CN104796221A - Non-binary communication system and communication method thereof - Google Patents

Abstract

The invention relates to a non-binary communication system and a communication method thereof, wherein the non-binary communication system comprises a data packet module, a cache module, a binary-ternary conversion module, a coding module, a data interleaving module and a modulating module; the cache module comprises a binary data cache module and a ternary data cache module. Compared with the prior art, the invention has the following beneficial effects: the invention presents the non-binary communication system and the communication method by combining with a non-binary coding and a modulation based on a hexagon, which take full advantage of a constellation diagram modulated by the hexagon, improve throughput of the system, and reduce consumption of each bit energy.

Description

A kind of nonbinary communication system and communication means thereof

Technical field

The present invention relates to the communications field, particularly relate to a kind of nonbinary communication system and communication means thereof.

Background technology

In prior art, existing based on four-quadrant amplitude modulation(PAM) (Quadrature Amplitude Modulation, QAM) communication system uses binary coding to modulate usually, its main cause has two, one is be easy to realize, and two are information processing systems of main flow is based on binary.For QAM system, its modulation /demodulation planisphere can regard the division to 2D signal plane as.In traditional QAM system, be the equal of utilize rectangle to divide 2D signal plane.But as everyone knows, the most effectively dividing two dimensional surface is hexagon instead of rectangle.Therefore, divide the qam constellation figure designing and obtain based on hexagon, its performance is better than the planisphere obtained based on rectangular partition design.But it is exactly the whole power that its constellation point number is not two that hexagon divides the problem introduced, therefore can not good compatible existing binary communication system.

Existingly mainly contain two kinds for the existing solution of this problem, one is directly convert the binary sequence after coding to ternary (mixing of ternary binary system) sequence, but this method can cause so-called error propagation problem, error rate of system is made to raise on the contrary; Namely another kind of scheme abandons part based on the constellation point in the qam constellation figure of hexagon division, make it compatible main flow binary communication system by force, but this scheme can make to design lower than traditional qam constellation based on hexagonal qam constellation design efficiency on the contrary.

Summary of the invention

The object of the present invention is to provide a kind of nonbinary communication system and communication means thereof, the advantage of hexagonal planisphere can be made full use of.

The invention provides a kind of nonbinary communication system, it comprises packet module, cache module, binary system ternary modular converter, coding module, data interlacing module and modulation module; Described cache module comprises binary data cache module and ternary data cache module;

Described packet module, divides into groups for treating deal with data, will need the binary data storage of binary transmissions in described binary data cache module; The binary data transmitted needing ternary or ternary data are sent in described binary system/ternary modular converter;

Described binary data cache module, for storing the described data needing binary transmissions;

Data after described conversion for the binary data in the described data needing ternary to transmit is converted into ternary data, and are stored to ternary data cache module by described binary system ternary modular converter;

Described coding module is encoded to described binary data or ternary data, by the transfer of data after coding in data interlacing module;

Described data interlacing module, for interweaving to the data after described coding;

Described modulation module, for modulating based on hexagon planisphere the data after intertexture.

Further, described coding module comprises binary coding module and ternary coding module, and described binary coding module is encoded to the binary data in described binary data cache module; Described ternary coding module, encodes to the ternary data in described ternary data cache module.

Further, in described ternary coding module, comprise a ternary convolution coder, described ternary convolution coder comprises four shift registers and two adders;

Input signal is u, then two signals v1, v2 exporting are respectively

V1＝u*1+u _-1*1+u _-2*2+u _-3*2+u _-4*1

V2＝u*2+u _-2*2+u _-2*1+u _-3*1

Wherein, the Galois field addition computing that plus sige is is base with 3, the Galois Field multiplication computing that it is base that multiplication sign represents with 3.

The present invention also provides a kind of nonbinary communication means, comprises

Step a, treats deal with data and divides into groups, and will need the binary data storage of binary transmissions in described binary data cache module; The binary data transmitted needing ternary or ternary data are sent in described binary system ternary modular converter;

Step b, is converted into ternary data by the binary data in the described data needing ternary to transmit, and the data after described conversion is stored to ternary data cache module;

Step c, encodes to described binary data or ternary data, and by the transfer of data after coding in data interlacing module;

Steps d, interweaves to the data after described coding;

Step e, modulates based on hexagon planisphere the data after described intertexture.

Beneficial effect of the present invention is compared with prior art: the present invention is in conjunction with non-binary code and based on hexagonal modulation, a kind of non-binary communication system and communication means are proposed, the advantage of hexagonal modulation planisphere can be made full use of, improve throughput of system, reduce energy per bit consumption.

Accompanying drawing explanation

Fig. 1 is the hexagonal planisphere of nonbinary communication system modulation system of the present invention;

Fig. 2 is the structural representation of nonbinary communication system of the present invention;

Fig. 3 is the encoder schematic diagram of nonbinary communication system of the present invention;

Fig. 4 is the communication means flow chart of nonbinary communication system of the present invention.

Embodiment

Below in conjunction with accompanying drawing, to above-mentioned being described in more detail with other technical characteristic and advantage of the present invention.

Fig. 1 is the hexagonal planisphere of nonbinary communication system modulation system of the present invention, refer to Fig. 1, design based on hexagonal modulation constellation points, in the present invention, divide based on hexagon 2D signal and carry out planisphere design, with TPSK, H6-QAM, H8-QAM is example, constellation point divides in a hexagonal manner, therefore more constellation point can be held under identical average energy, so the amount of information that each symbol carries is more compared to the design of traditional constellation point based on rectangular partition.Due to the whole power that the number of constellation points comprised in the planisphere of hexagonal modulation may not be 2, the therefore integral multiple of the amount of information transmitted of each hexagonal modulation symbol not necessarily bit, therefore we introduce the concept of trit, and 1trit approximates 1.57bit.With above four be designed to example based on hexagon planisphere, the amount of information that each symbol can transmit is: TPSK:1trit, H6QAM:1bit+1trit, H8QAM:3bit.

Fig. 2 is the structural representation of nonbinary communication system of the present invention, refers to Fig. 2, comprises packet module 1, cache module, binary system ternary modular converter 31, coding module, data interlacing module 4 and modulation module 5;

Packet module 1, divides into groups for treating deal with data, will need the binary data storage of binary transmissions in described binary data cache module 21; The binary data transmitted needing ternary or ternary data are sent in described binary system ternary modular converter 31;

Wherein, pending data can be regarded as a string bit data flow, according to the modulation system selected, the data of bit stream can be divided into traditional bit transmission and new trit transmission in proportion.Such as H6QAM namely, 1bit+1trit, then have the bit data of 1.57/2.57 can transfer in binary system ternary modular converter 31, remaining data then transfer in binary data cache module 21.

Cache module, can by data temporary cache to be sent in order to the different introducing of processing speed between synergistic application data flow from lower data processing module; Cache module comprises binary data cache module 21 and ternary data cache module 31;

Described binary data cache module 21, for storing the described data needing binary transmissions;

Binary system ternary modular converter 31, for being converted into ternary data by the binary data in the described data needing ternary to transmit; And the data after described conversion are stored in ternary data cache module 31.Wherein, first the bit stream needing ternary to transmit will be changed through bit/trit, bit circulation is changed to trit stream to facilitate carrying out smoothly of subsequent operation, here in order to weigh the relation between efficiency and performance, the method of tabling look-up can be adopted the binary data of 11bit to be converted to the ternary data of 7trit, and namely 11 bit transfer 7 trit to.

Coding module is encoded to described binary data or ternary data, by the transfer of data after coding in data interlacing module 4; Coding module comprises binary coding module 22 and ternary coding module 33, and described binary coding module 22 is encoded to the binary data in described binary data cache module 21; Described ternary coding module 33, encodes to the ternary data in described ternary data cache module 32.

Data interlacing module 4, for interweaving to the data after described coding.The object of data interlacing is the sudden change in order to prevent channel, namely utilizes pseudo random number to carry out, and pseudo random number is here that two the sending out of transceiver is arranged in advance, and random upsets the order between data.

Modulation module 5, for modulating based on hexagon planisphere the data after intertexture.Namely by modulation module, the Data Modulation after coding is gone to based in hexagonal planisphere constellation point.

Fig. 3 is the encoder schematic diagram of nonbinary communication system of the present invention, refers to Fig. 3, wherein, in ternary coding module, comprises the ternary convolution coder that a code check is 1/2, comprises four shift registers and two adders; Being in the ternary convolution coder of 1/2 at code check, inputting a symbol, export two symbols, reaching the object of error correction by sending redundant information.Its medium square represents shift register, namely inputs data right shifts progressively, this weight that what numeral (1,2) represented is, input signal is u, then two signals v1, v2 exporting are respectively:

V1＝u*1+u _-1*1+u _-2*2+u _-3*2+u _-4*1

V2＝u*2+u _-2*2+u _-2*1+u _-3*1

Wherein, the Galois field addition computing that plus sige is is base with 3,

The operation that what addition represented is GF (3) (galois field being base with 3) is inner, it is defined as follows:

0+0＝0 1+0＝1 2+0＝2

0+1＝0 1+1＝2 2+1＝0

0+2＝2 1+2＝0 2+2＝1

Namely algebraic addition is then to 3 deliverys.Wherein, the Galois Field multiplication computing that it is base that multiplication sign represents with 3, namely

0*0＝0 1*0＝0 2*0＝0

0*1＝0 1*1＝1 2*1＝2

0*2＝0 1*2＝2 2*2＝1

Can be multiplied, to 3 deliverys by algebraically.On this basis, we just can obtain corresponding coded sequence, now to be the convolution code of 1/2 code check,

On the basis of 1/2 rate convolutional code, the error control coding of 2/3 or 3/4 code check can be realized by " punching ", corresponding to the protection demand of varying strength.Here the punching said refers to the data after to coding, removes wherein several specific bit, be so just equivalent to the data length after reducing coding according to certain rule, can more flexible balance code redundancy and protection intensity.

Fig. 4 is the method flow diagram of nonbinary communication system of the present invention, refers to Fig. 4, and it is corresponding with in Fig. 2 module, comprises

Step a, treats deal with data and divides into groups, and will need the binary data storage of binary transmissions in described binary data cache module; The binary data transmitted needing ternary or ternary data are sent in described binary system ternary modular converter;

Wherein, pending data can be regarded as a string bit data flow, binary system bit can be divided in proportion to transmit and trit transmission the data of bit stream according to the modulation system selected.

Step b, is converted into ternary data by the binary data in the described data needing ternary to transmit, and the data after described conversion is stored to ternary data cache module;

Wherein, first the bit stream needing ternary to transmit will be changed through bit/trit, bit circulation is changed to trit stream to facilitate carrying out smoothly of subsequent operation, here in order to weigh the relation between efficiency and performance, the method of tabling look-up can be adopted the binary data of 11bit to be converted to the ternary data of 7trit, and namely 11 bit transfer 7 trit to.

Step c, encodes to described binary data or ternary data, and by the transfer of data after coding in data interlacing module;

Steps d, for interweaving to the data after described coding;

Step e, for modulating based on hexagon planisphere the data after intertexture.

The present invention, in conjunction with non-binary code and based on hexagonal modulation, proposes a kind of non-binary communication system and communication means, can make full use of the advantage of hexagonal modulation planisphere, improves throughput of system, reduces energy per bit consumption.

The foregoing is only preferred embodiment of the present invention, is only illustrative for invention, and nonrestrictive.Those skilled in the art is understood, and can carry out many changes in the spirit and scope that invention claim limits to it, amendment, even equivalence, but all will fall within the scope of protection of the present invention.

Claims (4)

1. a nonbinary communication system, is characterized in that, it comprises packet module, cache module, binary system ternary modular converter, coding module, data interlacing module and modulation module; Described cache module comprises binary data cache module and ternary data cache module;

Described packet module, divides into groups for treating deal with data, will need the binary data storage of binary transmissions in described binary data cache module; The binary data transmitted needing ternary or ternary data are sent in described binary system/ternary modular converter;

Described binary data cache module, for storing the described data needing binary transmissions;

Data after described conversion for the binary data in the described data needing ternary to transmit is converted into ternary data, and are stored to ternary data cache module by described binary system ternary modular converter;

Described coding module is encoded to described binary data or ternary data, by the transfer of data after coding in data interlacing module;

Described data interlacing module, for interweaving to the data after described coding;

Described modulation module, modulates based on hexagon planisphere for carrying out the data after described intertexture.

2. nonbinary communication system according to claim 1, is characterized in that,

Described coding module comprises binary coding module and ternary coding module, and described binary coding module is encoded to the binary data in described binary data cache module; Described ternary coding module, encodes to the ternary data in described ternary data cache module.

3. nonbinary communication system according to claim 2, is characterized in that, in described ternary coding module, comprises a ternary convolution coder, and described ternary convolution coder comprises four shift registers and two adders;

Input signal is u, then two signals v1, v2 exporting are respectively

V1＝u*1+u _-1*1+u _-2*2+u _-3*2+u _-4*1；

V2＝u*2+u _-2*2+u _-2*1+u _-3*1；

Wherein, the Galois field addition computing that plus sige is is base with 3, the Galois Field multiplication computing that it is base that multiplication sign represents with 3.

4. a communication means for nonbinary communication system, is characterized in that, comprises

Step a, treats deal with data and divides into groups, and will need the binary data storage of binary transmissions in described binary data cache module; The binary data transmitted needing ternary or ternary data are sent in described binary system ternary modular converter;

Step b, is converted into ternary data by the binary data in the described data needing ternary to transmit, and the data after described conversion is stored to ternary data cache module;

Step c, encodes to described binary data or ternary data, and by the transfer of data after coding in data interlacing module;

Steps d, interweaves to the data after described coding;

Step e, modulates based on hexagon planisphere the data after described intertexture.