KR880002261B1 - Multiplex communication system - Google Patents

Abstract

This invention is a mixed multiple communication system which has the capability to simultaneously receive high speed data transmission using the time division method and also has the characteristic of line exchange using the sign division method. The time division modulation part consists of a multiplexer (1) and gain regulator (2) for adjusting the gains of multiple signals. The sign division modulation part consists of the sign array generator (3), delays (4), circulation adder (5) and gain regulator (7). The modulated signal using the time division multiple method is sampled by a sampler (9) and the time division signal is selected.

Description

Multi-Communication Method Combining Time Division and Code Division

1 is a block diagram of a modulator according to the present invention.

2 is a block diagram of a demodulator according to the present invention.

* Explanation of symbols for main parts of the drawings

1: multiplexer 2,7,13: amplifier

5a-5L: Cyclic adder 4a-4 (L-1): Delay

3,15: longest code string generator 6,8,14: adder

10,19a-19L: waveform shaper 12: delay

16a-16L: Multiplier 18a-18L: Integrator

The present invention relates to a multi-communication scheme combining a time division scheme and a code division scheme having both a characteristic capable of transmitting data at high speed in a time division scheme and a characteristic capable of populating the same transmission line in a code division scheme.

Most of the conventional multi-data communication for data has been predominantly time-division, the advantage is that the structure of the system is simple and the data transmission rate can be the highest speed allowed in the transmission line. However, the time-sharing method cannot send more than one data at the same time at the same time, so that each user has to be uniformly allocated time and transmit data only at the time given to him, and does not use when the number of users actually used is small. Since the time given to the user is discarded without transmitting data, the efficiency of the transmission path is deteriorated. In order to overcome this disadvantage, a non-partitioned distribution method is used in which time is allocated to users who have a demand instead of even time allocation to each user. However, synchronization between transceivers is complicated.

On the other hand, in the code division multiplexing scheme, multiple users can transmit data simultaneously while using the same transmission line. However, in the case of time division multiplexing scheme, in some cases, one user monopolizes all the transmission lines and transmits the data at the maximum speed allowed. There is a drawback that the data cannot be transmitted and the data can only be transmitted as a speed corresponding to the value divided by the length of the longest code string using the maximum speed allowed by the transmission path.

The present invention overcomes these drawbacks of the prior art and has the advantages of a time division scheme and a code division scheme, that is, in some cases, it is possible to transmit data at the maximum speed allowed by the transmission path and when the data to be transmitted is slow. The purpose of the present invention is to propose a new type of multi-communication method combining a time division method and a code division method that can simultaneously transmit various types of data using a transmission path.

An object of the present invention is to obtain a modulated signal using a time division multiplexing method and a modulated signal using a code division multiplexing method, and adjust the levels of the two modulated signals to minimize mutual interference. The signals are added together and transmitted simultaneously through the same transmission path. On the receiving side, signals from the time division method and the signal division method are mixed before input, and the time division method uses the waveform sampler as it is. By converting into a square wave of a predetermined level, the signal division method included in the input modulation signal is removed to extract only the signal component based on the time division method, and the signal is demodulated into the transmitted data. Is delayed by one code period of the sample value sampled by the sampler described above. Later, by extracting only the signal by the code division method by subtracting the sample value of the time division signal obtained from the above-described waveform shaper, and then demodulating by the data modulation method, the time division method and the code division method are mixed. Can be achieved.

Moreover, an object of the present invention is a time division scheme and a sign configured to remove the offset error by adjusting the sample value of only the time division modulated signal obtained from the above-described waveform shaper and subtracting the adjusted sample value from the sample value in the delay unit. The division scheme can be better achieved by a mixed multiple communication scheme.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a modulation device for modulating data by the method of the present invention, which is comprised of a time division modulator, a code division modulator, and an adder for adding their outputs. The time division modulator comprises a multiplexer (1) for multiplexing arbitrary input data, and a gain adjuster (2) for adjusting the gain of the multiplexed signal, and the code division modulator is the longest code string generator having a length of L. (3) and a delay unit for delaying the code string output from this longest code string generator by one bit so as to be different for each user [4a, 4b... 4 (L-1)], a cyclic adder 5a, 5b, ... 5L for cyclically adding the longest code string delayed by one bit differently and input arbitrary data (dc _1, dc ₂ , dc _L ), It consists of an adder 6 for adding the result and a gain adjuster 7 for adjusting the gain of the output of the adder.

The modulation method of the present invention by this modulation device is as follows.

The time division modulator multiplexes the input M data (d _T1, d _T2 ,... D _TM ) with a multiplexer (1) and sets the level of the time division signal to A _T using an amplifier (2).

On the other hand, in the code division demodulation unit, the L strings (dc _1, dc ₂ ... DC) inputted from the longest code string generator 3 having the length L are delayed for each user [4 _a, 4 _b ,... 4 (L-1)] using L differently time-delayed longest code strings obtained by delaying bit by bit and cyclic adder (5a, 5b, ... 5L1), and then add the result (6) After all of them are added, the amplifier 7 adjusts the signal level generated by each code division scheme to be A _c . Finally, when a signal modulated by the time division modulator and a signal modulated by the code division modulator are added by the adder 8, the time division method according to the present invention is completed by the code division hybrid modulation process.

At this time, the levels A _T and A _C of the signals adjusted in the amplifier 2 and the amplifier 7 should be adjusted so that mutual interference is minimized when simultaneously transmitted in one transmission path. That is, when the gain A _T of the multiple modulation signal by the time division method has a constant value, from the standpoint of the modulation signal by the time division method, the smaller the gain A _C of the modulation signal by the code division method, the more error rate (error). From the standpoint of the modulated signal by the code division method and the gain division, the larger the gain A _C , the smaller the error rate. Therefore, these gains must be appropriately adjusted. Their gain adjustment is related to the transmission rate of the signal to be transmitted. In other words, if the transmission speed of the signal to be transmitted is high, the gain must be increased as much. For example, when a TV video signal is transmitted through a time division multiplex scheme and an audio signal is transmitted through a code division multiplex scheme, about 1000 audio signals may be simultaneously transmitted on one channel of the video signal. At this time, assuming that the transmission speed of the audio signal is about 1/1000 as compared to the video signal, the signal by the code division is described in detail in Patent Application No. 84-7479 filed by the present applicant. The signal level at the receiving end is increased 1000 times so that the signal level at the receiving end is 1000 A _C. If the receiver assumes that the reception level of the time division multiple modulation scheme and the reception level of the code division modulation scheme are the same, then A _C = A _T / 1000. Therefore, when the gain adjuster 2 adjusts the magnitude A _T of the time division modulation signal to 1000, the gain adjuster 7 may adjust the magnitude A _C of the code division modulated signal to 1. This value, in the time division multiple modulation scheme, is only regarded as a noise level of 30 dB or less, and thus does not affect the transmission quality during transmission.

2 is a demodulation device for demodulating a data signal modulated by the modulation method of the present invention, and comprises a demodulation part of a time division modulation signal and a demodulation part of a code division modulation signal. The demodulation section of the time division modulation signal samples the input modulation signal with a sampler 9 at every data code period and transforms the sample value of the sampling into a square wave of a predetermined level, thereby converting the code division modulation signal included in the input modulation signal. A waveform shaper 10 which removes and extracts only the modulated signal by time division, and a demultiplexer that demodulates the extracted time division modulated signal into time division data (dT ₁ , dT ₂ ,... DT _M ) transmitted in a time division manner. And a demodulation section for demodulating a modulated signal by a code division method using a sampler (9) for each data code period and delaying this sample value by one code period. (12) and the time-division change in the waveform shaper 10 at a sample value for the sum of the waveform of the time-division modulated signal delayed by one code period and the waveform of the code-division modulated signal. Waveform shaper to remove offset errors in adder 14, waveform shaper 10, delayer 12, adder 14, etc., to obtain only sample values for code division modulated signals by subtracting the sample value of the signal only. An amplifier 13 for adjusting the level of the sample value for only the time division waveform obtained from (10), the longest code string generator 15 for generating the same code string as the longest code string used in transmission, and this longest code string Delays for delaying the longest code string generated by the generator by one bit at a random number [17a, 17b,... 17 (L-1)], any multipliers 16a, 16b, ... 16L for multiplying the output of this delayer and the output of the adder 14, and integrating the output of these multipliers one cycle at every cycle. Integrators 18a, 18b, ... 18L for performing the processing, and waveform shapers 19a, 19b, ... 19L for obtaining the code division data transmitted by converting the output of the integrator into a square wave.

Thus, the demodulation method of the present invention by the demodulation device is as follows.

When the generated signal of FIG. 1 is input through the transmission path, the sampler 9 is sampled every data code period and sent to the time division demodulation unit and the code division demodulation unit, and the time division demodulation unit samples the sample value of the sample unit 9. According to the waveform shaper 10, the waveform is converted into a square wave having a predetermined level, the sample value of the code division modulation waveform contained on the time division modulation waveform is removed, and the time division data (dT ₁ ) transferred by switching to the switch 11 is performed. , dT ₂ , ... dT _M ), and the decoding division demodulator delays the sample value input from the sampler 9 for one code period of data to the delay unit 12 and mixes the time division waveform and the code division waveform. After the sample value obtained from the sample signal is delayed by one code period, the sample value for only the time division waveform obtained by the waveform shaper 10 of the time division demodulator from the mixed value is converted into the waveform shaper 10 by the amplifier 13. Adjust to eliminate the offset error caused by the retarder 12 or the like and subtract it using the adder 14 to obtain a sample value of the code division waveform by using the adder 14, and use the sample value of the code division waveform thus obtained when transmitting. The longest code string identical to the longest code string generated is generated by the longest code string generator 15 in synchronization with the transmitter, thereby causing delays [17a, 17b,... 17 (L-1)] L differently delayed code strings delayed by one code period, multiplied by multipliers (16a, 16b, ... 16L), and then one code string period of the longest code string by an integrator (18a, 18b, ... 18L) After integrating the waveforms, each of them is square-shaped with waveform shapers 19a, 19b, ... 19L to obtain the transmitted code division data (dc _1, dc ₂ ... dc ₁ ).

As described above, the multiple communication method according to the present invention is a mixture of a time division method and a code division method, and adjusts the level A _T of the modulation signal by the time division method and the level A _C of the modulation signal by the code division method. At level A _T , level A _C is 30 dB or less, which is much smaller than the noise error level. Therefore, even if data is simultaneously transmitted to the same transmission path by two signal systems, there is little interference between them. By simply extracting only the modulated signal by the time division method, demodulating the time-division transmitted data. Also, the modulated signal by the code division method is only the modulated signal by the code division method from the sample value of the signal obtained by extracting only the time division modulated signal. The sample value of can be extracted easily. Furthermore, if the amplifier 13 adjusts the sample value based only on the time division modulation signal, the offset error of the waveform shaper 10, the delayer 12, the adder 14, etc. can be completely eliminated. The sample value of the modulation signal by the partitioning method is extracted, and demodulation of the modulation signal results in a good signal division by the code division method. Therefore, when a multi-communication system is constructed by combining the two modulation schemes and the demodulation scheme, the transmission efficiency can be increased by twice as much as the multi-communication system using only the code division scheme or the time division scheme, and various kinds of various data can be obtained. Can accommodate at the same time. For example, a video signal that requires a high transmission speed may transmit a video signal and an audio signal at the same time by using a time division method exclusively for a time zone and using a code division scheme for a slow but large user.

In addition, since the code demodulator can eliminate the influence of a large signal, which is a signal level generated by the time division method, the time division according to the present invention in the form of attaching the code division method to most systems using the existing time division method. It is possible to easily modify a system having a hybrid communication scheme of a scheme and a code division scheme.

Claims (2)

In the data multiplexing scheme, the transmitting side modulates data by time division multiplexing, and modulates other data by code division multiplexing, so that the interference level between the two signals is transmitted simultaneously on the same transmission path. After adjusting to minimize, the adjusted modulated signals are synthesized and transmitted to a receiving side, and the receiving side receives a transmission signal in which the modulated signal based on the time division method and the modulated signal based on the code division method are received. The modulated signal is sampled by the sampler 9, and then the sampled signal is extracted by the waveform shaper 10, and then demodulated by the time division demodulation method. After the input sample value is delayed by one sign period, the sample value is By subtracting the sample value of the time division modulation signal obtained by the waveform demodulator 10 of the division demodulation unit and obtaining only the sample value of the signal according to the code division modulation method, it is then demodulated by the sign division demodulation method, thereby mutually between the code division signal and the time division signal. A data multiplexing method characterized by transmitting and receiving data by mixing a time division method and a code division method without interference. The method according to claim 1, wherein after the amplitude of the sample value for the time division modulated signal obtained by the waveform shaper 10 of the time division demodulator is adjusted by the amplifier 13, the adjusted signal is subtracted from the one code delayed sample value. And a means for removing the error.

Images