JPH077967B2 - Digital wireless transmission method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Field of Industrial Application The present invention is used in a wireless communication system, particularly in digital land mobile communication.

(2) Related Art In digital land mobile communication, bursty errors occur due to fading. However, in a system having an error correction function such as an error correction code, if there is a bursty error, its characteristics are deteriorated. As a countermeasure, there is a method of combining interleaving. Interleave is
In order to disperse burst errors and improve the effect of the error correction method, the transmitting side stores temporary data in the memory, converts the time series according to a certain rule, and the receiving side performs the reverse operation of this rule. Back to the time series of
This is a method of converting a bursty error between transmission and reception into a random error. There is also a fading countermeasure by frequency diversity using a plurality of channels. In this method, the same information is transmitted on a plurality of channels using a plurality of carrier frequencies in which the influence of fading is uncorrelated, and the data of the channel in which the influence of fading is small is used.

(3) Problems to be Solved by the Invention Since interleaving is performed only on the time axis, if fading is slow and bursty errors continue for a long time, large-scale interleaving is required, and memory However, the delay time due to data storage also increases. In reality, since the interleaving scale is limited, the characteristics when the fading is slow are deteriorated. Further, in frequency diversity, the same data is transmitted on a plurality of channels, so that there is a problem that the frequency cannot be effectively used.

(4) Means for Solving the Problem In the present invention, a data sequence having an error correction function is arranged also on the frequency axis, and the error is dispersed on other than the time axis without lowering the frequency utilization efficiency. Even when fading is slow, the error can be distributed as much as possible, and the performance deterioration of the error correction function can be reduced.

(5) Action FIG. 1 shows a block diagram of the present invention. A function for error correction is added to the input information data by the error correction function addition unit (1) (for example, error correction coding), and the time series order of the data is converted by the interleave unit (2). It This data is 1 / n (n
Is the number of channels) and the modulation unit (4) for each channel
M symbols (m is a positive integer greater than or equal to 1) are sent to each. Each modulator (4) is modulated at a transmission rate 1 / n times that before channel switching, and the transmitter (5) and the antenna (6) modulate each channel of carrier frequencies f ₁ , f _2, ..., Fn. Has been sent by.

On the receiving side, after the signal input from the antenna (7) is demodulated by the receiving section (8) and the demodulating section (9), the channel switching section (10) combines the data from the respective channels and Return to the data sequence after the interleave part. This data is further returned to the original data sequence by the deinterleave unit (11), and error correction (for example, error correction code) is performed by the error correction execution unit (12) to reproduce the information data.

(6) Embodiment Here, as one of digital communication systems having an error correction function, a coded multilevel modulation system, particularly trellis coded system 32
A case where the present invention is applied to a QAM (Quadrature Amplitude Modulation) system will be described.

FIG. 2 shows a configuration diagram when the number of channels is n. The input serial bit data is converted into 4-bit symbol data by the S / P section (21), and is converted to 5 by the encoding section (22).
It is encoded into bit symbol data and is modulated by the modulator (23).
Converted to 32QAM signal. An interleaver (24) that performs interleaving converts this signal into a time series of data, divides it by a channel switching unit (25), and divides the divided data by a transmitting unit (26) and an antenna (27).
, fn are transmitted on channels having carrier frequencies of f ₁ , f ₂ ,.

The received signal input from the antenna (28) is
By 9), each carrier frequency is converted into a baseband signal, and the fading distortion compensator (30) compensates the fading distortion. This signal is sent from the channels to the deinterleaver (32) that performs deinterleaving in the channel switching unit (31). After the deinterleaver restores the time series of symbols to the original, the decoding section (33) performs Viterbi decoding to obtain the original data symbol series. This data is converted into serial data by the P / S section (34) to reproduce the original serial bit series data.

In the case of performing only interleaving in FIG.
2 shows the results of computer simulation of BER (bit error rate) characteristics with respect to interleaving scale when = 2 (2-channel transmission). The transmission rate in the simulation is 32 ksymbol / s, and the transmission rate of each channel is 16 ksymbol / s. Further, in the figure, fd is the maximum Doppler frequency of fading, and is shown for 10 Hz and 80 Hz, ○ △ marks are for interleaving only, ● ▲ marks are characteristics when the present invention is applied. Is shown.

From the figure, it is understood that the present invention can reduce the deterioration of the characteristics when the fading is slow (when fd is small).

(7) Effects of the Invention According to the present invention, it is possible to realize a modulation / demodulation device that hardly depends on the Doppler frequency of fading in a system that combines an error correction function and interleaving.

In the digital land mobile communication according to the present invention,
The effect is great because the error correction function can be fully utilized.

[Brief description of drawings]

FIG. 1 is a block diagram of the system of the present invention, FIG. 2 is a block diagram of an embodiment of the present invention, and FIG. 3 is a result of computer simulation of bit error rate characteristics with respect to interleave scale in the embodiment. 1 ... Error correction function addition part, 2 ... Interleave part, 3
...... Channel switching unit, 4 ... Modulation unit, 5 ... Transmission unit, 6 ... Transmission antenna, 7 ... Reception antenna, 8 ...
Receiver, 9 ... Demodulator, 10 ... Channel switcher, 11
...... Deinterleave section, 12 ...... Error correction processing section, 21 ......
Parallel / serial converter, 22 ... Encoder, 23 ... Modulator, 24 ... Interleaver, 25 ... Channel switch, 26 ... Transmitter, 27 ... Transmit antenna, 28 ... Receive antenna, 29 …… Reception unit, 30 …… Fading distortion compensation unit, 31 …… Channel switching unit, 32 …… Deinterleaver, 33 …… Decoding unit, 34 …… Parallel / serial conversion unit.

Claims (1)

[Claims] 1. A digital wireless transmission method for wirelessly communicating digital data between a transmitting station and a receiving station using an error correcting function, wherein the transmitting station has an error correcting function for information data. Transmission data is generated by interleaving the added digital data, and the transmission data is divided into a plurality of division transmission data, and the carrier frequency is different so that the fluctuation of fading determined by the characteristics of the transmission path can be regarded as uncorrelated. The plurality of divided transmission data are transmitted almost simultaneously using a plurality of channels, and at the receiving station, different divided transmission data are received from the plurality of channels, and the respective divided transmission data are combined to generate reception data, Deinterleave the received data,
A digital radio transmission method characterized in that information data is obtained by performing error correction based on an error correction function.