JP2003009219A - Multichannel time-division multiple-access radio communication system, and slot allocation information notifying method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the line activity ratio of effective user data by reducing time slot allocation information quantity as an overhead to be transmitted to down links in a multichannel time-division multiple-access radio communication system. SOLUTION: A reference station 10 monitors respective up links 40 and 41 and down links 30 and 31, respectively decides links used by respective terminal stations 50-1 to 13, and notifies the terminal stations of the links to make the terminal stations set the lines. The reference station that receives a time slot allocation request for an up link from a terminal station allocates time slots on the up link, prepares slot allocation notification that does not include designation information of the notified up link for the terminal station, further prepares slot allocation information that allocates the allocation notification in each down link used by an allocated terminal station and transmits the slot allocation information. The terminal station stores information of a time slot allocated to its own station and transmits data with a corresponding time slot of a corresponding up link.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-channel time division multiple access wireless communication system and a slot allocation information notifying method therefor, and in particular, a reference station for controlling a plurality of uplinks and downlinks corresponding to different radio frequencies,
A time slot on the uplink for transmitting data from each terminal station to the reference station, which is provided with a plurality of terminal stations that perform data communication by time division multiplexing with the reference station via arbitrarily designated uplinks and downlinks. A multi-channel time division multiple access wireless communication system that notifies the corresponding terminal station from the reference station of slot allocation information indicating the allocation of the reference station and the terminal station,
The slot allocation information notification method.

[0002]

2. Description of the Related Art Conventionally, one reference station and a plurality of terminal stations are
In a multi-channel time division multiple access wireless communication system that performs data communication via a plurality of downlinks from a reference station to a terminal station and a plurality of uplinks from a terminal station to a reference station, a finite line resource (Resource) is used. ) Is shared by a large number of communication stations, the load may be temporarily biased to a certain frequency (line). By distributing this, the operating frequency of the terminal station is dynamically changed to improve the efficiency of the entire system. Use the function to change. At this time, the downlink and the uplink are independent from each other rather than combining the downlink from the reference station to the terminal station and the uplink from the terminal station to the reference station in a one-to-one or one-to-n combination to change the frequency. It is more flexible and effective in load balancing if changed.

[0003]

However, when the downlink and the uplink are independently changed as described above, the downlink and the uplink used by each terminal station are not uniquely determined. Therefore, as shown in FIG. , It is necessary to transmit slot allocation information of all uplinks to all downlinks in parallel. At this time, the slot allocation information transmitted to all downlinks is the same information, and the allocation information addressed to the terminal station that is not actually using the downlink is also included, so that the amount of overhead information increases. Also, each terminal station side that receives the slot allocation information searches the entire slot allocation information to extract the allocation information addressed to itself, or recognizes the uplink channel ID used by the own station, It was necessary to extract allocation information from the corresponding uplink slot allocation information.

[0004]

A reference station according to claim 1 of the present invention comprises a reference station for controlling a plurality of uplinks and downlinks corresponding to different radio frequencies, and an arbitrarily designated uplink and downlink. It is equipped with a plurality of terminal stations that perform data communication by time division multiplexing with a reference station via a line, and slot allocation information indicating allocation of time slots on the uplink for transmitting data from each terminal station to the reference station from the reference station. In the reference station used in the multi-channel time division multiple access wireless communication system for notifying the corresponding terminal station via the downlink, the slot allocation information transmitted to one downlink is used by the terminal using the downlink. Consists only of stations.

According to a second aspect of the present invention, in the reference station according to the first aspect, the operating states of the plurality of uplinks and downlinks are monitored and the uplinks and downlinks used by the respective terminal stations are monitored. Each of them is decided and notified to the corresponding terminal station, and when each terminal station receives an uplink time slot allocation request, the notified time slot allocation is performed and the corresponding terminal station A resource allocation control means for creating a slot allocation notification which does not include the notified uplink designation information, and for creating slot allocation information which is allocated to each downlink used by the allocation destination terminal station. .

A terminal station according to claim 3 of the present invention comprises a reference station for controlling a plurality of uplinks and downlinks corresponding to different radio frequencies, and a reference station via arbitrarily designated uplinks and downlinks, respectively. And a plurality of terminal stations that perform data communication by time division multiplexing, and slot allocation information indicating allocation of time slots on the uplink for transmitting data from the terminal station to the reference station is transmitted from the reference station to the terminal via the downlink. In the terminal station used in the multi-channel time division multiple access radio communication system for notifying the station, when receiving one or both of the uplink and the downlink to be used from the reference station, for the subsequent communication with the reference station. If the line of No. is the notified line, and there is transmission data to the reference station, create a time slot allocation request on the uplink, When receiving the slot allocation information from the quasi station holds information of the time slot assigned to its own station, has the resource allocation control means for transmitting the data by appropriate uplink appropriate time slot.

A multi-channel time division multiple access radio communication system according to claim 4 of the present invention comprises a reference station according to claim 2 and a terminal station according to claim 3.

A multi-channel time division multiple access radio communication system according to claim 5 of the present invention is the multi-channel time division multiple access radio communication system according to claim 4,
The slot allocation information for each downlink is composed of identification information of the allocation destination terminal station, and information on the number of time slots allocated to the corresponding terminal station and position information.

A slot allocation information notifying method according to claim 6 of the present invention provides a reference station for controlling a plurality of uplinks and downlinks corresponding to different radio frequencies, and an arbitrarily designated uplink and downlink respectively. The base station includes a plurality of terminal stations that perform data communication by time division multiplexing via the base station, and slot allocation information indicating time slot allocation on the uplink for transmitting data from the terminal station to the base station is transmitted from the base station to the downlink. In a slot allocation information notification method in a multi-channel time division multiple access wireless communication system for notifying a terminal station via a terminal, in the reference station, the terminal uses the corresponding slot allocation information for each downlink. Consists only of stations
There is a step of notifying the terminal station.

A slot allocation information notification method according to a seventh aspect of the present invention is the slot allocation information notification method according to the sixth aspect, wherein the reference station monitors the operational states of the plurality of uplinks and downlinks, and Determine the uplink and downlink to be used by each terminal station, notify the corresponding terminal station, and at each of the terminal stations, one or both of the notified uplink and downlink lines It is set as a line for communication with the reference station, and when there is transmission data from each of the terminal stations to the reference station, it transmits a time slot allocation request on the uplink to the reference station and receives the allocation request. In the reference station, the time slot on the uplink notified to the corresponding terminal station is allocated,
To the corresponding terminal station, create a slot allocation notification that does not include the notified uplink designation information, and create slot allocation information that distributes this allocation notification for each downlink used by the allocation destination terminal station. The terminal station, which has transmitted and has received the slot allocation information, holds the information of the time slot allocated to itself and transmits the data in the corresponding time slot of the corresponding uplink.

A slot allocation information notifying method according to claim 8 of the present invention is the slot allocation information notifying method according to claim 7, wherein the slot allocation information for each downlink is identified by the identification information of the allocation destination terminal station. The number of time slots assigned to the terminal station and the position information.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First, the outline of the present invention will be described. 1
One reference station (control station, base station) and multiple terminal stations (terminal station,
Relay station), in a multi-channel time division multiple access wireless communication system in which data communication is performed via a plurality of downlink wireless lines from the reference station to the terminal station and a plurality of uplink wireless lines from the terminal station to the reference station, Since there is transmission data from the terminal station to the reference station because the terminal station shares the uplink of the same frequency, the terminal station requests the reference station to allocate a time slot for time division of the uplink, and the reference station requests this. When using the demand assign method of allocating time slots to the slots and notifying the slot allocation information via the downlink, the slot allocation information transmitted to one downlink is related to the terminal station using the downlink. Only items are included.

The reference station has a function of monitoring the usage rate of each downlink and each uplink and requesting the terminal station to change the used frequency in order to disperse the congestion state. The combination of the downlink and uplink used by is not unique, but the reference station manages the frequency used by each terminal station, so that the reference station can use the downlink for each downlink. Only the slot allocation information regarding The slot allocation information for each downlink is
The format is as shown in FIG. 6, and the slot allocation information for each terminal station includes only the terminal station ID, the number of allocated slots, and the allocated slot number.

Between a plurality of terminal stations that use the same downlink, terminal stations that use the same uplink and terminals that use different uplinks coexist, but the resource allocation control unit of the reference station is the same. Since downlink frequency and uplink frequency used by the terminal station are managed and slot allocation information is created, allocation slots do not overlap. At this time, the amount of overhead slot allocation information sent to each downlink is reduced, and at the same time each terminal station must recognize the uplink used by its own station and extract the allocation information. Therefore, the processing on the terminal station side is reduced.

Next, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a system configuration diagram showing an embodiment of the present invention. In FIG. 1, the multi-channel time division multiple access wireless communication system of this example has one reference station 10
And a plurality of terminal stations 50 (50-1, ..., 50-6, 50
-10, ..., 50-13). Reference station 1
0 is provided with a plurality of directional antennas, and a plurality of communication zones (A, B) 2 covered by the respective antennas 2
Has 0,21. Depending on the geographical location of each terminal station 50,
Terminal stations that belong to one communication zone and belong to the same communication zone have the same frequency (wireless line, channel)
Can be used. Communication between the reference station 10 and a terminal station group belonging to one communication zone A20 (or B21) is performed by a plurality of downlink wireless lines 3 in the direction from the reference station to the terminal station.
0 (or 31) is performed via a plurality of uplink radio lines 40 (or 41) from the terminal station toward the reference station. When a plurality of terminal stations use one uplink frequency, a demand assign type time division multiple access method (TDMA) is used.
Method) is used.

The configuration of FIG. 1 is a basic unit of the system, and by connecting a plurality of reference stations with a terrestrial communication network, communication between terminal stations belonging to different reference stations is also possible. Further, the terminal station can be installed at a fixed position for use or can be used while moving.

FIG. 2 shows a format of a wireless line signal between the reference station 10 and the terminal station 50. Of these, FIG. 2A shows a downlink signal format transmitted from the reference station to the terminal station. The downlink signal is time-divided into frames of a fixed time length, and the "frame synchronization pattern" and the "slot allocation information" of the uplink are transmitted at the beginning of each frame. The frame synchronization pattern enables the terminal station that receives the frame synchronization pattern to perform frame synchronization with the reference station. The slot allocation information shall notify the allocation of the data slot to be used in the next uplink frame by the terminal station which receives it. The frame synchronization pattern and the uplink slot allocation information are followed by a plurality of "data slots (1 to n)" for accommodating actual user data and control data transmitted from the reference station to the terminal station.

Each terminal station 50 receives all the data slots transmitted on the received downlink frequency, but by identifying the destination terminal station ID added to each data in the data slot, it is addressed to itself. Capture only the data of. In this example, the downlink frame is divided into data slots of a certain time length, and the data transmitted from the reference station to the terminal station is in the packet format of a certain length, but the data from the reference station to the terminal station is It is also possible to adopt a variable length packet format conforming to the HDLC format (address field + control field + DATA field).

FIG. 2B shows each terminal station 50 to the reference station 10.
3 shows an uplink signal format transmitted to the. The uplink signal is also time-divided into frames of a fixed time length, and the time length of the frame at this time is the same as the time length of the downlink frame. Each uplink frame is
It is divided into two parts: an "allocation request area" and a "data slot area". The allocation request area is composed of a time slot used only by the allocation request message transmitted from the terminal station to the reference station.

When each terminal station sends an allocation request message to a slot in the allocation request area, the slot aloha method is used. The data slot area is composed of a plurality of data slots (1 to m) for accommodating actual user data and control data (including response information) transmitted from the terminal station to the reference station. The data slot in the data slot area can be used only by the terminal station assigned the slot number from the reference station according to the downlink assignment information. Further, the lengths of the time slots forming the allocation request area and the data slot area must be constant time lengths.

FIG. 3 is a block diagram showing a configuration example of the reference station 10. In FIG. 3, the reference station 10 is an IP (Int
ernet Protocol) and ATM (Async)
A protocol I / F control unit 101 for controlling an interface with a terrestrial communication network such as a hornous transfer mode, and a protocol I / F control unit 101.
A packetizing unit 102 that buffers the data input from the above and changes it into a packet format that is transmitted and received on the wireless line, and a router 103 that distributes each packet to the downlink used by the destination terminal station.

The reference station 10 also includes a resource allocation control unit 104 that manages the frequencies (lines, channels) used by the terminal stations under its control, and the router 103 uses the frequency information of the terminal stations that the resource allocation control unit 104 has. refer. Further, the resource allocation control unit 104 manages the frequencies used by the terminal stations and, at the same time, controls the allocation of the uplink data slots requested to be allocated by the terminal stations. When the terminal station requests the uplink data slot allocation, the resource allocation control unit 104 immediately determines the uplink data slot allocation when there is a free data slot, and allocates the slot to the corresponding terminal station. The notification is created, and further, the slot allocation information is created by allocating the allocation notification to each downlink used by the allocation destination terminal station.

Further, the resource allocation control section 104 monitors the operating states (congestion state) of the downlink and the uplink, determines the frequency (line, channel) used by the terminal station, and ) It also has a function of notifying this to the terminal station. The resource allocation control unit 104 creates control data requesting the terminal station to change the used frequency, and transmits the control data to the terminal station via the router 103, similarly to the user data.

Next, the reference station 10 is a synchronization control unit 105 which serves as a reference for frame synchronization between itself and its subordinate terminal stations.
The synchronization control unit 105 supplies a reference clock in the reference station and outputs a frame synchronization signal serving as a reference for frame synchronization with the terminal station. The resource allocation control unit 104 described above is supplied with the frame timing from the synchronization control unit 105, and subsequently, after transmitting the frame synchronization signal, transmits the slot allocation information for each downlink. The frame timing used by one reference station 10 is common to all downlinks.

Further, the reference station 10 includes a multiplexer 106, an encoder (Encoder) 107, and a modulator (M) for each downlink.
OD) 108, respectively. The multiplexing unit 106 time-division-multiplexes the data packet output from the router 103, the slot allocation information output from the resource allocation control unit 104, and the frame synchronization signal output from the synchronization control unit 105. Outputs are encoder 107 and MOD 108
Via the radio frequency transmission / reception device 109 having an antenna that covers each communication zone.

On the other hand, the uplink signal received by the radio frequency transmission / reception device 109 is demodulated by the demodulator (DEM) 110 provided for each uplink reception frequency, and the decoder (D
After being decoded by the encoder 111, it is output to the separation unit 112. The separation unit 112 separates the received uplink information into a slot allocation request message of the terminal station, control data from the terminal station and a user data packet, and the allocation request message and the control data are separated by the resource allocation control unit 10.
4 to output the user data packet to the multiplexing unit 113.

Multiplexing section 113 multiplexes data packets for all uplink frequencies and outputs the multiplexed data packets to data reconstructing section 114. Data reconstruction unit 114
Restores the data packet input from the wireless line to the format processed by the terrestrial communication network, and
It has a buffering function as well as a function of transmitting to the terrestrial communication network via the F control unit 101.

The reference station 10 also includes an external control terminal 115 for inputting registration / addition of a terminal station and displaying the system status.

Next, FIG. 4 shows each terminal station 50 (50-1 to 50-1).
50-6, 50-10 to 50-13) is a block diagram showing a configuration example. In FIG. 4, a terminal station 50 includes a radio frequency transceiver 501 having an antenna and a demodulator (DEM) 5 for demodulating a downlink signal received by the radio frequency transceiver 501.
02 and a decoder (Dec) for decoding the output of the DEM502.
and a demultiplexing unit 504 that demultiplexes the downlink information output from the decoder 503 into data, a frame synchronization signal, and uplink slot allocation information. The separation unit 504 converts the data into the data reconstruction unit 5
05, the slot allocation information is output to the resource allocation control unit 508, and the frame synchronization signal is output to the synchronization control unit 509.
Output to.

The data reconstructing unit 505 restores the user data, out of the data received on the downlink, to a format processed by the terrestrial communication network and outputs it to the protocol I / F control unit 506. In addition, the data reconstruction unit 505
Of the data received on the downlink, the control data from the reference station 10 is output to the resource allocation control unit 508.

The protocol I / F control unit 506 controls an interface with a terrestrial communication network (wired), and sometimes a terminal and a point-to-point.
It may be connected at t, 1: 1).

The terminal station 50 also includes a packetizing unit 507 that changes the data input from the protocol I / F control unit 506 into a packet format transmitted and received on a wireless line and buffers the data.

Further, the terminal station 50 has a resource allocation control unit 508 for managing allocation of uplink data slots for data transmission to the reference station. When the transmission data is buffered in the buffer of the packetization unit 507, the resource allocation control unit 508 creates a slot allocation request message for the reference station. At the same time, the resource allocation control unit 508 receives the slot allocation information from the reference station and holds the uplink data slot number of the next frame allocated to itself. Furthermore, when the control data from the reference station is a request to change the used frequency, the resource allocation control unit 508 holds the content and sets a new allocated frequency in the demodulator (DEM) 502 and the modulator (MOD) 512. It also has a function to do. At this time, the resource allocation control unit 508 creates control data which is a response message to the frequency change request from the reference station, and outputs this to the transmission control unit 510.

In the terminal station 50 to which the uplink data slot of the next frame is assigned according to the slot assignment information notified by the downlink, the transmission data output from the packetizing unit 507 or the resource assignment control unit 50 is used.
The control data, which is the output from 8, is output to the assigned slot by the transmission control unit 510.

The synchronization control unit 509 of the terminal station 50 establishes frame synchronization with the reference station based on the frame synchronization signal separated by the separation unit 504, and establishes TDMA transmission synchronization of its own station. In addition, the transmission control unit 510 includes the synchronization control unit 50.
9 based on the transmission synchronization established by the resource allocation controller 5.
It recognizes the allocation slot timing for own station in the next uplink frame, which is held in No. 08, and transmits the outputs of the packetization unit 507 and the resource allocation control unit 508. Further, transmission control section 510 randomly selects an uplink allocation request area time slot, and sends an allocation request message output from resource allocation control section 508 to this.

The output of the transmission controller 510 is the encoder 51.
1. The signal is output to the radio frequency transmission / reception device 501 via the modulator (MOD) 512.

Next, the operation of the present invention will be described.

FIG. 5 shows a basic example of an uplink data slot allocation sequence according to the present invention. The example of FIG. 5 is assumed to start from a state in which two stations, the terminal station 50-1 and the terminal station 50-2, use the same frequency for both the downlink and the uplink. At this time, the frequency used by the two stations is referred to as frequency FA.

In frame 1, both terminal stations 50-1 and 50-1 transmit an uplink slot allocation request. Since the two stations use the same downlink frequency FA, the slot allocation information of the terminal stations 50-1 and 50-2 regarding frame 2 is sent to the same downlink. In accordance with this slot allocation information, the terminal stations 50-1 and 50-2 use the allocation slot in frame 2 to transmit data.

Next, in frame 3, the reference station 10 transmits a frequency change request for requesting the terminal station 50-2 to change the downlink frequency to FB. At this time, the resource allocation control unit 104 of the base station 10 determines that the terminal station 50-2
The slot used for the response transmission to the frequency change is allocated to the frame 3 in advance. Terminal station 50-2
When the frequency change request is received, the resource allocation control unit 508 changes the downlink frequency to FB and transmits a frequency change response to the reference station 10 using a slot that is assigned in advance.

As described above, the reference station 10 and the terminal station 50-
2 completes the downlink frequency change sequence, and the reference station 10 determines that the terminal station 50-2 has a new downlink frequency F.
It is determined that B has started to be used. That is, the reference station 10 transmits the allocation information for the slot allocation request requested by the terminal station 50-2 after frame 4 only to the downlink frequency FB, and allocates the slot information addressed to the terminal station 50-2 to the downlink frequency FA. No information is sent.

FIG. 6 shows an example of uplink slot allocation information transmitted by the reference station 10 to the downlink. The slot allocation information includes only the allocation information addressed to the terminal station 50 using the downlink, and the allocation notification addressed to one terminal station is
It is composed of an ID number for identifying a terminal station, the number of slots allocated in the next uplink frame, and a slot number. FIG. 6 shows an example in which one slot is assigned to each of the terminal stations with ID numbers # 1 and # 2, and two slots are assigned to the terminal station with ID numbers #n.

Between a plurality of terminal stations that use the same downlink, terminal stations that use the same uplink and terminals that use different uplink coexist, but the resource allocation control unit 104 of the reference station 10 does not exist. However, in order to manage the frequencies used by all the terminal stations 50 and the slot allocation of each uplink and to create allocation information without duplication of allocation slots or contradiction, the slot allocation information must include the frequency and channel ID of the uplink. There is no.

Next, another embodiment of the present invention will be described. The multi-channel time division multiple access wireless communication system of the present invention can also be applied to a satellite communication system in which a satellite is used for communication between a reference station and a terminal station.

[0046]

According to the present invention, since the slot allocation information transmitted to one downlink is composed only of the information addressed to the terminal station using the downlink, it is transmitted to the downlink. The amount of allocated information as overhead decreases,
The line usage rate of effective user data can be improved. Further, since each terminal station that receives the allocation information does not need to recognize the uplink used by itself and extract the allocation information, the processing on the terminal station side is simplified.

[Brief description of drawings]

FIG. 1 is a system configuration diagram showing an embodiment of the present invention.

FIG. 2 is a diagram showing a format of a wireless line signal between a reference station and a terminal station.

FIG. 3 is a block diagram showing a configuration example of a reference station of the present invention.

FIG. 4 is a block diagram showing a configuration example of a terminal station of the present invention.

FIG. 5 is a diagram showing a basic example of an uplink data slot allocation sequence in the present invention.

[Fig. 6] A reference station in the present invention sends out to a downlink,
It is a figure which shows an example of uplink slot allocation information.

FIG. 7 is a diagram showing an example of uplink slot allocation information transmitted to a downlink by a reference station in the related art.

[Explanation of symbols]

10 reference stations 50 (50-1, ..., 50-6, 50-10, ..., 50
-13) Terminal station 101 Protocol I / F control unit 102 Packetization unit 103 Router 104 Resource allocation control unit 105 Synchronization control unit 106 Multiplexing unit 107 Encoder 108 Modulator (MOD) 109 Radio frequency transceiver 110 Demodulator (DEM) 111 Decoder 112 Separation Unit 113 Multiplexing Unit 114 Data Reconstruction Unit 501 Radio Frequency Transceiver 502 Demodulator (DEM) 503 Decoder 504 Separation Unit 505 Data Reconstruction Unit 506 Protocol I / F Control Unit 507 Packetization Unit 508 Resource Allocation Control unit 509 Synchronization control unit 510 Transmission control unit 511 Encoder 512 Modulator (MOD)

Claims (8)

[Claims] 1. A reference station which controls a plurality of uplinks and downlinks corresponding to mutually different radio frequencies, and a plurality of which performs time-division multiplexing data communication with the reference station via arbitrarily designated uplinks and downlinks, respectively. In the case of multiple channels, the slot allocation information indicating the time slot allocation on the uplink for transmitting data from each terminal station to the reference station is notified from the reference station to the corresponding terminal station via the downlink. The reference station used in a division multiple access wireless communication system, wherein the slot allocation information transmitted to one downlink is configured only for terminal stations using the downlink. 2. The operating states of the plurality of uplinks and downlinks are monitored to determine the uplinks and downlinks to be used by each terminal station, which is notified to the corresponding terminal station, and each terminal is also notified. When a time slot allocation request on the uplink is received from the station, the notified time slot allocation on the uplink is performed, and a slot allocation notification not including the notified uplink specification information is sent to the corresponding terminal station. 2. The reference station according to claim 1, further comprising: resource allocation control means for creating the slot allocation information, which is created for each downlink and used by the allocation destination terminal station. 3. A reference station for controlling a plurality of uplinks and downlinks corresponding to different radio frequencies, and a plurality of data communication units for time-division multiplexing with the reference station via arbitrarily designated uplinks and downlinks, respectively. Multi-channel time-division multiple access for reporting slot allocation information indicating time slot allocation on the uplink for transmitting data from the terminal station to the reference station, from the reference station to the terminal station via the downlink. In the terminal station used in the wireless communication system, when receiving one or both of the uplink and the downlink to be used from the reference station, the subsequent communication with the reference station becomes the notified line, and the reference station If there is data to be transmitted to the base station, create a time slot allocation request on the uplink and use the slot allocation information from the base station. Upon receipt, the terminal station, characterized in that it comprises a hold information of the assigned time slot to the own station, appropriate resource allocation control means for transmitting the data by appropriate time slot in the uplink. 4. A multi-channel time division multiple access wireless communication system comprising the reference station according to claim 2 and the terminal station according to claim 3. 5. The slot allocation information for each downlink is composed of identification information of an allocation destination terminal station, number information of time slots allocated to the corresponding terminal station, and position information. 4. A multi-channel time division multiple access wireless communication system according to 4. 6. A reference station for controlling a plurality of uplinks and downlinks corresponding to radio frequencies different from each other, and a plurality of data communication by time division multiplexing with the reference station via arbitrarily designated uplinks and downlinks, respectively. Multi-channel time-division multiple access for reporting slot allocation information indicating time slot allocation on the uplink for transmitting data from the terminal station to the reference station, from the reference station to the terminal station via the downlink. In a method of notifying slot allocation information in a wireless communication system, in the reference station, for each downlink, the slot allocation information is configured only with respect to a terminal station using a corresponding downlink, and is notified to the terminal station. A method for notifying slot allocation information, comprising: 7. The base station monitors the operating states of the plurality of uplinks and downlinks to determine the uplinks and downlinks to be used by each of the terminal stations, and notify the corresponding terminal station. In each of the terminal stations, one or both of the notified uplink and downlink lines is set as a line for subsequent communication with the reference station, and the transmission data from each terminal station to the reference station is In some cases, an uplink time slot allocation request is transmitted to the reference station, and the reference station that has received the allocation request allocates the uplink time slot notified to the corresponding terminal station, and applies To the terminal station, a slot allocation notification that does not include the notified uplink designation information is created, and this allocation notification is allocated to each downlink used by the allocation destination terminal station. Creating and transmitting allocation information, the terminal station having received the slot allocation information, holding information of the time slot allocated to itself, and transmitting data in the corresponding time slot of the corresponding uplink 7. The method of notifying slot allocation information according to claim 6. 8. The slot allocation information for each downlink is composed of identification information of an allocation destination terminal station, number information of time slots allocated to the corresponding terminal station, and position information. 7. The slot allocation information notification method described in 7.