JP3284098B2 - Wireless access method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio access method for establishing a radio link prior to a user channel assignment control for transmitting and receiving signals in a radio communication line.

[0002]

2. Description of the Related Art FIG. 3 shows a first example of a conventional method for accessing a base station on the same frequency channel. In this figure, TDMA (Time Division Multiple Access) is applied to a method of transmitting and receiving signals over a radio channel on the same frequency channel in a centralized control system including one base station and a plurality of (≧ 1) terminal stations. The example in the case of having performed is shown.

In FIG. 1, a terminal station that has started up under a base station observes a downlink signal of an access channel (Ach) and synchronizes with a frame shown in FIG.
A request signal is randomly transmitted to the channel uplink slot. When the request signal is normally received by the base station, uplink and downlink control channel (Cch) slots are allocated by the base station.

[0004] A terminal station transmits a radio channel control signal to the assigned Cch uplink slot, receives radio channel control information through the Cch downlink slot, and establishes a radio control link. Using this, user channel (Uch) allocation control is performed, and data signals are transmitted and received on the allocated Uch.

[0005]

When the conventional technique as described above is applied to an environment where there are more terminal stations than the number of Cch downlink (or uplink) slots, the Cch slots are occupied by the terminal stations. Therefore, the terminal station that cannot obtain the wireless control link cannot perform communication.

Therefore, as shown in FIG. 1, a terminal that has completed communication needs to release the radio control link. At this time, if the communication is performed again by the conventional method shown in FIG. 3, it is necessary to access the Ach slot again and acquire the Cch slot. Therefore, when the communication traffic rises, a collision in the Ach uplink slot may occur. There was a problem of frequent occurrence.

[0007] As shown in FIG. 4, the problem is to report the availability of Cch slots using an Ach downlink signal, and the terminal station randomly sends a request signal to a Cch slot arbitrarily selected based on the information. By distributing the traffic.

However, in this method, when a Cch uplink is not normally received, such as when a collision occurs, or when a signal is erroneously received due to multipath fading without a collision, the Cch downlink is not used. Since the line is not used, there is a problem that the line use efficiency is reduced.

[0009] Regarding the problem of a decrease in line use efficiency, as shown in FIG. 5, a Cch slot is randomly accessed to an empty Cch without discriminating between an uplink line and a downlink line, and a base station is used for wireless access from among them. Control link Cch
The problem can be solved by using a method of arbitrarily selecting and allocating from slots.

However, when this method is used, C
Since a slot different from the slot in which the channel is transmitted is allocated, the terminal side must determine which Cch has been allocated by receiving all the Cch downlink signals. There is a problem that the control load becomes heavy.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem. In a communication procedure as shown in FIG. 1, the probability of success of random access at the time of establishing a control channel is improved, and control is further performed. It is an object of the present invention to provide a wireless access method that is simple and can improve the line use efficiency.

[0012]

According to the invention, the above-mentioned object is solved by the means described in the claims. That is, the invention according to claim 1 is configured to transmit and receive a signal between one base station and at least one terminal station via a radio line on the same frequency channel, and to transmit and receive a radio signal. In a wireless communication system in which a wireless control link is set in advance between a base station and a terminal station,

The control channel is composed of a group of uplink slots and a group of downlink slots paired with each uplink slot, and when setting up a control line, the terminal station must be aware of the distinction between uplink and downlink of the control channel. Without, arbitrarily select an empty slot, randomly access using the selected slot, the base station receives the access signal from the terminal station in the uplink slot or the downlink slot of the control channel,

When different terminal stations access the uplink slot and the downlink slot forming a pair with the uplink slot, one of the terminal stations is selected and the initial one of the control channel is selected. This is a radio access method in which control information is transmitted to a terminal station in a corresponding slot in downlink according to uplink and downlink settings, and the terminal station transmits control information in uplink slots to establish a radio link.

In the present invention, a control channel is set in advance so that one slot group is set for downlink and the other slot group is set for uplink. An empty channel (slot) is arbitrarily selected and randomly accessed without discriminating whether the channel is present or downlink.

If it is normally received on one of the paired control channels (slots),
According to the initial uplink and downlink settings of the control channel, the terminal station receives the radio control information through the downlink and establishes the radio control link by transmitting the radio control signal to the uplink.

When a control channel pair is received from two terminals at the same time, one of the terminal stations is always selected to establish a control link as described above. In the method of the present invention, a condition that a control link cannot be set up occurs only when a collision occurs in both uplink and downlink of a control slot pair.

As described above, by setting both control channels for access at the time of line setting, it is possible to improve the use efficiency of the line and to make random access to the conventional uplink Cch slot shown in FIG. Since twice as many random access channels can be secured as compared with the method, the probability of signal collision can be improved.

Further, since the control link establishment is called from one of the paired control channels after the line allocation request signal, the terminal station performs control as in the conventional method described above with reference to FIG. Since it is not necessary to perform control for receiving and determining all signals of the channel downlink, it is possible to reduce the control load of the terminal station related to selection of the downlink control channel.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a flow chart showing control for transmitting and receiving data. In the figure, S-1 to S-5
And the like indicate processing steps, and correspond to the following description. The terminal station is in a standby state until data arrives (S-1). Then, when the data arrives, the request signal is transmitted at random by observing the downlink signal of the access channel (Ach) (S-
2).

When the request signal is normally received by the base station, the base station transmits the uplink and downlink control channels (Cc
h) The slot is allocated, and the terminal station transmits a radio channel control signal to the allocated Cch uplink slot.
The wireless channel control information is received by the downlink slot, and the wireless control link is established (S-3). Using this, user channel (Uch) allocation control is performed, and data signals are transmitted and received on the allocated Uch (S-4).
When the data transmission / reception is completed, the control channel is released (S-5).

Next, the radio access method of the present invention will be described with reference to FIG.
This will be described using the example shown in FIG. This figure is a diagram for explaining the acquisition of a control channel in which transmission and reception of data signals are performed as shown in the flowchart of FIG.
An example in which a control channel pair is configured by # 1-x is shown.

In the wireless access method of the present invention, FIG.
A pair of control channels is configured as shown in
The base station transmits a downlink control signal from Cch # 0-x,
It is determined that the uplink control signal is received by Cch # 1-x. Here, the terminal station RM1 performs Cch # 0-8 based on the idle channel information broadcast by the Ach downlink signal.
Is selected and a request signal is transmitted by the random access method.

Thereafter, the terminal station RM1 transmits the C of the next frame.
After receiving the downlink control signal at the timing of ch # 0-8 and identifying that the base station has allowed the allocation, Cch #
A control signal is transmitted to 1-8. This procedure causes RM1 to establish a control link.

As shown in frame T2, Ach
Based on the idle channel information broadcast by the downlink signal,
The terminal station RM2 is in Cch # 0-9 and the terminal station RM3 is in Cc
When transmission is performed for each of h # 1-9, the base station selects one of the terminal stations. (In this case, the terminal station R
This shows the case where M2 is selected.)

Then, by transmitting a downlink control signal from Cch # 0-9 of the next frame, the terminal station RM2 is notified that the control link setup has been permitted. 9 to transmit a control signal.
As a result, a control link can be established even when request signals are simultaneously received from two terminal stations.

The frame T3 is composed of the terminal station RM4 and the terminal station R
M5 and the terminal station RM6 transmit Cch # 0-1 and Cch # 1 based on the idle channel information broadcast by the Ach downlink signal.
An example in which a request signal is transmitted to # 1-1 is shown. At this time, the request signal cannot be normally received in Cch # 0-1 because a collision has occurred.

Then, the base station gives a transmission permission to the terminal station RM6 from which the request signal has been normally received. And
The base station transmits a downlink control signal at the timing of Cch # 0-1 to give the terminal station RM6 permission to transmit a control signal. In response, the terminal station RM6 transmits the control signal to Cch # 1.
-1 to transmit an uplink control signal.

In the above radio access method, Cch
If the terminal station cannot receive the downlink control signal transmitted at the timing of # 0-x, it is determined that the transmission request has been rejected. Further, even when the downlink control signal can be received, the terminal station to which the transmission permission is not given can know that the request has been rejected by identifying the message.

[0030]

As described above, according to the present invention, the control channel is composed of a group of uplink slots and a group of downlink slots forming a pair with each uplink slot. The slots of both groups are released to the terminal station as empty channels (empty slots). As a result, there is an advantage that the collision probability at the time of setting the line can be reduced, and the terminal station can set the radio control link by simple timing control.

[Brief description of the drawings]

FIG. 1 is a flowchart showing control when data transmission is performed.

FIG. 2 is a diagram illustrating a wireless access method according to the present invention.

FIG. 3 is a diagram illustrating a first example of a conventional wireless access method.

FIG. 4 is a diagram illustrating a second example of a conventional wireless access method.

FIG. 5 is a diagram illustrating a third example of a conventional wireless access method.

[Explanation of symbols]

 S-1 to S-5 Processing Steps

Continuation of the front page (72) The inventor Shinya Otsuki 3-19-2 Nishi Shinjuku, Shinjuku-ku, Tokyo Nippon Telegraph and Telephone Corporation (56) References JP-A 7-297829 (JP, A) (58) Survey Field (Int.Cl. ⁷ , DB name) H04Q ^7/ 00-7/38 H04B ⁷ /24-7/26 H04L 12/28

Claims (1)

(57) [Claims] An apparatus is configured to transmit and receive a signal between one base station and at least one terminal station via a radio line on the same frequency channel, and to perform transmission and reception of a radio signal beforehand with the base station. In a radio communication system in which a radio control link is set up with a terminal station, a control channel is composed of a group of uplink slots and a group of downlink slots paired with each uplink slot. The terminal station arbitrarily selects an empty slot and does random access using the selected slot without being aware of the distinction between uplink and downlink of the control channel, and the base station transmits the uplink slot or downlink of the control channel. In a slot, an access signal from a terminal station is received. If there is a will,
One of the terminal stations is selected, and the control information is transmitted to the terminal station in the corresponding slot of the downlink according to the initial uplink and downlink settings of the control channel, and the terminal station transmits the control information in the uplink slot. And establishing a wireless link.