JP2002335204A - Method for communication between base stations - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for communication between base stations, with which the cost of a communication system can be reduced, limited frequency resources are effectively utilized and further, radio communication is attained without interference. SOLUTION: In the method for communication between base stations, which is provided with a high-order base station 11 for performing TDMA/TDD radio communication with a subscriber station 21 while using a frequency channel f1 and a low-order base station 23 for performing TDMA/TDD radio communication with a subscriber station 25 while using a frequency channel f2, for performing communication between the high-order base station 11 and the low- order base station 23, by using a system connected with a network 10 by a cable by the high-order base station 11, the low-order base station 23 is connected by a cable with the subscriber station 21 (2) in a first group as a repeater subscriber station, wireless communication is performed between the repeater subscriber station and the high-order base station 11 by using the time slot of the frequency channel f1, and communication is performed between the high- order base station 11 and the low-order base station 23 through the repeater subscriber station.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a time division multiple access (TDMA) system between a subscriber and a base station.
The present invention relates to an inter-base station communication method used for communicating between an upper base station and a lower base station in a wireless communication system that performs wireless communication using TDD (Time Division Duplex).

[0002]

2. Description of the Related Art When a subscriber wants to access a predetermined network, for example, a fixed wireless access system can be used. In this case, each subscriber station is connected to a fixed base station by a radio line, and each subscriber station accesses a network via the base station.

In such a fixed wireless access system, TDMA / TDD is used as a communication system.
In TDMA / TDD, bidirectional wireless communication is performed between a base station and a plurality of subscriber stations using the same frequency. Each station communicates using a time slot assigned by time scheduling of the base station. By the way, since the size of the communicable area of one base station is limited by the restriction of the transmission output and the like, it is necessary to provide a large number of base stations in the radio access system to secure a wide service area.

[0004] In order to transmit information signals (hereinafter referred to as "payload") between each subscriber station and the network, the base station of the radio access system is generally connected to the network via a wired transmission path. Further, even when the number of base stations is large, there is a case where each base station and the accommodation station of the network are connected by independent wired transmission paths.

[0005] However, since construction of a wired transmission path requires a large cost, connecting each of a large number of base stations to a network via a wired transmission path undesirably increases the cost of the system.

[0006] Therefore, a PP (Point-Po
2. Description of the Related Art A dedicated wireless communication line is used to connect an accommodation station and a base station of a network using an int) system. In this case, the wireless communication line of the PP system is:
It is assigned to a frequency band different from the frequency band used for wireless communication between the base station and the subscriber station.

[0007]

However, even when connecting a base station with a base station of a network by a wireless communication line, it is necessary to install a dedicated PP system, so that the cost of the system can be reduced. difficult. Further, it is necessary to secure a new frequency band for communication between the accommodation station of the network and the base station, which is not desirable from the viewpoint of effective use of frequency.

For example, when a radio communication line of a PP system uses a frequency band common to a frequency band used for radio communication between a base station and a subscriber station, interference occurs between the two communications. Occurs, making it difficult to provide services. An object of the present invention is to provide a communication method between base stations which enables cost reduction of the communication system as described above, effectively utilizes limited frequency resources, and realizes wireless communication without interference. I do.

[0009]

An upper-level base station for performing wireless communication by TDMA / TDD with a first group of subscriber stations existing around using a first frequency channel, TDMA / TDD with a second group of neighboring subscriber stations using the second frequency channel
A lower base station for performing wireless communication by using a communication system in which the upper base station is connected to a predetermined network by wire, and a base for performing communication between the upper base station and the lower base station. An inter-station communication method, wherein one subscriber station of the first group is connected as a relay subscriber station to the lower-level base station by wire, and using any time slot of the first frequency channel, The wireless communication is performed between the relay subscriber station and the upper base station, and the communication between the upper base station and the lower base station is performed via the relay subscriber station.

[0010] The first group of subscriber stations can perform radio communication with an upper-level base station using a predetermined first frequency channel, and the second group of subscriber stations has:
Wireless communication can be performed with the lower-level base station using the predetermined second frequency channel. In claim 1, one subscriber station of the first group is connected to the lower base station by wire as a relay subscriber station, so that the lower base station communicates with the upper base station via the relay subscriber station. Wireless communication can be performed between them.

Therefore, it is not necessary to newly assign a special frequency channel for wireless communication between the lower base station and the upper base station, and it is not necessary to newly install a special radio equipment. In addition, since communication between the base stations is performed using the time slots allocated to the subscriber stations, there is no problem such as interference. Claim 2 relates to TD communication between a first group of neighboring subscriber stations using a first frequency channel.
An upper base station that performs wireless communication by MA / TDD;
And a lower-level base station for performing wireless communication by TDMA / TDD with a second group of subscriber stations existing in the vicinity using the above frequency channel, and the higher-level base station is connected to a predetermined network by wire. A communication method between base stations for performing communication between the upper base station and the lower base station using a communication system, wherein the first time schedule used by the upper base station for communication includes an upper A first time slot used for communication between the base station and the first group of subscriber stations and a second time slot used for communication between the upper base station and the lower base station are fixed. And the second time schedule used by the lower base station for communication includes the lower base station and the second
A third time slot used for communication with a subscriber station of the group and a fourth time slot used for communication between an upper base station and a lower base station are fixedly allocated, respectively. The base station switches a frequency channel to be used between the third time slot and the fourth time slot, and performs radio communication with the higher-order base station on the first frequency channel using the fourth time slot. It is characterized by.

A first group of subscriber stations can perform radio communication with a higher-level base station by using a predetermined first frequency channel, and a second group of subscriber stations includes:
Wireless communication can be performed with the lower-level base station using the predetermined second frequency channel. Also, the lower base station can selectively use the first frequency channel and the second frequency channel.

In the second aspect, the upper base station communicates in the second time slot assigned to the first time schedule, and the lower base station communicates in the fourth time slot assigned to the second time schedule. By performing communication using the first frequency channel, wireless communication between the upper base station and the lower base station becomes possible. Therefore, it is not necessary to newly assign a special frequency channel for wireless communication between the lower base station and the upper base station, and it is not necessary to newly install special wireless equipment. In addition, since communication between base stations is performed using a time slot fixedly assigned in advance, there is no problem such as interference.

A third aspect of the present invention is to use a first frequency channel to communicate with a surrounding first group of subscriber stations.
An upper base station that performs wireless communication by MA / TDD;
And a lower-level base station for performing wireless communication by TDMA / TDD with a second group of subscriber stations existing in the vicinity using the above frequency channel, and the higher-level base station is connected to a predetermined network by wire. An inter-base station communication method for performing communication between the upper base station and the lower base station using a communication system, wherein the first time schedule used by the upper base station for communication is stored in the upper base station. The upper base station notifies the lower base station of the information of the first time schedule, and the lower base station determines the information of the first time schedule based on the first time schedule notified from the upper base station. Determines a second time schedule to be used for communication, and the lower base station selects a time slot according to the second time schedule, and Select depending frequency channel, between a lower base station and the upper base stations, as well as lower base station and the second
The wireless communication is performed with the subscriber stations of the group.

[0015] The subscriber stations of the first group can perform radio communication with the upper-level base station using a predetermined first frequency channel, and the subscriber stations of the second group include:
Wireless communication can be performed with the lower-level base station using the predetermined second frequency channel. Also, the lower base station can selectively use the first frequency channel and the second frequency channel.

In the third aspect, the contents of the first time schedule are determined by the upper base station, and the first time schedule is notified from the upper base station to the lower base station. The lower base station determines a second time schedule to be used by the own station based on the notified first time schedule. Further, the lower base station selects a time slot and a frequency channel according to the second time schedule and the communication partner, thereby enabling wireless communication between the lower base station and the upper base station.

Therefore, it is not necessary to newly assign a special frequency channel for wireless communication between the lower base station and the upper base station, and it is not necessary to newly install special wireless equipment. Further, since communication between the base stations is performed using the time slots allocated by the upper base station, there is no problem such as interference. According to a fourth aspect of the present invention, in the inter-base station communication method according to the third aspect, the first time schedule and the second time schedule include a communication between a lower base station and an upper base station and a lower base station or an upper base station. A shared time slot commonly used for communication between the base station and the subscriber station, a first dedicated time slot used exclusively for communication between the lower base station and the upper base station, A second dedicated time slot used exclusively for communication between the base station and the subscriber station is provided.

When a common time slot is used for a line used for communication between a subscriber station and a base station and a line used for communication between base stations, communication cannot be started unless there is a free time slot. . For example, when a time slot is occupied by communication between a subscriber station and a base station, communication between the base stations cannot be started until the communication ends.

In the fourth aspect, even when the shared time slot is in use, the first base station uses the first dedicated time slot assigned to the first time schedule and the second time schedule. Communication can be performed at any time between the mobile station and the upper base station. Also, for example, by transmitting an access request from the lower base station to the upper base station in the first dedicated time slot, communication with lower priority is terminated to release the shared time slot, and the shared time slot is released with a shorter waiting time. The communication between base stations using the slots can be started.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) One embodiment of an inter-base station communication method according to the present invention will be described with reference to FIG. This embodiment corresponds to claim 1.
FIG. 1 is a block diagram showing a configuration example (1) of a communication system.

In this embodiment, the subscriber station of the first group, the upper base station, the subscriber station of the second group, the lower base station and the relay subscriber station of the first group are the subscriber station 21 and the upper base station, respectively. 11, the subscriber station 25, the lower base station 23, and the subscriber station 21 (2). In this embodiment, it is assumed that the present invention is applied to a communication system having a configuration as shown in FIG. This communication system includes an upper base station 11 and a lower base station 23 as base stations. Although only one lower base station 23 is shown in FIG. 1, a plurality of lower base stations 23 can be installed around the upper base station 11.

The upper base station 11 is connected to the network 1 by wire.
0 is connected. The upper-level base station 11 uses the radio channel of the predetermined frequency channel f1 to transmit
1 (1), 21 (2), 21 (3),... Two-way wireless communication is performed between the upper base station 11 and each of the subscriber stations 21 by TDMA / TDD.

That is, when each subscriber station 21 performs communication, a specific time slot formed by time division is allocated to communication by the time scheduling process of the upper base station 11. Each subscriber station 21 performs wireless communication using the assigned time slot. The upper-level base station 11 determines the time schedule for the communication of the frequency channel f1 according to the traffic demand of the subscriber stations 21 (1), 21 (2), 21 (3),.

[0024] The lower base station 23 uses the radio line of the predetermined frequency channel f2 to transmit data to the subscriber stations 25 (1) and 25 (1).
Communication can be performed with 25 (2), 25 (3),... Even between the lower base station 23 and each subscriber station 25, T
Bidirectional wireless communication is performed by DMA / TDD. Regarding the time schedule for the communication of the frequency channel f2, the subscriber stations 25 (1), 25 (2), 25 (3),.
The lower base station 23 is determined according to the traffic demand of (1).

Due to the difference between the frequency channels f1 and f2,
Each subscriber station 25 cannot perform wireless communication with the upper-level base station 11. Further, each subscriber station 21 cannot perform wireless communication with the lower base station 23. Since the higher-level base station 11 capable of wireless communication with the subscriber station 21 is connected to the network 10 by wire, the subscriber station 21
Can access the network 10 via the upper base station 11.

In order to allow the subscriber station 25 access to the network 10, in this example the upper base station 1
A communication line is formed between the base station 1 and the lower base station 23 so that communication between base stations can be performed. However, if a special communication line is formed using a wired transmission line, an increase in cost cannot be avoided.

Therefore, one subscriber station 21 (2) capable of wireless communication with the upper base station 11 is installed near the upper base station 11, and the subscriber station 21 (2) having a shorter length is installed. It is directly connected to the lower base station 23 using a wired transmission path 27. Communication is performed between the subscriber station 21 (2) and the lower base station 23 using a baseband signal. That is, the lower base station 23 can perform inter-base station communication with the upper base station 11 via the subscriber station 21 (2).

In the inter-base station communication between the lower base station 23 and the upper base station 11, the existing frequency channel f1 is used and the time slot available to the subscriber station 21 (2) is used. There is no need to add special communication equipment and transmission lines. Since there is no need to secure a new frequency channel, limited frequency resources can be used effectively. (Second Embodiment) Another embodiment of the communication method between base stations according to the present invention will be described with reference to FIGS. This embodiment corresponds to claim 2.

FIG. 2 is a block diagram showing a configuration example (2) of the communication system. FIG. 3 is a block diagram showing the configuration of the lower base station of FIG. FIG. 4 is a schematic diagram showing a time slot allocation example (1) of each frame. In this embodiment, the higher-order base station, the subscriber station of the first group,
The lower base station and the second group of subscriber stations correspond to the upper base station 11, the subscriber station 21, the lower base station 30 and the subscriber station 25, respectively.

Further, the first time slot of the second aspect,
The second time slot, the third time slot and the fourth time slot
Are time slots TS1
1, TS12 to TS1x, TS21 and TS22. In this embodiment, it is assumed that the present invention is applied to a communication system having a configuration as shown in FIG. This communication system includes an upper base station 11 and a lower base station 30 as base stations. In FIG. 2, one lower base station 3
Although only 0 is shown, a plurality of lower base stations 30 can be installed around the upper base station 11.

The upper base station 11 is connected to the network 1 by wire.
0 is connected. The upper-level base station 11 can communicate with each of the subscriber stations 21 using a radio channel of a predetermined frequency channel f1. The upper base station 11 can also perform inter-base-station communication with the lower base station 30 using the radio channel of the frequency channel f1. Between the upper base station 11 and each subscriber station 21 and between the upper base station 11 and the lower base station 23, TDMA / TDD
Performs two-way wireless communication.

When each subscriber station 21 performs communication, a specific time slot formed by time division is assigned to communication by the time scheduling process of the upper base station 11. Each subscriber station 21 performs wireless communication using the assigned time slot. Frequency channel f1
The time schedule for communication of each subscriber station 21
The upper-level base station 11 is determined according to the traffic demand.

[0033] The lower base station 30 uses the radio line of the predetermined frequency channel f2 to transmit data to the subscriber stations 25 (1), 25 (1).
Communication can be performed with 25 (2), 25 (3),... Even between the lower base station 23 and each subscriber station 25, T
Bidirectional wireless communication is performed by DMA / TDD. Regarding the time schedule for the communication of the frequency channel f2, the subscriber stations 25 (1), 25 (2), 25 (3),.
The lower base station 23 is determined according to the traffic demand of (1).

According to the difference between the frequency channels f1 and f2,
Each subscriber station 25 cannot perform wireless communication with the upper-level base station 11. Further, each subscriber station 21 cannot perform wireless communication with the lower base station 23. Since the higher-level base station 11 capable of wireless communication with the subscriber station 21 is connected to the network 10 by wire, the subscriber station 21
Can access the network 10 via the upper base station 11.

In order to allow the subscriber station 25 access to the network 10, in this example the upper base station 1
A communication line is formed between base station 1 and lower base station 30 so that communication between base stations can be performed. However, if a special communication line is formed using a wired transmission line, an increase in cost cannot be avoided.

Therefore, the lower base station 30 is provided with a frequency channel switching function so that the lower base station 30 can use the frequency channel f1 used by the upper base station 11. The antenna 31 is used not only for wireless communication between the lower base station 30 and the subscriber station 25 but also for wireless communication between the lower base station 30 and the upper base station 11. FIG.
As shown in (1), the lower base station 30 includes a high-frequency circuit 32 and a control unit 33. The high-frequency circuit 32 includes a synthesizer 41, a receiver 42, a transmitter 43, and a switch 44.

The local signal frequency output from the synthesizer 41 is changed by the control of the control unit 33. The receiver 42 and the transmitter 43 have built-in low distortion amplifiers. Further, the receiver 42 and the transmitter 43 have a function of changing the transmission / reception frequency in units of wireless burst packets in accordance with the local signal frequency input from the synthesizer 41.

The control unit 33 includes a modulation / demodulation circuit 51,
MAC (media access control) layer control circuit 5
2, an LLC (logical link control) layer control circuit 53, a communication buffer circuit 54, and a time scheduling circuit 55 are provided.

The modulation / demodulation circuit 51 modulates a transmission signal and demodulates a reception signal. The MAC layer control circuit 52 assigns a device identification ID (MAC-ID) at the layer 2 level and dynamically allocates a time slot for information transmission using the time scheduling circuit 55. The LLC layer control circuit 53 adds a sequence number used for retransmission control, a service class identification tag of data, and the like to the transmitted data. The communication buffer circuit 54 is used for temporarily storing data transmitted from the subscriber station 25 to the upper base station 11 and data transmitted from the upper base station 11.

In this embodiment, each time slot is allocated to a frame used for communication of the upper base station 11 and a frame used for communication of the lower base station 30 as shown in FIG. The upper base station 11 and the lower base station 30
When communication between base stations is performed between the base station and the base station, it is necessary to synchronize the frames between the base stations using a known method in advance and adjust the signal timing.

In this example, a plurality of upper base stations 11 (1 to
N), it is assumed that inter-base station communication is performed with the lower base station 30. Therefore, the time slot TS used for communication between the upper base station 11 and each lower base station 30 is used.
12 to TS1x and TS22 are fixedly assigned. Accordingly, time scheduling is not required for communication between the upper base station 11 and each lower base station 30.

For example, when communication between base stations is performed between the upper base station 11 and a specific lower base station 30, the upper base station 11 transmits information using the time slot TS12 shown in FIG. The base station 30 transmits information using the time slot TS22. In this case, the time slot T
Synchronization processing is performed in advance so that the timings of S12 and TS22 match.

In the lower base station 30, except for the time slot of the time slot TS22 (TS21), the lower base station 3
0 can be assigned as a time slot for communication with the subscriber station 25 accommodated in the subscriber station 25. Lower base station 30
When the communication between base stations is performed in the time slot TS22, the transmission / reception frequency is adjusted to the frequency channel f1 by switching the local signal frequency output from the synthesizer 41, and the communication with the subscriber station 25 is performed in another time slot TS21. When performing, the transmission / reception frequency is adjusted to the frequency channel f2.

In any case, the time slots TS12 to TS1x and TS22 used in the communication between the base stations and the time slot TS1 used in the communication between the subscriber stations 21 and 25.
1 and TS21 are separated in advance, so that it is possible to prevent a signal of communication between base stations from interfering with a signal of communication of the subscriber station 21. (Third Embodiment) Another embodiment of the inter-base station communication method of the present invention will be described with reference to FIGS. This embodiment corresponds to claims 3 and 4.

FIG. 5 is a schematic diagram showing a time slot allocation example (2) of each frame. FIG. 6 is a sequence diagram showing the operation of the communication system. This embodiment is a modification of the second embodiment, and it is assumed that a communication system similar to that of FIG. 2 is used. The basic configuration of the lower base station 30 is the same as that of FIG.

In this embodiment, the shared time slots of claim 4 are time slots TS32, TS33, TS54,
This corresponds to TS55, the first dedicated time slot of claim 4 corresponds to TS36 and TS58, and the second dedicated time slot of claim 4 corresponds to TS35 and TS57. In the above-described second embodiment, even if the lower-level base station 30 can allocate many time slots TS21 in FIG. If the time is short, the transmission speed of the communication between the base stations is limited by the time of the time slot TS22, so it is assumed that a sufficient peak speed cannot be obtained from the viewpoint of the subscriber station 25.

In this embodiment, considering the peak speed, FIG.
Assign time slots as shown in The time slots TS31 and TS3 are included in the frame of the upper base station 11.
2, TS33, TS35, and TS36 are provided.
The frame of the lower base station 30 includes a time slot TS5.
1, TS53, TS54, TS55, TS57, TS5
8 are provided.

The time slot TS31 corresponds to the upper base station 1
1 is used to transmit broadcast information to the subscriber station 21 and the lower base station 30. Time slot TS3
2 is used to transmit user data from the upper base station 11 to the subscriber station 21 or the lower base station 30. The time slot TS33 is used by the upper base station 11 to receive user data from the subscriber station 21 or the lower base station 30.

The time slot TS35 corresponds to the upper base station 1
1 is used for random access for requesting traffic to the upper-level base station 11. The time slot TS36 is used for random access for the lower base station 30 to request traffic to the upper base station 11. Time slot TS52
Is used for the lower base station 30 to receive the notification information from the upper base station 11. Time slot TS53
Is used by the lower base station 30 to transmit broadcast information to the subscriber station 25.

The time slot TS54 corresponds to the lower base station 3
It is used to transmit downlink user data between 0 and the subscriber station 25 accommodated therein or between the lower base station 30 and the upper base station 11. Time slot TS5
5 is a lower base station 30 and subscriber stations 25 accommodated therein.
Or between the lower base station 30 and the upper base station 11 to transmit uplink user data.

The time slot TS57 corresponds to the lower base station 3
The subscriber station 25 accommodated in 0 is used for random access for requesting traffic to the lower base station 30. The time slot TS58 is used for random access for the lower base station 30 to request traffic to the upper base station 11. Time slot TS32,
Since TS33, TS54, and TS55 can be dynamically allocated to communication of each subscriber station (21 or 25) and communication between base stations, a sufficient time slot is used for communication when a time slot is available. By assigning, the transmission speed can be increased.

For random access for requesting traffic, since the time slot TS57 used by the subscriber station 25 and the time slot TS58 used by the lower base station 30 are independent, the lower base station 30
, Random access can be performed efficiently. When performing communication between base stations, it is necessary to synchronize between the lower base station 30 and the upper base station 11 using a known method, and to match the timing of the time slots of both.

The upper base station 11 uses the subscriber station 21 and the lower base station 3 as information, such as time schedule, as broadcast information.
0, but broadcast information having the same contents is transmitted to the subscriber station 21 and the lower base station 30. Therefore, the upper base station 11 uses the same time slot TS31 to notify the subscriber station 21 and the lower base station 30 of the broadcast information.

The broadcast information transmitted by the upper base station 11 includes:
It includes a time schedule, upper base station ID, and base station transmission level information. In the case of a system to which transmission power control is not applied, base station transmission level information is unnecessary. The contents of the time schedule include information on the transmission start timing of the upper base station 11, the lower base station 30, and the subscriber station 21 in the next frame and information on the allowable transmission capacity (the number of wireless packets).

The time schedule (first time schedule) of the upper base station 11 is determined by itself, while the time schedule (second time schedule) of the lower base station 30 is determined by the first time schedule. After the time slot used in the communication between the base stations is determined, the time slot is determined by the lower base station 30. That is, the operation as shown in FIG. 6 is performed.

In step S11, the upper base station 11 determines the (first time schedule) in the next frame (N + 1) and transmits the time schedule to the lower base station 30 in the time slot TS31 as broadcast information. This broadcast information is received in the time slot TS52 of the lower base station 30. In step S21, the lower base station 30 determines a time schedule (second time schedule) to be used by itself, based on a time slot of communication between base stations, which is known from the content of the received broadcast information. This second time schedule is reported to the subscriber station 25 as broadcast information in the time slot TS53.

In step S12, the upper base station 11 transmits user data in the time slot TS32 according to the first time schedule determined in the previous frame (N-1). This user data is received in the time slot TS54 of the lower base station 30. In step S22, the lower base station 30 transmits user data to the subscriber station 25 in the time slot TS54 according to the second time schedule determined in the previous frame (N-1).

In step S23, the lower base station 30 transmits user data to the upper base station 11 in the time slot TS55 according to the second time schedule determined in the previous frame (N-1). This user data is received in the time slot TS33 of the upper base station 11. In step S31, the subscriber station 25 sends the previous frame (N-
According to the second time schedule notified in 1),
In the time slot TS55, the user data is
Send to 0.

In step S24, the lower base station 30 transmits random access data to the upper base station 11 in the time slot TS58 according to the second time schedule determined in the previous frame (N-1). This random access data is stored in the time slot TS of the upper base station 11.
It is received at 36. In step S32, the subscriber station 25
Transmits the random access data to the lower base station 30 in the time slot TS57 according to the second time schedule notified in the previous frame (N-1).

As described above, the upper base station 11, the lower base station 30, and the subscriber station 25 perform communication according to the time schedule determined or notified in the previous frame and determined.

[0061]

As described above, according to the present invention, TDMA
In a fixed wireless access system that performs / TDD communication, wireless communication can be performed between base stations without adding a special communication system such as a PP system.
For this reason, the cost of the communication system can be reduced, and limited frequency channels can be effectively used.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration example (1) of a communication system.

FIG. 2 is a block diagram illustrating a configuration example (2) of a communication system.

FIG. 3 is a block diagram illustrating a configuration of a lower base station of FIG. 2;

FIG. 4 shows an example of time slot allocation for each frame (1).
FIG.

FIG. 5 shows an example of time slot allocation for each frame (2).
FIG.

FIG. 6 is a sequence diagram showing an operation of the communication system.

[Explanation of symbols]

 10 Network 11 Upper Base Station 12, 22, 24, 26, 31 Antenna 21 Subscriber Station 23 Lower Base Station 25 Subscriber Station 27 Transmission Path 30 Lower Base Station 32 High Frequency Circuit 33 Control Unit 41 Synthesizer 42 Receiver 43 Transmitter 44 Switch 51 Modulation / demodulation circuit 52 MAC layer control circuit 53 LLC layer control circuit 54 Communication buffer circuit 55 Time scheduling circuit

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Yukihide Mizumoto 2-3-1 Otemachi, Chiyoda-ku, Tokyo F-term in Nippon Telegraph and Telephone Corporation 5K028 AA06 BB04 CC05 DD01 DD02 DD04 HH02 LL02 RR01 5K067 AA11 AA22 AA41 CC04 DD57 EE06 EE10 EE71 5K072 AA14 AA18 AA29 BB13 BB27 CC15 CC31 DD11 DD16 FF25 FF26

Claims (4)

[Claims] 1. TDMA / TD between a first group of neighboring subscriber stations using a first frequency channel
A base station for performing wireless communication by TDMA / TDD between a base station that performs wireless communication by D and a second group of subscriber stations existing around using a second frequency channel; An inter-base station communication method for performing communication between the upper base station and the lower base station while using a communication system in which an upper base station is connected to a predetermined network by a wire, One subscriber station is connected to the lower base station by wire as a relay subscriber station, and wireless communication is performed between the relay subscriber station and the upper base station using an arbitrary time slot of the first frequency channel. Communication between the base station and the lower base station via the relay subscriber station. 2. TDMA / TD between a first group of neighboring subscriber stations using a first frequency channel.
A base station for performing wireless communication by TDMA / TDD between a base station that performs wireless communication by D and a second group of subscriber stations existing around using a second frequency channel; An upper base station uses a communication system connected by wire to a predetermined network, and a communication method between base stations for performing communication between the upper base station and the lower base station, wherein the upper base station is The first time schedule used for communication includes a first time slot used for communication between the upper base station and the first group of subscriber stations, and a first time slot used for communication between the upper base station and the lower base station. A second time slot used for communication is fixedly assigned to each of the second time slots. The second time schedule used for communication by the lower base station includes a time schedule between the lower base station and the subscriber station of the second group. A third time slot used for communication and a fourth time slot used for communication between the upper base station and the lower base station are fixedly allocated, respectively, and the lower base station is provided with a third time slot. Inter-base station communication method, comprising: switching a frequency channel to be used between a first time channel and a fourth time slot, and performing radio communication with an upper-level base station using the fourth time slot using the first frequency channel. . 3. TDMA / TD with a first group of neighboring subscriber stations using a first frequency channel.
A base station that performs wireless communication by TDMA / TDD between a base station that performs wireless communication according to D and a second group of subscriber stations existing around using a second frequency channel; An upper base station uses a communication system connected by wire to a predetermined network, and a communication method between base stations for performing communication between the upper base station and the lower base station, wherein the upper base station is A first time schedule to be used for communication is determined by the upper base station; information on the first time schedule is notified from the upper base station to a lower base station; and the lower base station is notified by an upper base station. The second base station determines a second time schedule to be used for communication based on the first time schedule obtained, and the lower base station follows the second time schedule. Selecting a time slot and selecting a frequency channel according to a communication partner, and performing wireless communication between the lower base station and the upper base station, and between the lower base station and the subscriber station in the second group. A communication method between base stations. 4. The communication method according to claim 3, wherein
In the first time schedule and the second time schedule, sharing commonly used in communication between the lower base station and the upper base station and communication between the lower base station or the upper base station and the subscriber station A time slot, a first dedicated time slot used exclusively for communication between the lower base station and the upper base station, and a dedicated time slot used for communication between the lower base station or the upper base station and the subscriber station. A communication method between base stations, comprising providing a second dedicated time slot.