JP3118405B2 - Wireless line control 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 channel control method in a radio system employing a multiplex multi-carrier TDMA / TDD system.

[0002]

2. Description of the Related Art PHS (Personal Handy-phone System)
, A four-channel multiplex multi-carrier TDMA (Time Division Multiple Access) / T
The DD (Time Division Duplex) system is adopted.

In this method, as shown in FIG. 4, a digital signal on one radio carrier is divided into frames (TDMA frames) every 5 ms. One frame is divided into eight slots (625 μs). Then, the downlink (base station (CS: Cell Statio)
n) → Terminal (PS: Personal Station)) 4 slots 1T ~
4T is allocated, and four slots 1R to 4R are allocated to the uplink (terminal to base station).

[0004] Of these, the first slot 1T in the downlink is assigned for the downlink control channel, the first slot 1R in the uplink is assigned for the uplink control channel, and the other slots 2T to 4T, 2R to 4R. Are assigned for communication channels.

In the current PHS service, a physical slot for downlink control actually used as a downlink (base station → terminal) control channel is transmitted once every 100 ms. That is, if the TDMA frame is 20
Each time the number of transmitted slots is transmitted, one slot allocated for the downlink control channel is transmitted from the base station to the terminal as a downlink control physical slot.

[0006]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a radio channel control method capable of transmitting more information in a radio system employing a multiplex multi-carrier TDMA / TDD system.

[0007]

A radio channel control method according to the present invention is a radio channel control method in a radio system adopting a multiplex multi-carrier TDMA / TDD system such as a PHS system. Information is transmitted using slots that are not used as physical slots for downlink control among slots allocated for downlink control channels. As the information, for example, voice information, character information, graphic information, and the like are used.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is applied to a PHS system will be described below with reference to FIGS.

In the PHS system, as shown in FIG.
Downlink control physical slots from the base station (CS) to the terminal (PS) are transmitted intermittently every 100 ms. That is, of the multi-frame consisting of 20 TDMA frames, only the slot (1T) allocated for the downlink control channel in the first TDMA frame is used as the downlink control physical slot as the base station (CS).
To the terminal (PS).

On the other hand, in each TDMA frame, the slot (1
R) is a terminal (PS) as a physical slot for uplink control.
To the base station (CS).

Each TDMA included in a multiframe
Conventionally, necessary information has not been transmitted in a slot (1T) included in a frame other than the first TDMA frame among slots (1T) allocated for a downlink control channel in a frame.

In this embodiment, voice information, text information, and information from broadcast media (these information is newly stored) are utilized by utilizing the slot (1T) (hereinafter referred to as a new information transmission slot) which is not used conventionally. Information)
Send

FIG. 2 shows an example of a communication format of a new information transmission slot.

In this example, the format of the new information transmission slot is obtained by diverting the communication format of the communication physical slot. In FIG. 2, R is a ramp time for transient response, SS is a start symbol, PR is a preamble, UW is a synchronization word, CI is a channel type, and SA is S
ACCH and I indicate new information.

In the format of the new information transmission slot, a code indicating a new information transmission slot is inserted as the channel type CI. For example, “reserved” in the downlink CI coding rule of the current communication physical slot.
May be assigned to a code indicating that the slot is a new information transmission slot.

FIG. 3 shows the configuration of the terminal (PS).

Here, it is assumed that the new information is audio information. The signal received from the base station (CS) via the antenna is supplied to the low noise amplifier 1, frequency converters 2, 3, 4, limiter 5, demodulation circuit 6, TDMA / TDD processing circuit 7, AD converter
The signal is sent to the speaker 11 via the PCM audio encoding / decoding circuit 8, the PCM audio encoding / decoding circuit 9, and the amplifier 10.

On the other hand, the audio signal input from the microphone 12 is supplied to an amplifier 13, a PCM audio encoding / decoding circuit 9,
The signal is transmitted via the PCM speech encoding / decoding circuit 8, TDMA / TDD processing circuit 7, modulation circuit 14, frequency converters 15, 16, power amplifier 17, and antenna.

The TDMA / TDD processing circuit 7 assigns a communication channel to a time slot in a radio channel, disassembles and assembles a radio frame of a control channel and a communication channel based on a control circuit 18 for controlling a protocol and the like. . When a new information transmission slot is transmitted, the transmitted slot is identified by the TDMA / TDD processing circuit 7 and the control circuit 18 as a new information transmission slot based on the channel type CI. The new information included in the transmission slot is transmitted to the ADPCM voice coding / decoding circuit 8, the PCM voice coding / decoding circuit 9
And output from a speaker 11 via an amplifier 10.

The new information may be information such as characters and figures. In such a case, by providing the terminal (PS) with a display and a display control circuit, new information can be displayed on the display.

According to the above-described embodiment, of the slots (1T) allocated for the downlink control channel, the slots which have not been used conventionally are used to provide audio information, character information, graphic information, and broadcast media. Will be able to send information from

[0022]

According to the present invention, more information can be transmitted in a radio system employing the multiplex multi-carrier TDMA / TDD system.

[Brief description of the drawings]

FIG. 1 is a time chart for explaining a wireless channel control method according to the present invention.

FIG. 2 is a schematic diagram illustrating a format example of a new information transmission slot.

FIG. 3 is a block diagram illustrating a configuration of a terminal.

FIG. 4 is a time chart for explaining a 4-channel multiplex multi-carrier TDMA / TDD system adopted in a PHS system.

[Explanation of symbols]

 Reference Signs List 6 demodulation circuit 7 TDMA / TDD processing circuit 8 ADPCM audio encoding / decoding circuit 9 PCM audio encoding / decoding circuit 11 speaker 18 control circuit

Claims (3)

(57) [Claims] 1. A radio channel control method in a radio system employing a multiplex multi-carrier TDMA / TDD system, wherein each of TDMA frames is used as a downlink control physical slot among slots allocated for a downlink control channel. A wireless channel control method, wherein information is transmitted using a slot that has not been used. 2. The method according to claim 1, wherein the information is voice information. 3. The method according to claim 1, wherein the information is one or both of character information and graphic information.