminal is instructed to change a communication channel by the wireless relay device. In a radio relay apparatus in a radio communication system, comprising a radio base station, a radio terminal, and a radio relay apparatus, wherein the radio terminal and the radio base station communicate via the radio relay apparatus,
Means for stopping transmission of a signal to the radio terminal when the quality of a communication channel between the radio relay apparatus and the radio base station deteriorates;
Means for searching for the radio base station, determining a radio base station of a handover destination, and establishing synchronization with the radio base station of the handover destination;
Means for requesting communication channel assignment to the handover destination radio base station after synchronization is established;
When a communication channel is established between the radio relay apparatus and the radio base station using a communication channel allocated from the handover destination radio base station, communication can be performed between the radio relay apparatus and the radio terminal. And a means for instructing the wireless terminal to change the communication channel.

Images