JPH0965411A - Channel constitution method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain a method in which a time up to acquisition of an information channel is reduced in demand assign, effective use of a channel is conducted and the probability to secure the channel is enhanced. SOLUTION: As a channel constitution, an information channel 16 used for information transmission, a control channel 14 used to send control information such as assignment of information channel and a reservation channel 12 used in common for plural radio terminal equipments are provided, and the reservation channel is used to set the control channel by demand assignment.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a channel configuration method in a system for allocating information channels by demand assignment.

[0002]

2. Description of the Related Art In a conventional wireless communication system, a method for accessing one channel from a plurality of wireless terminals and transmitting information is roughly classified into a contention method and a non-contention method.

In the contention system, each terminal may arbitrarily make an access request and competition may occur. In the non-contention method, each terminal has a slot, time,
Since frequencies are allocated, competition does not occur.

When the contention system is adopted for the information channel, there is a problem that when the traffic increases, the number of collisions increases and a transmission delay occurs, making it difficult to provide a service of a specified quality.

On the other hand, in an access type wireless communication system, user information may be transmitted on an information channel, and information relating to control such as information channel allocation request, permission, and authentication may be transmitted using the control channel.

When the non-contention system is adopted for the information channel, the information channel is set by the control channel which reserves by using the contention system before starting the use of the information channel, and the communication is started.

Further, in a wireless communication system that flexibly responds to changes in the bandwidth of information channels, the amount of information on control channels increases as the frequency of information channel allocation increases. In addition, the traffic on the control channel increases as the number of wireless terminals existing within the service area of the wireless base station increases.

When the contention method is adopted to acquire the control channel, the increase in the traffic of the control channel causes the retransmission process due to the occurrence of collision, the time until the control channel is acquired becomes long, and the user acquires the information channel. It also takes a long time to start communication.

FIG. 5 is a diagram for explaining a conventional channel configuration method. The information channels in the user channel area of FIG. 5 are assigned using the control channels in the control channel area by the non-contention method. The control channel can be acquired by the contention method. In addition, as a multiple channel access method of the information channel, F
When using DMA (Frequency Division Multiple Access), each channel is assigned using a different frequency.
In the case of DMA (Time Division Multiple Access), each channel is assigned at different times. Of course, it is also possible to combine these and assign each channel to different frequencies or different times.

The control channel is used not only for information channel setting control but also for processing such as authentication, or because the number of wireless terminals existing in the service area of the wireless base station increases. There is a problem that the traffic of the control channel increases and a collision occurs, so that it takes a long time to acquire the information channel.

In order to avoid this problem, it is conceivable that the control channel is fixedly assigned to each wireless terminal, but with the problem that the wireless resources become enormous,
Since the area to be allocated to the control channel and the area to be allocated to the information channel are determined in advance, even if the control channel has no free space and the information channel has free space, the control channel cannot be allocated and communication cannot be performed. Had a drawback.

[0012]

Conventionally, as described above, the control channel used for the information channel allocation control has been acquired by the contention system. In such a case, there is a drawback that the time until acquisition of the information channel becomes longer as the traffic volume of the control channel increases.

In the present invention, in order to solve this problem,
The purpose of the present invention is to shorten the time required to acquire an information channel by providing each wireless terminal with a reserved channel for setting and controlling a control channel and adopting a contention system for this.

Also, by making the information channel and the control channel a shared resource, it is possible to effectively use the radio resource, and the information channel and the control channel are not fixedly allocated, and when the request is made, the vacant channel is used as the information. By assigning both for transmission and control,
The purpose is to make effective use of channels and increase the probability of securing channels.

[0015]

As a channel configuration of the present invention, an information channel used for information transmission, a control channel for transmitting control information such as allocation of information channels, and a contention method for reserving a control channel are adopted. It consists of three types of reserved channels.

By assigning control channels by demand using reserved channels, the control information of the information channels can be flexibly transmitted without collision with other users even when the traffic of the control channels increases. Further, the main feature is that the channels can be effectively used by allocating the vacant channel to either one without distinguishing the control channel area and the information channel area.

It is possible to acquire a control channel by using the reserved channel, release it once after using the control channel, and allocate it to a user who has used the control channel as an information channel when transmitting information. Alternatively, it can be assigned as an information channel of another user.

The channel used as the information channel can be released after the end of communication and can be newly assigned as a control channel for a request for a control channel.

During communication, it is necessary to transmit control information using a control channel such as a communication band change, handover, and channel change notification for interference detection. When allocating a control channel, a part of the information channel is It can be temporarily assigned as a control channel, used as a control channel, and can be used again as an information channel if necessary after use.

It is possible to newly allocate a control channel in response to a control channel use request during information transmission and release the control channel after use.

According to the present invention, a channel is composed of an information channel, a control channel, and a reservation channel, and for the information channel, the control channel is used to transmit control information such as allocation of the information channel. By demand-assigning using the reserved channel,
Even when the traffic on the control channel increases, the control information on the information channel can be flexibly transmitted without collision with other users. As a result, the delay time of call connection can be shortened even when the traffic on the control channel increases. Further, the main feature is that the channels can be effectively used by allocating the vacant channel to either one without distinguishing the control channel area and the information channel area. Therefore, since the channel assigned to the control channel can be released after use, the released channel can be assigned again as a control channel or as an information channel. INDUSTRIAL APPLICABILITY According to the present invention, it is possible to flexibly transmit control information to the information channel and increase the area of the channel allocated as the control channel, so that the channel utilization efficiency can be improved.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION There are three types of channels between a wireless base station and a wireless terminal: an information channel used for transmitting user information, a control channel used for transmitting control information, and a reservation channel for reserving a control channel. have. Power supply O
Using a trigger such as N, the wireless terminal reserves the control channel using the reserved channel. The reservation channel adopts the contention method, and when a request for the control channel occurs, the wireless terminal randomly accesses the reservation channel. After the control channel is acquired between the wireless base station and the wireless terminal, the control channel transmits a control signal such as an information channel use request, a band change request, and a permission, and the free channel from the wireless base station is used as the information channel. Assign as.

FIG. 1 shows an embodiment of the present invention. FIG. 1 shows a frame in time division communication, and the horizontal axis represents time.
In frequency division communication, it represents a spectrum, and the horizontal axis represents frequency. One reserved channel is fixedly provided in the frame (or spectrum). The control channel is allocated by the contention method using the reserved channel, the information channel is requested to be allocated using the allocated control channel, and after use, the information channel is allocated to the user who has used the control channel. , Allocate other free channels if more bandwidth is needed. Regardless of whether the control channel and the allocatable channel are adjacent to each other, channel allocation is performed and information transmission is started.

When the areas of the information channel and the control channel are not distinguished, it is desirable that the information channel and the control channel have the same size. However, in a high-speed wireless communication system, the amount of information to be transmitted on the control channel is often smaller than the amount of information to be transmitted on the information channel. When the information channel and the control channel have the same size, if the channel used as the information channel is allocated as the control channel, the amount of control information is smaller than the size of one information channel, and the frequency utilization efficiency is reduced. In such a high-speed wireless communication system, the basic unit of one channel is the size of the control channel, and a plurality of information channels can be used simultaneously according to the amount of user information. Also, 1 / n of the size of one of the information channels
The size of (n: integer) is defined as the size of the control channel, and a channel configuration in which information channels and control channels of different sizes are mixed is possible. In this case, when the number of information channels is insufficient, n free control channels can be assigned as one information channel.

FIG. 2 shows another embodiment of the present invention. A channel used by a user (user A) as an information channel is opened by another user (user B or user C).
Assigned as the control channel or information channel of the.

FIG. 3 shows another embodiment of the present invention. In the state where the control channel is open because there is no control information to be sent during the information transmission, the control channel is required for communication band change, handover, interference detection, etc. In some cases, some of the information channels in use are used as control channels. When the transmission of the control information is completed by the control channel and the control channel becomes unnecessary again, the information channel partially used as the control channel is used again as the information channel. If there is a request for bandwidth reduction, the channel used as the control channel is released.

FIG. 4 shows another embodiment of the present invention. The control channel is required for communication band change, handover, interference detection, etc. in the state that the control channel is open because there is no control information to be sent during the information transmission. When there is no room to use a part of the above as a control channel, a new control channel is allocated by the reserved channel and used. After transmitting the control information,
By releasing the control channel, channel allocation is performed according to the next request. If there is a request for increasing the bandwidth, it is reassigned as an information channel.

[0028]

According to the present invention, since the reserved channel is arranged for the reservation of the control channel, even if the traffic of the control channel increases, two or more users simultaneously transmit the control information like the random access, and the collision occurs. It is possible to shorten the time for starting use of the information channel, that is, the time for call connection. By securing the control channel for the information channel, it is possible to flexibly deal with the case where the control information such as a band change during communication increases. In addition, it is possible to improve the channel utilization efficiency by allocating the vacant channel as the information transmission channel and the control channel without dividing the area allocated as the information channel and the area allocated as the control channel. In addition, the control channel is released after use, and when a request is made, the channel is secured again to reduce call loss.

[Brief description of drawings]

FIG. 1 shows a case where an allocation as an information channel is performed after a control channel is used in an embodiment of the present invention.

FIG. 2 shows channel allocation after release of an information channel in an embodiment of the present invention.

FIG. 3 shows control channel allocation during communication in the embodiment of the present invention.

FIG. 4 shows control channel allocation during communication in the embodiment of the present invention.

FIG. 5 is a diagram illustrating a conventional channel configuration method.

[Explanation of symbols]

 10 frames (or spectrum) 12 reserved channels 14 control channels 16 information channels

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masamitsu Nagura 1-6, 1-chome, Saiwaicho, Chiyoda-ku, Tokyo Nihon Telegraph and Telephone Corporation

Claims (6)

[Claims] 1. When a request for using an information channel used for transmitting user information is issued from a wireless terminal, the request for using the information channel is transmitted to the wireless base station using the control channel used for transmitting control information. In a wireless communication system adopting a demand assign method in which an information channel is allocated to a wireless terminal in a wireless base station that has received the use request, at least one reserved channel with a fixed arrangement that can be shared by a plurality of wireless terminals is provided, A channel configuration method, wherein the control channel is set by demand assignment by the reserved channel. 2. The control channel and the information channel are used as a shared resource without being individually arranged, and an empty channel in the shared resource is used as a control channel or an information channel in response to a channel request from a wireless terminal. Channel configuration method. 3. The channel configuration method according to claim 1, wherein the control channel is released after use. 4. The channel configuration method according to claim 1, wherein the channel used as the information channel is released after the end of the information communication of the user. 5. The information channel according to claim 1, wherein a part of the allocated information channel is changed to a control channel, and when the control channel becomes unnecessary, it is changed to the information channel again. Channel configuration method. 6. The control channel is newly allocated by using a reserved channel when it is necessary to transmit control information using the control channel while the information channel is in use. The channel configuration method described in the section.