CN103780269A - Quantum information module processing technology - Google Patents

Abstract

The invention provides a quantum information module processing technology which refers that information needed to be transmitted is stored in an information transmission terminal and an information receiving terminal in advance by people in a classification and modularization mode. When people transmit the information, only locating numbers of information modules and superposing modes of the information modules are needed to be transmitted. After the locating numbers of related information modules and the superposing modes of the information modules are received by the information receiving terminal, the related information modules are found out via locating by following pictures, and the information modules are combined according to superposing requirements of the information modules so that the information needed to be transmitted is acquired. The quantum information module processing technology is divided into three parts of information modulation, information transmission and information demodulation. The information modulation comprises analog information digitalization, digital information modularization, information module quantization and quantum signal photo-electrification. The information transmission comprises quantum information module transmission and relay fidelity. The information demodulation comprises photoelectric signal quantization, digital information reconstruction and digital-analog information conversion.

Description

Quantum information resume module technology

Technical field

Patent of the present invention belongs to quantum information treatment technology.

Technical background

Among the current computer information processing technology, transmitting end first carries out mould--transformation of variables to information, then digital signal is sent, and receiving terminal is counted after receiving digital signal again--modular transformation, digital signal is reduced to analog signal, thereby obtains the required audiovisual/visual information of people.This information processing technology advantage is information strong interference immunity in transport process, audiovisual/visual information is transmitted by high-fidelity, shortcoming is information transfer process complexity, digital signal footprint is huge, and information processing usefulness is relatively low, therefore, how to simplify information transfer process, raising information transmit density, in guarantee information transmission quality, improve information processing usefulness, thereby significantly improve the rate of information throughput, have important realistic meaning!

Patent of invention content

The technical problem that patent of the present invention will solve is: a kind of quantum information resume module technology is provided, to improving computer information processing usefulness, simplification information transfer process, raising information transmission density, thereby significantly improves the rate of information throughput.

Following technical scheme is solved above-mentioned technical problem by patent of the present invention: quantum information resume module technology, refer to that people the information of needs transmission categorizedly, and be stored in advance information transmitting end and information receiving end with modular form, when people transmit information, only need to send the Suo Ji numbering of information module and the stacked system of information module, information receiving terminal is after receiving the Suo Ji numbering of relevant information module and the stacked system of information module, will try to locate by following up a clue relevant information module is found out, and by the stack requirement of information module, information module is combined, thereby obtain the information of required transmission, quantum information resume module technology is divided into information modulation, information transmission, three parts of demodulates information, and wherein information modulation comprises: analog information digitlization, digital information modularization, information module quantization, quantum signal photoelectricity, information transmission comprises: the transmission of quantum information module and relaying fidelity, demodulates information comprises: photosignal quantization, digital code information reconstruct, number--the conversion of mould information, analog information digitlization is exactly that analog signal is converted to the digital signal that binary system " 0 and 1 " is described, digital information modularization is exactly first digital signal to be compiled into m × n matrix A, then retrieve Computer Database, find out the m × n matrix A the most similar to m × n matrix A ', by m × n matrix A ' be defined as the information module of m × n matrix A, and its Suo Ji number record is got off, information module quantization is exactly first by digital code information m × n matrix A and information module m × n matrix A ' compare, find out general character part and individual character part between the two, and the digital signal that individual character part among m × n matrix A is described with binary system " 0 and 1 " is protected and is handed down, as the eigenvalue coding in the middle of quantum coding, m × n matrix A ' ranks number, Suo Ji numbering, and the stack instruction of information module all uses binary system " I and 0 " to describe into the central quantum state coding of quantum coding, like this, the individual character part of digital code information m × n matrix A is by the eigenvalue coded representation in the middle of quantum coding, general character part is by the quantum state coded representation in the middle of quantum coding, digital code information is by quantum coding Complete Characterization, quantum signal photoelectricityization is modulated into photosignal quantized digital code information exactly, be to represent eigenvalue coding by current potential height or laser power, electricity consumption bit period (maintaining the time of current potential high (or low)) length or laser frequency height represent quantum state coding, quantum coding photosignal after modulation is launched take laser or radio wave as carrier, then via Repeater fidelity, just can realize remote quantum communication, after information receiving end receives quantum coding photosignal, the power of current potential height or laser intensity is changed and is reduced to the eigenvalue coding that binary system " 0 and 1 " is described, current potential cycle length or laser frequency height are reduced to the quantum state coding that binary system " I and 0 " is described, and this process is exactly photosignal quantization, after obtaining quantum state coding, the CPU of information receiving end will try to locate by following up a clue, from database, retrieve information module m × n matrix A of the digital code information general character part that representative transmits ', on this basis, CPU is again according to the stack instruction of information module, got in the eigenvalue coding of the digital code information individual character part that transmits of the representative corresponding position that is added to, just digital code information m × n matrix A of required transmission is described in energy reconstruct, and this process is exactly digital code information reconstruct, the digital code information that reconstruct is obtained converts the process of analog signal to, is called the conversion of digital-to-analogue information, and after the conversion of digital-to-analogue information, people have obtained the audiovisual/visual information via quantum information resume module and transmission.

Obviously, information module m × n matrix A ' formed by general character part and individual character part, before reconstruct digital code information m × n matrix A, first by information module m × n matrix A ' individual character part format, again by eigenvalue coded scanning to corresponding position, can quick reconfiguration digital code information, the method for this reconstruct digital code information is called to projection scanning art.

If the individual character part of fruit digital code information m × n matrix A (being eigenvalue coding) amount of information is excessive, eigenvalue coding can be regarded as to digital code information i × j matrix B, and it is carried out to information module processing again, obtain information module i × j matrix B ' and eigenvalue coding C, so repeatable operation, information module y × k Matrix C ' and the eigenvalue encoding D of getting back, until the amount of information of eigenvalue coding is little; In reconstruct digital code information m × n matrix A, use projection scanning art, first last eigenvalue coded scanning is arrived on corresponding with it information module, obtain the eigenvalue coding of upper level, so repeatable operation, until reconstruct digital code information m × n matrix A; If last eigenvalue encoded moving image ground is called to information beans, various information modules are likened to information sieve, the reconstruct of digital code information is exactly that various information sieves are stacked together, and information beans are overlayed topmost.

Use quantum information resume module technology, crux be some digital code information m × n matrix A that will transmit and information database information module m × n matrix A of storing ' general character part The more the better, also be to say that the individual character partial block of digital code information m × n matrix A is more few better, like this, the digital code information amount that computer is processed and transmitted still less, the accuracy that information transmits is higher, this just requires in the time setting up information module database, classify very carefully and very comprehensive to various information, also require the capacity of database enough large simultaneously, the retrieval of CPU and the speed of process information are enough fast, in computer industry highly developed today, this is the problem solving easily.

Accompanying drawing explanation

Accompanying drawing 1 is quantum information modularized processing schematic flow sheet.Wherein:

Accompanying drawing 1--(1) analog information digitlization; Accompanying drawing 1--(2) digital information modularization;

Accompanying drawing 1--(3) information module quantization; Accompanying drawing 1--(4) quantum signal photoelectricity;

Accompanying drawing 1--(5) relaying fidelity and transmission; Accompanying drawing 1--(6); Photosignal quantization

Accompanying drawing 1--(7) digital code information reconstruct; Accompanying drawing 1--(8) number--mould information conversion;

Accompanying drawing 2 is that the eigenvalue of digital code information is coded in the projection scanning schematic diagram among information module.Wherein:

Accompanying drawing 2--(1) digital code information m × n matrix A, accompanying drawing 2--(2) information module m × n matrix A ';

Accompanying drawing 2-(3) eigenvalue coding i × j matrix B; The format of accompanying drawing 2-(4) information module individual character part.

Accompanying drawing 3 is the schematic diagrames with stacked system reconstruct digital code information.Wherein:

Accompanying drawing 3--(1) eigenvalue encoding D; Accompanying drawing 3--(2) information module y × k Matrix C ';

Accompanying drawing 3--(3) information module i × j matrix B '; Accompanying drawing 3--(4) digital code information i × j matrix B.

Embodiment

The quantum information resume module technology of patent of the present invention, refer to that people the information of needs transmission categorizedly, and be stored in advance information transmitting end and information receiving end with modular form, in people's transmission information, only need to send the Suo Ji numbering of information module, and the stacked system of information module, information receiving terminal is receiving the Suo Ji numbering of relevant information module, and after the stacked system of information module, will try to locate by following up a clue relevant information module is found out, and by the stack requirement of information module, information module is combined, thereby obtain the information of required transmission, quantum information resume module technology is divided into information modulation accompanying drawing 1--(a), information transmits accompanying drawing 1--(b), three parts of demodulates information accompanying drawing 1-(c), and wherein information modulation comprises: analog information digitlization accompanying drawing 1--(1), digital information modularization accompanying drawing 1--(2), information module quantization accompanying drawing 1--(3), quantum signal photoelectricity accompanying drawing 1--(4), information transmission comprises: the transmission of quantum information module and relaying fidelity accompanying drawing 1--(5), demodulates information comprises: photosignal quantization accompanying drawing 1--(6), digital code information reconstruct accompanying drawing 1--(7), number--mould information conversion accompanying drawing 1--(8), analog information digitlization is exactly that analog signal is converted to the digital signal that binary system " 0 and 1 " is described, digital information modularization is exactly first digital signal to be compiled into m × n matrix A accompanying drawing 2--(1), then retrieve Computer Database, find out the m the most similar to m × n matrix A × n matrix A ' accompanying drawing 2--(2), m × n matrix A ' accompanying drawing 2--(2) is defined as to the information module of m × n matrix A accompanying drawing 2--(i), and its Suo Ji number record is got off, information module quantization is exactly first digital code information m × n matrix A accompanying drawing 2--(1) and information module m × n matrix A ' accompanying drawing 2--(2) to be compared, find out general character part and individual character part between the two, and the digital signal that individual character part among m × n matrix A is described with binary system " 0 and 1 " is protected and is handed down, as the eigenvalue coding accompanying drawing 2--(3) in the middle of quantum coding, m × n matrix A ' ranks number, Suo Ji numbering, and the stack instruction of information module all uses binary system " I and 0 " to describe into the central quantum state coding of quantum coding, like this, the individual character part of digital code information m × n matrix A is represented by the eigenvalue coding accompanying drawing 2--(3) in the middle of quantum coding, general character part is by the quantum state coded representation in the middle of quantum coding, digital code information is by quantum coding Complete Characterization, quantum signal photoelectricityization is modulated into photosignal quantized digital code information exactly, be to represent eigenvalue coding accompanying drawing 2--(3) with current potential height or laser power, electricity consumption bit period (maintaining the time of current potential high (or low)) length or laser frequency height represent quantum state coding, quantum coding photosignal after modulation is launched take laser or radio wave as carrier, then via Repeater fidelity accompanying drawing 1--(5), just can realize remote quantum communication, after information receiving end receives quantum coding photosignal, the power of current potential height or laser intensity is changed and is reduced to the eigenvalue coding accompanying drawing 2--(3) that binary system " 0 and 1 " is described, current potential cycle length or laser frequency height are reduced to the quantum state coding that binary system " I and 0 " is described, and this process is exactly photosignal quantization, after obtaining quantum state coding, the CPU of information receiving end will try to locate by following up a clue, from database, retrieve information module m × n matrix A ' accompanying drawing 2--(2) of the digital code information general character part that representative transmits, on this basis, CPU is again according to the stack instruction of information module, got in the eigenvalue coding accompanying drawing 2--(3) of the digital code information individual character part that transmits of the representative corresponding position that is added to, just digital code information m × n matrix A accompanying drawing 2--(1) of required transmission is described in energy reconstruct, and this process is exactly digital code information reconstruct, the digital code information that reconstruct is obtained converts the process of analog signal to, is called the conversion of digital-to-analogue information, and after the conversion of digital-to-analogue information, people have obtained the audiovisual/visual information via quantum information resume module and transmission.

Obviously, information module m × n matrix A ' accompanying drawing 2--(2) is made up of general character part and individual character part accompanying drawing 2--(4), before reconstruct digital code information m × n matrix A, first by the individual character part format accompanying drawing 2--(4) of information module m × n matrix A ' accompanying drawing 2--(2), the accompanying drawing 2--(3) that again eigenvalue encoded scans on corresponding position, just energy quick reconfiguration digital code information accompanying drawing 2--(1), is referred to as projection scanning art by the method for this reconstruct digital code information.

If the individual character part accompanying drawing 2--(3) of fruit digital code information m × n matrix A (being eigenvalue coding) amount of information is excessive, just eigenvalue coding is regarded as to digital code information i × j matrix B accompanying drawing 3--(4), and it is carried out to information module processing, obtain information module i × j matrix B ' accompanying drawing 3--(3) and eigenvalue coding C, so repeatable operation, get back information module y × k Matrix C ' accompanying drawing 3--(2) and eigenvalue encoding D accompanying drawing 3--(1), until the amount of information of eigenvalue coding is little; In the time of reconstruct digital code information m × n matrix A, first last eigenvalue encoding D accompanying drawing 3--(1) is scanned on corresponding with it information module C ' accompanying drawing 3--(2), obtain the eigenvalue coding C of upper level, and then eigenvalue coding C is scanned on corresponding with it information module B ' accompanying drawing 3--(3), obtain the eigenvalue coding B accompanying drawing 3--(4) of upper level, so repeatable operation, until reconstruct digital code information m × n matrix A; We last eigenvalue encoded moving image call information beans, various information modules are likened to information sieve, the reconstruct of digital code information is exactly that various information sieves are stacked together, and information beans are overlayed to the top.

Use quantum information resume module technology, crux be some digital code information m × n matrix A that will transmit and information database information module m × n matrix A of storing ' general character part The more the better, also be to say that the individual character partial block of digital code information m × n matrix A is more few better, like this, the digital code information amount that computer is processed and transmitted still less, the accuracy that information transmits is higher, this just requires in the time setting up information module database, classify very carefully and very comprehensive to various information, also require the capacity of database enough large simultaneously, the retrieval of CPU and the speed of process information are enough fast, in computer industry highly developed today, this is the problem solving easily.

Claims (3)

1. a quantum information resume module technology, it is characterized in that: quantum information resume module technology refers to that people the information of needs transmission categorizedly, be stored in advance information transmitting end and information receiving end with modular form, when people transmit information, only need to send the Suo Ji numbering of information module and the stacked system of information module, information receiving terminal is after receiving the Suo Ji numbering of relevant information module and the stacked system of information module, will try to locate by following up a clue relevant information module is found out, and by the stack requirement of information module, information module is combined, thereby obtain the information of required transmission, quantum information resume module technology is divided into information modulation, information transmission, three parts of demodulates information, and wherein information modulation comprises: analog information digitlization, digital information modularization, information module quantization, quantum signal photoelectricity, information transmission comprises: the transmission of quantum information module and relaying fidelity, demodulates information comprises: photosignal quantization, digital code information reconstruct, the conversion of digital-to-analogue information, analog information digitlization is exactly that analog signal is converted to the digital signal that binary system " 0 and 1 " is described, digital information modularization is exactly first digital signal to be compiled into m × n matrix A, then retrieve Computer Database, find out the m × n matrix A the most similar to m × n matrix A ', and by m × n matrix A ' be defined as the information module of m × n matrix A, and its Suo Ji number record is got off, information module quantization is exactly first by digital code information m × n matrix A and information module m × n matrix A ' compare, find out general character part and individual character part between the two, and the digital signal that individual character part among m × n matrix A is described with binary system " 0 and 1 " is protected and is handed down, as the eigenvalue coding in the middle of quantum coding, m × n matrix A ' ranks number, Suo Ji numbering, and the stack instruction of information module all uses binary system " I and 0 " to describe into the central quantum state coding of quantum coding, like this, the individual character part of digital code information m × n matrix A is by the eigenvalue coded representation in the middle of quantum coding, general character part is by the quantum state coded representation in the middle of quantum coding, digital code information is by quantum coding Complete Characterization, quantum signal photoelectricityization is modulated into photosignal quantized digital code information exactly, represent eigenvalue coding by current potential height or laser power, electricity consumption bit period (maintaining the time of current potential high (or low)) length or laser frequency height represent quantum state coding, quantum coding photosignal after modulation is launched take laser or radio wave as carrier, then via Repeater fidelity, just can realize remote quantum communication, after information receiving end receives quantum coding photosignal, the power of current potential height or laser intensity is changed and is reduced to the eigenvalue coding that binary system " 0 and 1 " is described, current potential cycle length or laser frequency height are reduced to the quantum state coding that binary system " I and 0 " is described, and this process is exactly photosignal quantization, after obtaining quantum state coding, the CPU of information receiving end will try to locate by following up a clue, from database, retrieve information module m × n matrix A of the digital code information general character part that representative transmits ', on this basis, CPU is again according to the stack instruction of information module, got in the eigenvalue coding of the digital code information individual character part that transmits of the representative corresponding position that is added to, just digital code information m × n matrix A of required transmission is described in energy reconstruct, and this process is exactly digital code information reconstruct, the digital code information that reconstruct is obtained converts the process of analog signal to, is called the conversion of digital-to-analogue information, and after the conversion of digital-to-analogue information, people have obtained the audiovisual/visual information via quantum information resume module and transmission.

2. information module m × n matrix A as claimed in claim 1 ', it is characterized in that: it is made up of general character part and individual character part, before reconstruct digital code information m × n matrix A, first by information module m × n matrix A ' individual character part format, again by eigenvalue coded scanning to corresponding position, can quick reconfiguration digital code information, the method for this reconstruct digital code information is referred to as projection scanning art.

3. digital code information m × n matrix A as claimed in claim 1, it is characterized in that: if its individual character part of fruit (being eigenvalue coding) amount of information is excessive, just eigenvalue coding is regarded as to digital code information i × j matrix B, and it is carried out to information module processing, obtain information module i × j matrix B ' and eigenvalue coding C, so repeatable operation, information module y × k Matrix C of getting back ' and eigenvalue encoding D, until the amount of information of eigenvalue coding is little; In the time of reconstruct digital code information m × n matrix A, first last eigenvalue encoding D is scanned on corresponding with it information module C ', obtain the eigenvalue coding C of upper level, and then eigenvalue coding C is scanned on corresponding with it information module B ', obtain the eigenvalue coding B of upper level, so repeatable operation, until reconstruct digital code information m × n matrix A.

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