CN104243497A - Safety communication method on basis of random segmental encryption - Google Patents

Abstract

A safety communication method on the basis of random segmental encryption includes steps of storing a first dispatch table in a first storage unit of a first communication device and storing a second dispatch table in a second storage unit of a second communication device, wherein both the first dispatch table and the second dispatch table store a plurality of pieces of channel information and signal segment codes and encryption information corresponding to pieces of channel information; dividing signals to be transmitted into multiple signal segments by the first communication device and sequentially distributing the signal segment codes to the signal segments; transmitting the signal segments to the second communication device in a partial channel encryption manner by the first communication device through channels corresponding to the channel information on the basis of the first dispatch table according to the encryption information, wherein the signal segment codes of the signal segments transmitted by the channels are identical with the corresponding signal segment codes of the channel information corresponding to the channels in the first dispatch table; receiving the signal segments by the second communication device and distributing the corresponding signal segment codes for the received signal segments from the channels corresponding to the channel information.

Description

The method securely communicated is encrypted by random segment

Technical field

The present invention relates to the communications field, more particularly, the present invention relates to and a kind ofly encrypted the method securely communicated by random segment.

Background technology

In the communication technology, in order to improve the fail safe of communication, generally encryption is taked to communication.Encryption changes original information data with certain special algorithm, even if make undelegated user obtain the information of having encrypted, but because not knowing the method for deciphering, still cannot understand the content of information.

Generally, adopt algorithm and hardware implementing all more complicated of the communication network of encryption technology, thus cause adopting the communication network cost of encryption technology higher.

Therefore, that ites is desirable to can to realize secure communication with simple means and low cost encrypts by random segment the method securely communicated.

Summary of the invention

Technical problem to be solved by this invention is for there is above-mentioned defect in prior art, provide a kind of can realize secure communication with simple means and low cost encrypt by random segment the method securely communicated.

In order to realize above-mentioned technical purpose, according to the present invention, provide and a kind ofly encrypted the method securely communicated by random segment, it comprises:

First step: store the first dispatch list in the first memory of first communication device, and in the second memory of secondary communication device, store the second dispatch list, wherein the first dispatch list and the second dispatch list all store multiple channel information, encode with each the corresponding signal segment in described multiple channel information and with each the corresponding enciphered message in described multiple channel information, and described enciphered message represent corresponding to described multiple channel information signal in the encrypted and another part unencryption of a part;

Second step: first communication device is divided into multiple signal segment the signal that will send and is followed successively by described multiple signal segment distributing signal section coding, the quantity of wherein said multiple signal segment corresponds to the quantity of described multiple channel information, and the length of wherein said multiple signal segment to account for the percentage of the whole length of the described signal that will send incomplete same;

Third step: first communication device utilizes the channel corresponding to described multiple channel information respectively described multiple signal segment to be passed to secondary communication device in the mode of a part of single channel encryption based on the first dispatch list according to enciphered message, wherein the signal segment coding of the signal segment that transmits of each channel is encoded consistent with the corresponding signal section of the described multiple channel information corresponding to this channel in the first dispatch list;

4th step: receive described multiple signal segment at secondary communication device, according to the second dispatch list, the signal segment received from the channel carrying out signal segment transmission in the mode of encryption is carried out corresponding decryption processing, and encode for the signal segment received from the channel corresponding to each channel information distributes the signal segment corresponding in the second dispatch list with this channel information;

5th step: the described multiple signal segment received according to distributed signal segment coding assembling secondary communication device at secondary communication device.

Preferably, the first dispatch list is identical with the second dispatch list.

Thus, to be encrypted in the method securely communicated by random segment according to of the present invention, by signal being split into the different multiple signal segments of length, and the different signal segment after utilizing different channels transmission to break, and receiving terminal according to preset schedule information carry out signal assembling and deciphering with restore information, thus even if signal is intercepted in transmittance process, because how the side of intercepting cannot know in order and signal Length Ratio is assembled and decrypted signal thus recovering signal, thus still leakage of information can not be caused; Should encrypt by random segment the method securely communicated thus and realize secure communication with simple means and low cost.

Accompanying drawing explanation

By reference to the accompanying drawings, and by reference to detailed description below, will more easily there is more complete understanding to the present invention and more easily understand its adjoint advantage and feature, wherein:

Fig. 1 schematically shows the schematic diagram being encrypted the method securely communicated according to the preferred embodiment of the invention by random segment.

Fig. 2 schematically shows the flow chart being encrypted the method securely communicated according to the preferred embodiment of the invention by random segment.

It should be noted that, accompanying drawing is for illustration of the present invention, and unrestricted the present invention.Note, represent that the accompanying drawing of structure may not be draw in proportion.Further, in accompanying drawing, identical or similar element indicates identical or similar label.

Embodiment

In order to make content of the present invention clearly with understandable, below in conjunction with specific embodiments and the drawings, content of the present invention is described in detail.

Fig. 1 schematically shows the schematic diagram being encrypted the method securely communicated according to the preferred embodiment of the invention by random segment; And Fig. 2 schematically shows the flow chart being encrypted the method securely communicated according to the preferred embodiment of the invention by random segment.

As depicted in figs. 1 and 2, encrypt by random segment the method securely communicated according to the preferred embodiment of the invention to comprise:

First step S1: store the first dispatch list 12 in the first memory 11 of first communication device 10, and in the second memory 21 of secondary communication device 20, store the second dispatch list 22, wherein the first dispatch list 12 and the second dispatch list 22 all store multiple channel information (the first channel 110 such as shown in Fig. 1, the channel information of second channel 120 and the 3rd channel 130), encode with each the corresponding signal segment in described multiple channel information, and with each the corresponding enciphered message in described multiple channel information, and described enciphered message represent corresponding to described multiple channel information signal in the encrypted and another part unencryption of a part,

Preferably, the first dispatch list 12 is identical with the second dispatch list 22.

Such as, the first dispatch list 12 and the second dispatch list 22 are as shown in table 1 below:

Table 1

When the example of table 1, first channel information (corresponding to the first channel 110) is corresponding to signal segment coding " 1 ", second channel information (corresponding to second channel 120) is corresponding to signal segment coding " 3 ", and the 3rd channel information (corresponding to the 3rd channel 130) is corresponding to signal segment coding " 2 "; Wherein, enciphered message represents that only having second channel information to have employed WEP (Wired Equivalent Privacy) technology has carried out encryption.

Second step S2: first communication device 10 is divided into multiple signal segment the signal that will send and is followed successively by described multiple signal segment distributing signal section coding, the quantity of wherein said multiple signal segment corresponds to the quantity of described multiple channel information, and the length of wherein said multiple signal segment to account for the percentage of the whole length of the described signal that will send incomplete same; Such as, when the signal that will send be divided into the first signal segment, secondary signal section and the 3rd signal segment, the length of the first signal segment, secondary signal section and the 3rd signal segment accounts for that the percentage of the whole length of the described signal that will send is incomplete same can be respectively 30%, 30% and 40%.

Third step S3: described multiple signal segment is passed to secondary communication device 20 by mode that first communication device 10 utilizes the channel corresponding to described multiple channel information to encrypt with local channel based on the first dispatch list 12 according to enciphered message respectively, wherein the signal segment coding of the signal segment that transmits of each channel is encoded consistent with the corresponding signal section of the described multiple channel information corresponding to this channel in the first dispatch list 12;

When the example of table 1, the first channel 110 transmission of signal section is encoded to the signal segment of " 1 ", and second channel 120 transmission of signal section is encoded to the signal segment of " 3 ", and the 3rd channel 130 transmission of signal section is encoded to the signal segment of " 2 "; And only second channel information have employed WEP technology and carries out signal transmission.

4th step S4: receive described multiple signal segment at secondary communication device 20, according to the second dispatch list 22, the signal segment received from the channel carrying out signal segment transmission in the mode of encryption is carried out corresponding decryption processing, and encode for the signal segment received from the channel corresponding to each channel information distributes the signal segment corresponding in the second dispatch list 22 with this channel information;

When the example of table 1, secondary communication device 20 is signal segment distributing signal section coding " 1 " received from the first channel 110, for signal segment distributing signal section coding " 3 " section received from second channel 120, it is signal segment distributing signal section coding " 2 " received from the 3rd channel 130.

5th step S5: the described multiple signal segment received according to distributed signal segment coding assembling secondary communication device 20 at secondary communication device 20.

Thus, encrypted in the method securely communicated according to the preferred embodiment of the invention by random segment, by signal being split into the different multiple signal segments of length, and the different signal segment after utilizing different channels transmission to break, and receiving terminal according to preset schedule information carry out signal assembling and deciphering with restore information, thus even if signal is intercepted in transmittance process, because how the side of intercepting cannot know in order and signal Length Ratio is assembled and decrypted signal thus recovering signal, thus still leakage of information can not be caused; Should encrypt by random segment the method securely communicated thus and realize secure communication with simple means and low cost.

In addition, it should be noted that, unless stated otherwise or point out, otherwise the term " first " in specification, " second ", " the 3rd " etc. describe only for distinguishing each assembly, element, step etc. in specification, instead of for representing logical relation between each assembly, element, step or ordinal relation etc.

Be understandable that, although the present invention with preferred embodiment disclose as above, but above-described embodiment and be not used to limit the present invention.For any those of ordinary skill in the art, do not departing under technical solution of the present invention ambit, the technology contents of above-mentioned announcement all can be utilized to make many possible variations and modification to technical solution of the present invention, or be revised as the Equivalent embodiments of equivalent variations.Therefore, every content not departing from technical solution of the present invention, according to technical spirit of the present invention to any simple modification made for any of the above embodiments, equivalent variations and modification, all still belongs in the scope of technical solution of the present invention protection.

Claims (2)

1. encrypted the method securely communicated by random segment, it is characterized in that comprising:

First step: store the first dispatch list in the first memory of first communication device, and in the second memory of secondary communication device, store the second dispatch list, wherein the first dispatch list and the second dispatch list all store multiple channel information, encode with each the corresponding signal segment in described multiple channel information and with each the corresponding enciphered message in described multiple channel information, and described enciphered message represent corresponding to described multiple channel information signal in the encrypted and another part unencryption of a part;

Second step: first communication device is divided into multiple signal segment the signal that will send and is followed successively by described multiple signal segment distributing signal section coding, the quantity of wherein said multiple signal segment corresponds to the quantity of described multiple channel information, and the length of wherein said multiple signal segment to account for the percentage of the whole length of the described signal that will send incomplete same;

Third step: first communication device utilizes the channel corresponding to described multiple channel information respectively described multiple signal segment to be passed to secondary communication device in the mode of a part of single channel encryption based on the first dispatch list according to enciphered message, wherein the signal segment coding of the signal segment that transmits of each channel is encoded consistent with the corresponding signal section of the described multiple channel information corresponding to this channel in the first dispatch list;

4th step: receive described multiple signal segment at secondary communication device, according to the second dispatch list, the signal segment received from the channel carrying out signal segment transmission in the mode of encryption is carried out corresponding decryption processing, and encode for the signal segment received from the channel corresponding to each channel information distributes the signal segment corresponding in the second dispatch list with this channel information;

5th step: the described multiple signal segment received according to distributed signal segment coding assembling secondary communication device at secondary communication device.

2. according to claim 1ly encrypted the method securely communicated by random segment, it is characterized in that, the first dispatch list is identical with the second dispatch list.