CN105959119A - Random encryption physical information block chain anti-counterfeiting method, system and device - Google Patents

Abstract

The invention provides a random encryption physical information block chain anti-counterfeiting method which is characterized in that the specific physical information of an object to be verified is randomly collected, the specific physical information is transmitted and stored in a node, the node stores a record and generates an identification which is arranged on the object to be verified, verification personnel restores the identification and matches the specific physical information of the object to be verified, and the authenticity is discriminated. The specific physical information comprises object specific area physical information, object overall physical information or an object specific area physical information and object overall physical information combination. The specific physical information is solid distinguishing information which is formed and fixed to an object in an object natural or processing process and is not easy to be touched or abraded and comprises quality, texture, pattern, figure and a combination thereof. The identification also comprises auxiliary information such as geographical location information, a time stamp, transportation information, handler information and the like.

Description

Accidental enciphering physical message block chain method for anti-counterfeit, system and device

Technical field

The present invention relates to field of anti-counterfeit technology, particularly relate to a kind of accidental enciphering physical message block chain method for anti-counterfeit, system and device.

Background technology

At present, domestic had many blocks chain innovation team just block chain technology to be tried out, and China just makes great efforts to walk the forward position in the innovation of block chain.Block chain technology will bring us a chance, break through tradition, the chance of subversiveness innovation for one.Block chain can provide a kind of " the Internet+" novel concept, can will more easily provide the access of various service, and by the brand-new level of various service upgrade to decentration.A kind of new model of block chain technology artificial intelligence especially, by by the mankind's (even machine) point-to-point interconnection, it is achieved the combination of man-machine wisdom.

The technological innovation of block chain, is the upgrading of future generation of the Internet ICP/IP protocol, is the free evaluation of evidence through inner conviction freely transmitting the information of being upgraded to of information, is basic agreement and the normal form of following world market credit, will bring new value and prosperity to the mankind.

But because certification carrier does not take the information of the attribute of object own, authentication information and object disconnection itself, easily authentication information is forged, counterfeit, cause the failure of anti-fake certificate.It is therefore desirable to provide a kind of physical message block chain based on the natural quality of object own false proof mthods, systems and devices.

Summary of the invention

It is an object of the invention to provide a kind of accidental enciphering physical message block chain method for anti-counterfeit, system and device, true and false examination can be carried out by object natural quality physical message own, accomplish the randomness of anti-counterfeiting information, uniqueness, improve the safety of anti-counterfeiting information, reliability, consumer directly uses mobile terminal, just the information of false proof correspondence be can obtain, thus the inquiry difficulty of consumer, identification difficulty reduced.Achieve the antifalse effect of " the most reproducible, at a glance to identify ".

In order to solve above-mentioned technical problem, the present invention uses technical scheme:

A kind of accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition object to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described object to be verified, identifier is by by described mark decoded back, manage information matches with object individually defined thing to be tested, discern the false from the genuine.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to currency one accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition currency to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described currency to be verified, identifier is by by described mark decoded back, physics information matches specific with currency to be tested, discerns the false from the genuine.

Described specific physical message includes that currency specific region physical message, currency entirety physical message or currency specific region physical message combine with currency entirety physical message.

Described specific physical message is that currency is formed in the course of processing and is fixed on currency, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include existing currency currency examination information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, circulation people's information.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to bill one accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition bill to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described bill to be verified, identifier is by by described mark decoded back, physics information matches specific with bill to be tested, discerns the false from the genuine.

Described specific physical message includes that bill specific region physical message, bill entirety physical message or bill specific region physical message combine with bill entirety physical message.

Described specific physical message is that bill is formed in the course of processing and is fixed on bill, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include existing note validating information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to bank card one accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition bank card to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described bank card to be verified, identifier is by by described mark decoded back, physics information matches specific with bank card to be tested, discerns the false from the genuine.

Described specific physical message includes that bank card specific region physical message, bank card entirety physical message or bank card specific region physical message combine with bank card entirety physical message.

Described specific physical message is that bank card is formed in the course of processing and is fixed on bank card, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include that existing bank card verifies information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transaction record.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to leather one accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition leather to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described leather to be verified, identifier is by by described mark decoded back, physics information matches specific with leather to be tested, discerns the false from the genuine.

Described specific physical message includes that leather specific region physical message, leather entirety physical message or leather specific region physical message combine with leather entirety physical message.

Described specific physical message is that leather is formed during self-assembling formation and is fixed on leather, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, handler's information.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to electrical equipment one accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition electrical equipment to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described electrical equipment to be verified, identifier is by by described mark decoded back, with treat electroscope individually defined thing manage information matches, discern the false from the genuine.

Described specific physical message includes that electrical equipment specific region physical message, electrical equipment entirety physical message or electrical equipment specific region physical message combine with electrical equipment entirety physical message.

Described specific physical message is that electrical equipment is formed in the course of processing and is fixed on electrical equipment, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, handler's information.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for being applied to pack a kind of accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition packaging to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described packaging to be verified, identifier is by by described mark decoded back, physics information matches specific with packaging to be tested, discerns the false from the genuine.

Described specific physical message includes packing specific region physical message, the overall physical message of packaging or physical message overall with the packaging combination of packaging specific region physical message.

Described specific physical message is packed in the course of processing being formed and is fixed on packaging, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, handler's information.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for a kind of accidental enciphering physical message false proof acquisition system of block chain, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described acquisition module also has image amplification module and image pre-processing module.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

The present invention also provides for a kind of accidental enciphering physical message block chain false proof transmission system, it is characterised in that: including:

Object individually defined thing to be tested reason information transmission modular is gathered in order to transmit acquisition module.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described it is transmitted as opportunistic transmission.

The present invention also provides for a kind of accidental enciphering physical message block chain false proof storage system, it is characterised in that: including:

The memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module.

Node is distributed node.

Interlinking between node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

Invention also provides for a kind of accidental enciphering physical message block chain false proof solution code system, it is characterised in that: include

It is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Invention also provides for a kind of accidental enciphering physical message false proof matching system of block chain, it is characterised in that: including:

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module.

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described acquisition module also has image amplification module and image pre-processing module.

Described specific physical message is amplified to the resolution specified by described image amplification module.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

The present invention also provides for a kind of accidental enciphering physical message block chain Antiforge system, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission modular is gathered in order to transmit described acquisition module, the memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module, the mark module of mark is generated in order to physical message specific to object to be tested, it is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification, the matching module of the matching analysis is carried out in order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described acquisition module also has image amplification module and image pre-processing module.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module.

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described acquisition module also has image amplification module and image pre-processing module.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

It is false proof that the present invention also provides for being applied to electricity business's platform one accidental enciphering physical message block chain, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission modular is gathered in order to transmit described acquisition module, the memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module, the mark module of mark is generated in order to physical message specific to object to be tested, it is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification, the matching module of the matching analysis is carried out in order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described acquisition module also has image amplification module and image pre-processing module.

Described specific physical message is amplified to the resolution specified by described image amplification module.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module.

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

Described acquisition module also has image amplification module and image pre-processing module.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for a kind of accidental enciphering physical message false proof harvester of block chain, it is characterised in that: including:

In order to gather the collecting unit of object individually defined thing to be tested reason information gathering.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

The present invention also provides for a kind of accidental enciphering physical message false proof transmitting device of block chain, it is characterised in that: including:

Object individually defined thing to be tested reason information transmission unit is gathered in order to transmit described collecting unit.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

The present invention also provides for an accidental enciphering physical message block chain false proof storage device, it is characterised in that: including:

The memory element of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for a kind of accidental enciphering physical message false proof decoding apparatus of block chain, it is characterised in that: including:

It is decoded the decoding unit of reduction in order to mark unit to be generated object individually defined thing to be tested reason message identification.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Invention also provides for a kind of accidental enciphering physical message false proof coalignment of block chain, it is characterised in that: including:

Described matching unit also includes decoding unit information is transferred unit, the collecting unit of physical message specific to object body and ALU.

Described ALU, to transferring information that unit transfers and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

The present invention also provides for a kind of accidental enciphering physical message block chain false proof device, it is characterised in that: including:

Collecting unit, memory element, matching unit and transmission unit；

Described collecting unit is connected by transmission unit with memory element, and described memory element is connected by transmission unit with matching unit；

Described collecting unit is in order to gather object individually defined thing to be tested reason information gathering, and described transmission unit gathers object individually defined thing to be tested reason information, described memory element in order to store described transmission unit transmission object individually defined thing to be tested reason information in order to transmit described collecting unit；

Also include: generate mark in order to physical message specific to object to be tested and identify unit, in order to identifying the decoding unit that unit generation object individually defined thing to be tested reason message identification is decoded reducing, to carry out the matching unit of the matching analysis in order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described matching unit also includes decoding unit information is transferred unit, the collecting unit of physical message specific to object body and ALU.

Described ALU, to transferring information that unit transfers and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention also provides for a kind of accidental enciphering physical message false proof mobile terminal of block chain, it is characterised in that: including:

In order to gather the collecting unit of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission unit is gathered in order to transmit described collecting unit, the memory element of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit, the mark unit of mark is generated in order to physical message specific to object to be tested, it is decoded the decoding unit of reduction in order to mark unit to be generated object individually defined thing to be tested reason message identification, the matching unit of the matching analysis is carried out in order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described matching unit also includes decoding unit information is transferred unit, the collecting unit of physical message specific to object body and ALU.

Described ALU, to transferring information that unit transfers and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

Described collecting unit also has image enlarging unit and image pre-processing unit.

Described image amplifies the resolution being amplified to described specific physical message specify.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node is distributed node.

Interlinking between described node and form block chain, described link is linked by random hash.

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

After described block chain must be linked to previous block, transaction is the most further confirmed.

The present invention is compared with prior art: 1, use the checking of thing thing, more accurate than label Verification, overturns tradition anti-counterfeiting technology；2, method is simpler, it is easy to carry out；3, by block chain Technology application in anti-counterfeit field, there is pioneering meaning.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the application method for anti-counterfeit one embodiment.

Fig. 2 is the schematic diagram of the application another embodiment of method for anti-counterfeit.

Fig. 3 is the schematic diagram of the application method for anti-counterfeit application currency one embodiment.

Fig. 4 is the schematic diagram of the application method for anti-counterfeit another embodiment of application currency.

Fig. 5 is the schematic diagram that the application method for anti-counterfeit is applied to bill one embodiment.

Fig. 6 is the schematic diagram that the application method for anti-counterfeit is applied to another embodiment of bill.

Fig. 7 is the schematic diagram that the application method for anti-counterfeit is applied to bank card one embodiment.

Fig. 8 is the schematic diagram that the application method for anti-counterfeit is applied to another embodiment of bank card.

Fig. 9 is the schematic diagram that the application method for anti-counterfeit is applied to suitcase one embodiment.

Figure 10 is the schematic diagram that the application method for anti-counterfeit is applied to another embodiment of suitcase.

Figure 11 is the schematic diagram that the application method for anti-counterfeit is applied to packaging one embodiment.

Figure 12 is the schematic diagram that the application method for anti-counterfeit is applied to pack another embodiment.

Figure 13 is the schematic diagram that the application method for anti-counterfeit is applied to electrical equipment one embodiment.

Figure 14 is the schematic diagram that the application method for anti-counterfeit is applied to another embodiment of electrical equipment.

Figure 15 is the schematic diagram of the application false proof acquisition system one embodiment.

Figure 16 is the schematic diagram of the application another embodiment of false proof acquisition system.

Figure 17 is the false proof transmission of the application, the schematic diagram of storage system one embodiment.

Figure 18 is the schematic diagram of the application false proof solution code system one embodiment.

Figure 19 is the schematic diagram of the application false proof matching system one embodiment.

Figure 20 is the schematic diagram of the application another embodiment of false proof matching system.

Figure 21 is the schematic diagram of the application another embodiment of false proof matching system.

Figure 22 is the schematic diagram of the application Antiforge system one embodiment.

Figure 23 is the schematic diagram that the application Antiforge system is applied to electricity business's platform one embodiment.

Figure 24 is the schematic diagram of the application false proof harvester one embodiment.

Figure 25 is the schematic diagram of the application another embodiment of false proof harvester.

Figure 26 is the false proof transmission of the application, the schematic diagram of storage device one embodiment.

Figure 27 is the schematic diagram of the application false proof decoding apparatus one embodiment.

Figure 28 is the schematic diagram of the application false proof coalignment one embodiment.

Figure 29 is the schematic diagram of the application another embodiment of false proof coalignment.

Figure 30 is the schematic diagram of the application another embodiment of false proof coalignment.

Figure 31 is the schematic diagram of the application false proof device one embodiment.

Figure 32 is the schematic diagram of the application false proof mobile terminal one embodiment.

Detailed description of the invention

Understandable for enabling the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below in conjunction with the accompanying drawings the detailed description of the invention of the present invention is described in detail.

Elaborate a lot of detail in the following description so that fully understanding the present invention.But the present invention can implement to be much different from alternate manner described here, those skilled in the art can do similar popularization in the case of intension of the present invention, and therefore the present invention is not embodied as and concrete accompanying drawing is limited by following public.

Embodiment one

Such as Fig. 1, shown in 2, the specific physical message 1 of random acquisition object to be verified 111, specific physical message 2 11102, specific physical message 3 11103, specific physical message 4 11104, node 1 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 1 also generates mark 11401, described mark 11401 is placed in described object to be verified 111, identifier is by identifying 11402 decoded back 11403 by scanning, with the specific physical message of object 111 1 to be tested, specific physical message 2 11102, specific physical message 3 11103, specific physical message 4 11104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 11102, specific physical message 3 11103, specific physical message 4 11104, combine with object entirety physical message including object 111 specific region physical message, object entirety physical message or object specific region physical message.

Described specific physical message 1, specific physical message 2 11102, specific physical message 3 11103, specific physical message 4 11104, it is object nature or the course of processing to be formed be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark 11401 also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested 111 be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described transmission 115 is point-to-point transmission.

Described node 1, node 2 11302, node 2 11303 are distributed frame.

Interlinking between described node 1, node 2 11302, node 2 11303 and form block chain 11, described link is linked by random hash.

Described block chain 113 persistently extends, and new block once joins in described block chain 113, it is impossible to be removed.

After described block chain 113 must be linked to previous block, transaction is the most further confirmed.

Embodiment two

Such as Fig. 3, shown in 4, the specific physical message 1 of random acquisition currency to be verified 1, specific physical message 2 12102, specific physical message 3 12103, specific physical message 4 12104, node 12301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 12301 also generates mark 12401, described mark 12401 is placed in described currency to be verified 1, identifier identifies 12402 by described mark decoded back 12403 by scanning, specific physical message 1 with currency 1 to be tested, specific physical message 2 12102, specific physical message 3 12103, specific physical message 4 12104 is mated, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 12102, specific physical message 3 12103, specific physical message 4 12104, including currency 1 specific region physical message, the overall physical message of currency 1 or physical message overall with currency 1 combination of currency 1 specific region physical message.

Described specific physical message 1, specific physical message 2 12102, specific physical message 3 12103, specific physical message 4 12104, it is that currency one is formed in the course of processing and is fixed on currency including currency 1 specific region physical message, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but do not include existing currency currency examination information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, circulation people's information.

Described transmission 125 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 12302, node 2 12303 are distributed frame.

Interlinking between described node 1, node 2 12302, node 2 12303 and form block chain 123, described link is linked by random hash.

Described block chain 123 persistently extends, and new block once joins in described block chain 123, it is impossible to be removed.

After described block chain 123 must be linked to previous block, transaction is the most further confirmed.

Embodiment three

Such as Fig. 7, shown in 8, the specific physical message 1 of random acquisition bill to be verified 131, specific physical message 2 13102, specific physical message 3 13103, specific physical message 4 13104, node 13301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 13301 also generates mark 13401, described mark 13401 is placed in described bill to be verified 131, identifier identifies 13402 by described mark decoded back 13403 by scanning, with the specific physical message of bill 131 1 to be tested, specific physical message 2 13102, specific physical message 3 13103, specific physical message 4 13104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 13102, specific physical message 3 13103, specific physical message 4 13104, including bill 131 specific region physical message, the overall physical message of bill 131 or physical message overall with bill 131 combination of bill 131 specific region physical message.

Described specific physical message 1, specific physical message 2 13102, specific physical message 3 13103, specific physical message 4 13104, it is that bill 131 is formed in the course of processing and is fixed on bill 131, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but do not include existing note validating information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described transmission 135 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 13302, node 2 13303 are distributed frame.

Interlinking between described node 1, node 2 13302, node 2 13303 and form block chain 133, described link is linked by random hash.

Described block chain 133 persistently extends, and new block once joins in described block chain 133, it is impossible to be removed.

After described block chain 133 must be linked to previous block, transaction is the most further confirmed.

Embodiment four

Such as Fig. 9, shown in 10, the specific physical message 1 of random acquisition bank card to be verified 141, specific physical message 2 14102, specific physical message 3 14103, specific physical message 4 14104, node 14301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 14301 also generates mark 14401, described mark 14401 is placed in described bank card to be verified 141, identifier identifies 1402 by described mark decoded back 14403 by scanning, with the specific physical message of bank card 141 1 to be tested, specific physical message 2 14102, specific physical message 3 14103, specific physical message 4 14104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 14102, specific physical message 3 14103, specific physical message 4 14104, including bank card 141 specific region physical message, the overall physical message of bank card 141 or physical message overall with bank card 141 combination of bank card 141 specific region physical message.

Described specific physical message 1, specific physical message 2 14102, specific physical message 3 14103, specific physical message 4 14104, it is that bank card 141 is formed in the course of processing and is fixed on bank card 141, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but do not include that existing bank card verifies information.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described transmission 145 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 14302, node 2 14303 are distributed frame.

Interlinking between described node 1, node 2 14302, node 2 14303 and form block chain 143, described link is linked by random hash.

Described block chain 143 persistently extends, and new block once joins in described block chain 143, it is impossible to be removed.

After described block chain 143 must be linked to previous block, transaction is the most further confirmed.

Embodiment five

Such as Figure 11, shown in 12, the specific physical message 1 of random acquisition suitcase to be verified 151, specific physical message 2 15102, specific physical message 3 15103, specific physical message 4 15104, node 15301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 15301 also generates mark 15401, described mark 15401 is placed in described suitcase to be verified 151, identifier identifies 1502 by described mark decoded back 15403 by scanning, with the specific physical message of suitcase 151 1 to be tested, specific physical message 2 15102, specific physical message 3 15103, specific physical message 4 15104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 15102, specific physical message 3 15103, specific physical message 4 15104, including suitcase 151 specific region physical message, the overall physical message of suitcase 151 or physical message overall with suitcase 151 combination of suitcase 151 specific region physical message.

Described specific physical message 1, specific physical message 2 15102, specific physical message 3 15103, specific physical message 4 15104, it is that suitcase 151 is formed in the course of processing and is fixed on suitcase 151, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described transmission 155 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 15302, node 2 15303 are distributed frame.

Interlinking between described node 1, node 2 15302, node 2 15303 and form block chain 153, described link is linked by random hash.

Described block chain 153 persistently extends, and new block once joins in described block chain 153, it is impossible to be removed.

After described block chain 153 must be linked to previous block, transaction is the most further confirmed.

Embodiment six

Such as Figure 13, shown in 14, the specific physical message 1 of random acquisition packing box to be verified 161, specific physical message 2 16102, specific physical message 3 16103, specific physical message 4 16104, node 16301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 16301 also generates mark 16401, described mark 16401 is placed in described packing box to be verified 161, identifier identifies 1602 by described mark decoded back 16403 by scanning, with the specific physical message of packing box 161 1 to be tested, specific physical message 2 16102, specific physical message 3 16103, specific physical message 4 16104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 16102, specific physical message 3 16103, specific physical message 4 16104, including packing box 161 specific region physical message, the overall physical message of packing box 161 or physical message overall with packing box 161 combination of packing box 161 specific region physical message.

Described specific physical message 1, specific physical message 2 16102, specific physical message 3 16103, specific physical message 4 16104, it is that packing box 161 is formed in the course of processing and is fixed on packing box 161, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described transmission 165 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 16302, node 2 16303 are distributed frame.

Interlinking between described node 1, node 2 16302, node 2 16303 and form block chain 163, described link is linked by random hash.

Described block chain 163 persistently extends, and new block once joins in described block chain 163, it is impossible to be removed.

After described block chain 163 must be linked to previous block, transaction is the most further confirmed.

Embodiment seven

Such as Figure 15, shown in 16, the specific physical message 1 of random acquisition electrical equipment to be verified 171, specific physical message 2 17102, specific physical message 3 17103, specific physical message 4 17104, node 17301 is transmitted and be stored in above-mentioned specific physical message, the keeping records of described node 17301 also generates mark 17401, described mark 17401 is placed in described electrical equipment to be verified 171, identifier identifies 1702 by described mark decoded back 17403 by scanning, with treat the specific physical message of electroscope 171 1, specific physical message 2 17102, specific physical message 3 17103, specific physical message 4 17104, mate, discern the false from the genuine.

Described specific physical message 1, specific physical message 2 17102, specific physical message 3 17103, specific physical message 4 17104, including electrical equipment 171 specific region physical message, the overall physical message of electrical equipment 171 or physical message overall with electrical equipment 171 combination of electrical equipment 171 specific region physical message.

Described specific physical message 1, specific physical message 2 17102, specific physical message 3 17103, specific physical message 4 17104, it is that electrical equipment 171 is formed in the course of processing and is fixed on electrical equipment 171, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, endorser's information.

Described transmission 175 is point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 17302, node 2 17303 are distributed frame.

Interlinking between described node 1, node 2 17302, node 2 17303 and form block chain 173, described link is linked by random hash.

Described block chain 173 persistently extends, and new block once joins in described block chain 173, it is impossible to be removed.

After described block chain 173 must be linked to previous block, transaction is the most further confirmed.

Embodiment eight

Such as Figure 17, shown in 18, a kind of accidental enciphering physical message false proof acquisition system of block chain, it is characterised in that: including:

In order to gather the specific physical message of object 181 1 to be tested, specific physical message 2 18102, specific physical message 3 18103, specific physical message 4 18104, specific physical message 5 18105, the acquisition module 182 of collection.

Described acquisition module uses the sensor 18201 of given resolution to the specific physical message of object 181 1 to be tested, specific physical message 2 18102, specific physical message 3 18103, specific physical message 4 18104, specific physical message 5 18105, is acquired.

Described specific physical message 1, specific physical message 2 18102, specific physical message 3 18103, specific physical message 4 18104, specific physical message 5 18105, including object 181 specific region physical message, the overall physical message of object 181 or physical message overall with object 181 combination of object 181 specific region physical message.

Described specific physical message 1, specific physical message 2 18102, specific physical message 3 18103, specific physical message 4 18104, specific physical message 5 18105, it is object nature or the course of processing to be formed be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described acquisition module also has image amplification module 18202 and image pre-processing module 18203.

Described image amplification module 18202, by described specific physical message 1, specific physical message 2 18102, specific physical message 3 18103, specific physical message 4 18104, specific physical message 5 18105, is amplified to the resolution specified.

Described image pre-processing module 18203 includes image enhaucament 182031, image thinning 182032 and feature extraction 182033.

Embodiment nine

As shown in figure 19, a kind of accidental enciphering physical message block chain false proof transmission system, it is characterised in that: including:

Object individually defined thing to be tested reason information transmission modular is gathered in order to transmit acquisition module.

Described transmission 1, transmission 2 19102, transmission 3 19103 are point-to-point transmission.

Described transmission 1, transmission 2 19102, transmission 3 19103 are opportunistic transmission.

Embodiment ten

As shown in figure 19, a kind of accidental enciphering physical message block chain false proof storage system, it is characterised in that: including:

The memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module.

Node 1, node 2 20102 are distributed node.

Interlinking between described node and form block chain 20, described link is linked by random hash.

Described block 20 chain persistently extends, and new block once joins in described block chain 20, it is impossible to be removed.

After described block chain 20 must be linked to previous block, transaction is the most further confirmed.

Embodiment 11

As shown in figure 20, a kind of accidental enciphering physical message block chain false proof solution code system, it is characterised in that: include

It is decoded the decoder module 21 of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification.

Described decoder module 21 also includes image amplification module 211 and image pre-processing module 212.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are amplified to the described resolution specified by described image amplification module 211.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Embodiment 12

As shown in Figure 21,22,23, a kind of accidental enciphering physical message false proof matching system of block chain, it is characterised in that: including:

Described matching module also includes decoder module information is transferred module 224, the acquisition module 221 of physical message specific to object body and logical operation module 223.

Described logical operation module 223 exchanges specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 and the specific physical message of object body 1 that delivery block 224 transfers, specific physical message 2 22102, specific physical message 3 22103, specific physical message 4 22104, specific physical message 5 22105 carry out matching judgment, reach default threshold value, then pass through.

Described acquisition module 22 uses the sensor of given resolution to be acquired the specific physical message of object object body 1 to be tested, specific physical message 2 22102, specific physical message 3 22103, specific physical message 4 22104, specific physical message 5 22105.

Described acquisition module 22 also has image amplification module 2202 and image pre-processing module 2203.

Described specific physical message is amplified to the resolution specified by described image amplification module 2202.

Described image pre-processing module 2203 includes image enhaucament 22031, image thinning 22032 and feature extraction 22033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module also includes image amplification module and image pre-processing module.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Embodiment 13

A kind of accidental enciphering physical message block chain Antiforge system as shown in Figure 21,23,24, it is characterised in that: including:

nullIn order to gather the specific physical message of object 231 1 to be tested、Specific physical message 2 23102、Specific physical message 3 23103、Specific physical message 4 23104、The acquisition module 232 gathered，Object individually defined thing to be tested reason information transmission modular 235 is gathered in order to transmit described acquisition module、The memory module 23301 of object individually defined thing to be tested reason information is transmitted in order to store described transport module、The mark module 23401 of mark is generated in order to physical message specific to object to be tested、It is scanned identifying the decoder module of 23402 decoded back in order to mark module to be generated object individually defined thing to be tested reason message identification，In order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body 1、Specific physical message 2 23102、Specific physical message 3 23103、Specific physical message 4 23104，Carry out the matching module 23404 of the matching analysis.

Described acquisition module uses sensor 22201 physical message specific to object to be tested 1 of given resolution, specific physical message 2 23102, specific physical message 3 23103, specific physical message 4 23104, and the matching module 23404 carrying out the matching analysis is acquired.

Described acquisition module also has image amplification module 22202 and image pre-processing module 22203.

Described specific physical message is amplified to the resolution specified by described image amplification module 22202.

Described image pre-processing module 22203 includes image enhaucament 222031, image thinning 222032 and feature extraction 22033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module 21 also includes image amplification module 211 and image pre-processing module 212.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are amplified to the described resolution specified by described image amplification module 211.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described matching module also includes decoder module information is transferred module 224, physical message specific to object body 1, specific physical message 2 23102, specific physical message 3 23103, the acquisition module 221 of specific physical message 4 23104 and logical operation module 223.

Described logical operation module 223 is exchanged and is taken the specific physical message one of module calls and the specific physical message of object body 1, specific physical message 2 23102, specific physical message 3 23103, specific physical message 4 23104 carry out matching judgment, reach default threshold value, then pass through.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 include that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are to be formed in object nature or the course of processing to be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 2332, node 3 2333 are distributed node.

Interlinking between described node 1, node 2 2332, node 3 2333 and form block chain 233, described link is linked by random hash.

Described block chain 233 persistently extends, and new block once joins in described block chain 233, it is impossible to be removed.

After described block chain 233 must be linked to previous block, transaction is the most further confirmed.

Embodiment 14

Electricity business's platform one accidental enciphering physical message block chain it is applied to false proof as shown in Figure 21,23,25, it is characterised in that: including:

nullIn order to gather the specific physical message of object 241 1 to be tested、Specific physical message 2 24102、Specific physical message 3 24103、Specific physical message 4 24104、The acquisition module 242 gathered，Object individually defined thing to be tested reason information transmission modular 245 is gathered in order to transmit described acquisition module、The memory module 24301 of object individually defined thing to be tested reason information is transmitted in order to store described transport module、The mark module 24401 of mark is generated in order to physical message specific to object to be tested、It is scanned identifying the decoder module of 24402 decoded back in order to mark module to be generated object individually defined thing to be tested reason message identification，In order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body 1、Specific physical message 2 24102、Specific physical message 3 24103、Specific physical message 4 24104，Carry out the matching module 24404 of the matching analysis.

Described acquisition module uses sensor 22201 physical message specific to object to be tested 1 of given resolution, specific physical message 2 24102, specific physical message 3 24103, specific physical message 4 24104, and the matching module 24404 carrying out the matching analysis is acquired.

Described acquisition module also has image amplification module 22202 and image pre-processing module 22203.

Described specific physical message is amplified to the resolution specified by described image amplification module 22202.

Described image pre-processing module 22203 includes image enhaucament 222031, image thinning 222032 and feature extraction 22033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoder module 21 also includes image amplification module 211 and image pre-processing module 212.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are amplified to the described resolution specified by described image amplification module 211.

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

Described matching module also includes decoder module information is transferred module 224, physical message specific to object body 1, specific physical message 2 24102, specific physical message 3 24103, the acquisition module 221 of specific physical message 4 24104 and logical operation module 224.

Described logical operation module 224 is exchanged and is taken the specific physical message one of module calls and the specific physical message of object body 1, specific physical message 2 24102, specific physical message 3 24103, specific physical message 4 24104 carry out matching judgment, reach default threshold value, then pass through.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 include that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are to be formed in object nature or the course of processing to be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 2432, node 3 2433 are distributed node.

Interlinking between described node 1, node 2 2432, node 3 2433 and form block chain 243, described link is linked by random hash.

Described block chain 243 persistently extends, and new block once joins in described block chain 243, it is impossible to be removed.

After described block chain 243 must be linked to previous block, transaction is the most further confirmed.

Embodiment 15

Such as Figure 26, shown in 27, a kind of accidental enciphering physical message false proof harvester of block chain, it is characterised in that: including:

In order to gather the specific physical message of object 251 1 to be tested, specific physical message 2 25102, specific physical message 3 25103, specific physical message 4 25104, specific physical message 5 25105, the collecting unit 252 of collection.

Described collecting unit uses the sensor 25201 of given resolution to the specific physical message of object 251 1 to be tested, specific physical message 2 25102, specific physical message 3 25103, specific physical message 4 25104, specific physical message 5 25105, is acquired.

Described specific physical message 1, specific physical message 2 25102, specific physical message 3 25103, specific physical message 4 25104, specific physical message 5 25105, including object 251 specific region physical message, the overall physical message of object 251 or physical message overall with object 251 combination of object 251 specific region physical message.

Described specific physical message 1, specific physical message 2 25102, specific physical message 3 25103, specific physical message 4 25104, specific physical message 5 25105, it is object nature or the course of processing to be formed be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described collecting unit also has image enlarging unit 25202 and image pre-processing unit 25203.

Described image enlarging unit 25202, by described specific physical message 1, specific physical message 2 25102, specific physical message 3 25103, specific physical message 4 25104, specific physical message 5 25105, is amplified to the resolution specified.

Described image pre-processing unit 25203 includes image enhaucament 252031, image thinning 252032 and feature extraction 252033.

Embodiment 16

As shown in figure 28, a kind of accidental enciphering physical message false proof transmitting device of block chain, it is characterised in that: including:

Object individually defined thing to be tested reason information transmission unit is gathered in order to transmit collecting unit.

Described transmission 1, transmission 2 26102, transmission 3 26103 are point-to-point transmission.

Described transmission 1, transmission 2 26102, transmission 3 26103 are opportunistic transmission.

Embodiment ten

As shown in figure 28, a kind of accidental enciphering physical message block chain false proof storage device, it is characterised in that: including:

The memory element of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit.

Node 1, node 2 27102 are distributed node.

Interlinking between described node and form block chain 20, described link is linked by random hash.

Described block 27 chain persistently extends, and new block once joins in described block chain 27, it is impossible to be removed.

After described block chain 27 must be linked to previous block, transaction is the most further confirmed.

Embodiment 17

As shown in figure 29, a kind of accidental enciphering physical message false proof decoding apparatus of block chain, it is characterised in that: include

It is decoded the decoding unit 28 of reduction in order to mark unit to be generated object individually defined thing to be tested reason message identification.

Described decoding unit 28 also includes image enlarging unit 281 and image pre-processing unit 282.

Described specific physical message 1, specific physical message 2 28102, specific physical message 3 28103, specific physical message 4 28104, specific physical message 5 28105 are amplified to the described resolution specified by described image enlarging unit 281.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Embodiment 18

As shown in Figure 30,31, 32, a kind of accidental enciphering physical message false proof coalignment of block chain, it is characterised in that: including:

Described matching unit also includes decoding unit information is transferred unit 294, the collecting unit 291 of physical message specific to object body and ALU 293.

Described ALU 293 to transferring specific physical message 1, specific physical message 2 28102, specific physical message 3 28103, specific physical message 4 28104, specific physical message 5 28105 and the specific physical message of object body 1 that unit 294 transfers, specific physical message 2 29102, specific physical message 3 29103, specific physical message 4 29104, specific physical message 5 29105 carry out matching judgment, reach default threshold value, then pass through.

Described collecting unit 29 uses the sensor of given resolution to be acquired the specific physical message of object object body 1 to be tested, specific physical message 2 29102, specific physical message 3 29103, specific physical message 4 29104, specific physical message 5 29105.

Described collecting unit also has image enlarging unit 2902 and image pre-processing unit 2903.

Described specific physical message is amplified to the resolution specified by described image enlarging unit 2902.

Described image pre-processing unit 2903 includes image enhaucament 29031, image thinning 29032 and feature extraction 29033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit also includes image enlarging unit and image pre-processing unit.

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Embodiment 19

Such as Figure 31, shown in 32, a kind of accidental enciphering physical message block chain false proof device, it is characterised in that: including: collecting unit 301, memory element 30301, matching unit 30404 and transmission unit 305；

Described collecting unit 301 is connected by transmission unit 305 with memory element 30301, and described memory element 30301 is connected by transmission unit 305 with matching unit 30404；

nullIn order to gather the specific physical message of object 301 1 to be tested、Specific physical message 2 30102、Specific physical message 3 30103、Specific physical message 4 30104、The collecting unit 302 gathered，Object individually defined thing to be tested reason information transmission unit 305 is gathered in order to transmit described collecting unit、The memory element 30301 of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit、The mark unit 30401 of mark is generated in order to physical message specific to object to be tested、It is scanned identifying the decoding unit of 30402 decoded back in order to mark unit to be generated object individually defined thing to be tested reason message identification，In order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body 1、Specific physical message 2 30102、Specific physical message 3 30103、Specific physical message 4 30104，Carry out the matching unit 30404 of the matching analysis.

Described collecting unit uses sensor 22201 physical message specific to object to be tested 1 of given resolution, specific physical message 2 30102, specific physical message 3 30103, specific physical message 4 30104, and the matching unit 30404 carrying out the matching analysis is acquired.

Described collecting unit also has image enlarging unit 22202 and image pre-processing unit 22203.

Described specific physical message is amplified to the resolution specified by described image enlarging unit 22202.

Described image pre-processing unit 22203 includes image enhaucament 222031, image thinning 222032 and feature extraction 22033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit 21 also includes image enlarging unit 211 and image pre-processing unit 212.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are amplified to the described resolution specified by described image enlarging unit 211.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described matching unit also includes decoding unit information is transferred unit 224, physical message specific to object body 1, specific physical message 2 30102, specific physical message 3 30103, the collecting unit 221 of specific physical message 4 30104 and ALU 230.

Described ALU 230 is to transferring specific physical message one that unit transfers and the specific physical message of object body 1, specific physical message 2 30102, specific physical message 3 30103, specific physical message 4 30104 carry out matching judgment, reach default threshold value, then pass through.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 include that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are to be formed in object nature or the course of processing to be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 3032, node 3 3033 are distributed node.

Interlinking between described node 1, node 2 3032, node 3 3033 and form block chain 303, described link is linked by random hash.

Described block chain 303 persistently extends, and new block once joins in described block chain 303, it is impossible to be removed.

After described block chain 303 must be linked to previous block, transaction is the most further confirmed.

Embodiment 20

nullSuch as Figure 31、Shown in 32，A kind of accidental enciphering physical message false proof mobile terminal of block chain，It is characterized in that: including: in order to gather the specific physical message of object 311 1 to be tested、Specific physical message 2 31102、Specific physical message 3 31103、Specific physical message 4 31104、The collecting unit 312 gathered，Object individually defined thing to be tested reason information transmission unit 315 is gathered in order to transmit described collecting unit、The memory element 31311 of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit、The mark unit 31401 of mark is generated in order to physical message specific to object to be tested、It is scanned identifying the decoding unit of 31402 decoded back in order to mark unit to be generated object individually defined thing to be tested reason message identification，In order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body 1、Specific physical message 2 31102、Specific physical message 3 31103、Specific physical message 4 31104，Carry out the matching unit 31404 of the matching analysis.

Described collecting unit uses sensor 22201 physical message specific to object to be tested 1 of given resolution, specific physical message 2 31102, specific physical message 3 31103, specific physical message 4 31104, and the matching unit 31404 carrying out the matching analysis is acquired.

Described collecting unit also has image enlarging unit 22202 and image pre-processing unit 22203.

Described specific physical message is amplified to the resolution specified by described image enlarging unit 22202.

Described image pre-processing unit 22203 includes image enhaucament 222031, image thinning 222032 and feature extraction 22033.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described decoding unit 21 also includes image enlarging unit 211 and image pre-processing unit 212.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are amplified to the described resolution specified by described image enlarging unit 211.

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

Described matching unit also includes decoding unit information is transferred unit 224, physical message specific to object body 1, specific physical message 2 31102, specific physical message 3 31103, the collecting unit 221 of specific physical message 4 31104 and ALU 231.

Described ALU 231 is to transferring specific physical message one that unit transfers and the specific physical message of object body 1, specific physical message 2 31102, specific physical message 3 31103, specific physical message 4 31104 carry out matching judgment, reach default threshold value, then pass through.

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 include that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

Described specific physical message 1, specific physical message 2 21102, specific physical message 3 21103, specific physical message 4 21104, specific physical message 5 21105 are to be formed in object nature or the course of processing to be fixed on object, it is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

Described it is transmitted as point-to-point transmission.

Described it is transmitted as opportunistic transmission.

Described node 1, node 2 3132, node 3 3133 are distributed node.

Interlinking between described node 1, node 2 3132, node 3 3133 and form block chain 313, described link is linked by random hash.

Described block chain 313 persistently extends, and new block once joins in described block chain 313, it is impossible to be removed.

After described block chain 313 must be linked to previous block, transaction is the most further confirmed.

Although the present invention is open as above with preferred embodiment; but it is not for limiting claim; any those skilled in the art are without departing from the spirit and scope of the present invention; can make possible variation and amendment, therefore protection scope of the present invention should be defined in the range of standard with the claims in the present invention.

Claims (155)

1. an accidental enciphering physical message block chain method for anti-counterfeit, it is characterised in that:

The specific physical message of random acquisition object to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described object to be verified, identifier is by by described mark decoded back, manage information matches with object individually defined thing to be tested, discern the false from the genuine.

2. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

3. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 2, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

4. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

5. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

6. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

7. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Described node is distributed node.

8. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 1, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

9. accidental enciphering physical message block chain method for anti-counterfeit as described in claim 1,8, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

10. accidental enciphering physical message block chain method for anti-counterfeit as claimed in claim 9, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

11. 1 kinds of accidental enciphering physical message block chain method for anti-counterfeit, are applied to currency, it is characterised in that:

The specific physical message of random acquisition currency to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described currency to be verified, identifier is by by described mark decoded back, physics information matches specific with currency to be tested, discerns the false from the genuine.

12. methods as claimed in claim 11, it is characterised in that:

Described specific physical message includes that currency specific region physical message, currency entirety physical message or currency specific region physical message combine with currency entirety physical message.

13. methods as claimed in claim 12, it is characterised in that:

Described specific physical message is that currency is formed in the course of processing and is fixed on currency, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include existing currency currency examination information.

14. methods as claimed in claim 11, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, circulation people's information.

15. methods as claimed in claim 11, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

16. methods as claimed in claim 11, it is characterised in that:

Described node is distributed node.

17. methods as claimed in claim 11, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

18. as described in claim 11,17 method, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

19. methods as claimed in claim 18, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

20. an accidental enciphering physical message block chain method for anti-counterfeit, it is applied to bill, it is characterised in that:

The specific physical message of random acquisition bill to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described bill to be verified, identifier is by by described mark decoded back, physics information matches specific with bill to be tested, discerns the false from the genuine.

21. methods as claimed in claim 20, it is characterised in that:

Described specific physical message includes that bill specific region physical message, bill entirety physical message or bill specific region physical message combine with bill entirety physical message.

22. methods as claimed in claim 21, it is characterised in that:

Described specific physical message is that bill is formed in the course of processing and is fixed on bill, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include existing note validating information.

23. methods as claimed in claim 20, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, circulation people's information.

24. methods as claimed in claim 20, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

25. methods as claimed in claim 20, it is characterised in that:

Described node is distributed node.

26. methods as claimed in claim 20, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

27. as described in claim 20,26 method, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

28. methods as claimed in claim 27, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

29. 1 kinds of accidental enciphering physical message block chain method for anti-counterfeit, are applied to bank card, it is characterised in that:

The specific physical message of random acquisition bank card to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described bank card to be verified, identifier is by by described mark decoded back, physics information matches specific with bank card to be tested, discerns the false from the genuine.

30. methods as claimed in claim 29, it is characterised in that:

Described specific physical message includes that bank card specific region physical message, bank card entirety physical message or bank card specific region physical message combine with bank card entirety physical message.

31. methods as claimed in claim 30, it is characterised in that:

Described specific physical message is that bank card is formed in the course of processing and is fixed on bank card, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine, but does not include that existing bank card verifies information.

32. methods as claimed in claim 29, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transaction record information.

33. methods as claimed in claim 29, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

34. methods as claimed in claim 29, it is characterised in that:

Described node is distributed node.

35. methods as claimed in claim 29, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

36. as described in claim 29,35 method, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

37. methods as claimed in claim 36, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

38. 1 kinds of accidental enciphering physical message block chain method for anti-counterfeit, are applied to electrical equipment, it is characterised in that:

The specific physical message of random acquisition electrical equipment to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described electrical equipment to be verified, identifier is by by described mark decoded back, with treat electroscope individually defined thing manage information matches, discern the false from the genuine.

39. methods as claimed in claim 38, it is characterised in that:

Described specific physical message includes that electrical equipment specific region physical message, electrical equipment entirety physical message or electrical equipment specific region physical message combine with electrical equipment entirety physical message.

40. methods as claimed in claim 39, it is characterised in that:

Described specific physical message is that electrical equipment is formed in the course of processing and is fixed on electrical equipment, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

41. methods as claimed in claim 38, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, handler's information.

42. methods as claimed in claim 38, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

43. methods as claimed in claim 38, it is characterised in that:

Described node is distributed node.

44. methods as claimed in claim 38, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

45. as described in claim 38,44 method, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

46. as described in claim 45 method, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

47. 1 kinds of accidental enciphering physical message block chain method for anti-counterfeit, are applied to packaging, it is characterised in that:

The specific physical message of random acquisition packaging to be verified, described specific physical message is transmitted and is stored in node, described node keeping records also generates mark, described mark is placed in described packaging to be verified, identifier is by by described mark decoded back, physics information matches specific with packaging to be tested, discerns the false from the genuine.

48. as described in claim 47 method, it is characterised in that:

Described specific physical message includes packing specific region physical message, the overall physical message of packaging or physical message overall with the packaging combination of packaging specific region physical message.

49. methods as claimed in claim 39, it is characterised in that:

Described specific physical message is packed in the course of processing being formed and is fixed on packaging, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

50. as described in claim 47 method, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, handler's information.

51. as described in claim 47 method, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

52. as described in claim 47 method, it is characterised in that:

Described node is distributed node.

53. as described in claim 47 method, it is characterised in that:

Interlinking between described node and form block chain, described link is linked by random hash.

54. as described in claim 47,53 method, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

55. as described in claim 45 method, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

56. present invention also provide for a kind of accidental enciphering physical message false proof acquisition system of block chain, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering；

Described acquisition module uses the sensor of given resolution to physical object information to be tested；

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

57. as described in claim 56 the false proof acquisition system of accidental enciphering physical message block chain, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

58. as described in claim 56 the false proof acquisition system of accidental enciphering physical message block chain, it is characterised in that:

Described acquisition module also has image amplification module and image pre-processing module.

59. the false proof acquisition system of accidental enciphering physical message block chain as described in claim 56, it is characterised in that:

Described specific physical message is amplified to the resolution specified by described image amplification module.

60. as described in claim 56 the false proof acquisition system of accidental enciphering physical message block chain, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

61. 1 kinds of accidental enciphering physical message block chain false proof transmission systems, it is characterised in that: including:

Object individually defined thing to be tested reason information transmission modular is gathered in order to transmit acquisition module；

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

62. 1 kinds of accidental enciphering physical message block chain false proof storage systems, it is characterised in that: including:

The memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module；

Node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash.

63. as described in claim 61 accidental enciphering physical message block chain false proof storage system, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

64. as described in claim 61,62 accidental enciphering physical message block chain false proof storage system, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

65. an accidental enciphering physical message block chain false proof solution code system, it is characterised in that:

It is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification；

Described decoder module also includes image amplification module and image pre-processing module.

66. as described in claim 64 accidental enciphering physical message block chain false proof solution code system, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

67. as described in claim 64 accidental enciphering physical message block chain false proof solution code system, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

68. 1 kinds of accidental enciphering physical message false proof matching systems of block chain, it is characterised in that:

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module；

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through；

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

69. as described in claim 67 the false proof matching system of accidental enciphering physical message block chain, it is characterised in that:

Described acquisition module also has image amplification module and image pre-processing module.

70. false proof matching systems of accidental enciphering physical message block chain as recited in claim 68, it is characterised in that:

Described specific physical message is amplified to the resolution specified by described image amplification module.

71. as described in claim 68,69 the accidental enciphering physical message false proof matching system of block chain, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

72. as described in claim 67 the false proof matching system of accidental enciphering physical message block chain, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

73. 1 kinds of accidental enciphering physical message block chain Antiforge systems, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission modular is gathered in order to transmit described acquisition module, the memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module, the mark module of mark is generated in order to physical message specific to object to be tested, it is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification, the matching module of the matching analysis is carried out in order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body.

74. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

75. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described acquisition module also has image amplification module and image pre-processing module.

76. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described image amplifies the resolution being amplified to described specific physical message specify.

77. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

78. accidental enciphering physical message block chain Antiforge system as described in claim 72, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

79. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described decoder module also includes image amplification module and image pre-processing module.

80. as described in claim 78 any one accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

81. as described in claim 78 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

82. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module.

83. accidental enciphering physical message block chain Antiforge system as described in claim 81, it is characterised in that:

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

84. as described in claim 72,75,79,82 any one accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

85. as described in claim 83 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

86. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

87. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

88. accidental enciphering physical message block chain Antiforge system as described in claim 72, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

89. as described in claim 72 accidental enciphering physical message block chain Antiforge system, it is characterised in that:

Described node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash；

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed；

After described block chain must be linked to previous block, transaction is the most further confirmed.

90. 1 kinds of accidental enciphering physical message block chain Antiforge systems, are applied to electricity business's platform, it is characterised in that: including:

In order to gather the acquisition module of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission modular is gathered in order to transmit described acquisition module, the memory module of object individually defined thing to be tested reason information is transmitted in order to store described transport module, the mark module of mark is generated in order to physical message specific to object to be tested, it is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification, the matching module of the matching analysis is carried out in order to object individually defined thing to be tested to decoder module decoded back reason information and the specific physical message of object body.

91. as described in claim 89 system, it is characterised in that:

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

92. as described in claim 89 system, it is characterised in that:

Described acquisition module also has image amplification module and image pre-processing module.

93. as described in claim 91 system, it is characterised in that:

Described image amplifies the resolution being amplified to described specific physical message specify.

94. as described in claim 89 system, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

95. as described in claim 89 system, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

96. as described in claim 89 system, it is characterised in that:

Described decoder module also includes image amplification module and image pre-processing module.

97. as described in claim 95 system, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

98. as described in claim 96 system, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

99. claim 89, as described in system, it is characterised in that:

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module.

100. as described in claim 98 system, it is characterised in that:

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

101. as described in claim 89,92,96,98 any one system, it is characterised in that:

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

102. as described in claim 100 system, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

103. as described in claim 89 system, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

104. as described in claim 89 system, it is characterised in that:

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

105. as described in claim 89 system, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

106. as described in claim 89 system, it is characterised in that:

Described node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash；

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed；

After described block chain must be linked to previous block, transaction is the most further confirmed.

107. 1 kinds of accidental enciphering physical message false proof harvesters of block chain, it is characterised in that: including:

In order to gather the collecting unit of object individually defined thing to be tested reason information gathering；

Described collecting unit uses the sensor of given resolution to physical object information to be tested；

Described collecting unit also has image enlarging unit and image pre-processing unit.

108. as described in claim 106 the false proof harvester of accidental enciphering physical message block chain, it is characterised in that:

Described image amplifies the resolution being amplified to described specific physical message specify.

109. the false proof harvester of accidental enciphering physical message block chain as described in claim 106, it is characterised in that:

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

110. 1 kinds of accidental enciphering physical message false proof transmitting devices of block chain, it is characterised in that:

Object individually defined thing to be tested reason information transmission unit is gathered in order to transmit described collecting unit；

Described it is transmitted as point-to-point transmission；

Described it is transmitted as opportunistic transmission.

111. 1 accidental enciphering physical message block chain false proof storage devices, it is characterised in that:

The memory element of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit；

Described node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash.

112. as described in claim 110 accidental enciphering physical message block chain false proof storage device, it is characterised in that:

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed.

113. as described in claim 110,111 accidental enciphering physical message block chain false proof storage device, it is characterised in that:

After described block chain must be linked to previous block, transaction is the most further confirmed.

114. 1 kinds of accidental enciphering physical message false proof decoding apparatus of block chain, it is characterised in that:

It is decoded the decoder module of reduction in order to mark module to be generated object individually defined thing to be tested reason message identification；

Described decoder module also includes image amplification module and image pre-processing module.

115. as described in claim 113 the false proof decoding apparatus of accidental enciphering physical message block chain, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

116. the false proof decoding apparatus of accidental enciphering physical message block chain as described in claim 113, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

117. 1 kinds of accidental enciphering physical message false proof coalignments of block chain, it is characterised in that:

Described matching module also includes decoder module information is transferred module, the acquisition module of physical message specific to object body and logical operation module；

Described logical operation module is exchanged and is taken the information of module calls and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through；

Described acquisition module uses the sensor of given resolution to physical object information to be tested.

118. the false proof coalignment of accidental enciphering physical message block chain as described in claim 116, it is characterised in that:

Described acquisition module also has image amplification module and image pre-processing module.

119. as described in claim 117 the false proof coalignment of accidental enciphering physical message block chain, it is characterised in that:

Described specific physical message is amplified to the resolution specified by described image amplification module.

120. as described in claim 117,118 the accidental enciphering physical message false proof coalignment of block chain, it is characterised in that:

Described image pre-processing module includes image enhaucament, image thinning and feature extraction.

121. as described in claim 116 the false proof coalignment of accidental enciphering physical message block chain, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

122. 1 kinds of accidental enciphering physical message block chain false proof devices, it is characterised in that: including:

Collecting unit, memory element, matching unit and transmission unit；

Described collecting unit is connected by transmission unit with memory element, and described memory element is connected by transmission unit with matching unit；

Described collecting unit is in order to gather object individually defined thing to be tested reason information gathering, and described transmission unit gathers object individually defined thing to be tested reason information, described memory element in order to store described transmission unit transmission object individually defined thing to be tested reason information in order to transmit described collecting unit；

Also include: generate mark in order to physical message specific to object to be tested and identify unit, in order to identifying the decoding unit that unit generation object individually defined thing to be tested reason message identification is decoded reducing, to carry out the matching unit of the matching analysis in order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body.

123. accidental enciphering physical message block chain false proof device as described in claim 121, it is characterised in that:

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

124. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described collecting unit also has image enlarging unit and image pre-processing unit.

125. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described image amplifies the resolution being amplified to described specific physical message specify.

126. accidental enciphering physical message block chain false proof device as described in claim 121, it is characterised in that:

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

127. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

128. accidental enciphering physical message block chain false proof device as described in claim 121, it is characterised in that:

Described decoding unit also includes image enlarging unit and image pre-processing unit.

129. as described in claim 127 any one accidental enciphering physical message block chain false proof device, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

130. as described in claim 127 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

131. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described matching unit also includes decoding unit information is transferred unit, the collecting unit of physical message specific to object body and ALU.

132. as described in claim 130 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described ALU, to transferring information that unit transfers and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

133. as described in claim 121,124,128,131 any one accidental enciphering physical message block chain false proof device, it is characterised in that:

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

134. as described in claim 132 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

135. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

136. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

137. as described in claim 121 accidental enciphering physical message block chain false proof device, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

138. accidental enciphering physical message block chain false proof device as described in claim 121, it is characterised in that:

Described node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash；

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed；

After described block chain must be linked to previous block, transaction is the most further confirmed.

139. the accidental enciphering physical message false proof mobile terminal of block chain, it is characterised in that: including:

In order to gather the collecting unit of object individually defined thing to be tested reason information gathering, object individually defined thing to be tested reason information transmission unit is gathered in order to transmit described collecting unit, the memory element of object individually defined thing to be tested reason information is transmitted in order to store described transmission unit, the mark unit of mark is generated in order to physical message specific to object to be tested, it is decoded the decoding unit of reduction in order to mark unit to be generated object individually defined thing to be tested reason message identification, the matching unit of the matching analysis is carried out in order to object individually defined thing to be tested to decoding unit decoded back reason information and the specific physical message of object body.

140. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described collecting unit uses the sensor of given resolution to physical object information to be tested.

141. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 138, it is characterised in that:

Described collecting unit also has image enlarging unit and image pre-processing unit.

142. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described image amplifies the resolution being amplified to described specific physical message specify.

143. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

144. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 138, it is characterised in that:

Described mark includes Quick Response Code, three-dimension code, four-dimensional code, five dimension codes, sextuple code.

145. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described decoding unit also includes image enlarging unit and image pre-processing unit.

146. as described in claim 144 any one the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described specific physical message is amplified to the described resolution specified by the amplification of described image.

147. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 144, it is characterised in that:

Described image pre-processing unit includes image enhaucament, image thinning and feature extraction.

148. as described in claim 145 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described matching unit also includes decoding unit information is transferred unit, the collecting unit of physical message specific to object body and ALU.

149. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 147, it is characterised in that:

Described ALU, to transferring information that unit transfers and the specific physical message of object body carries out matching judgment, reaches default threshold value, then passes through.

150. as described in claim 138,141,145,148 any one the accidental enciphering physical message false proof mobile terminal of block chain, it is characterised in that:

Described specific physical message includes that object specific region physical message, object entirety physical message or object specific region physical message combine with object entirety physical message.

151. as described in claim 149 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described specific physical message is to be formed in object nature or the course of processing to be fixed on object, is difficult to touch or the distinctive information of nonabradable solid-state, including quality, texture, pattern, decorative pattern and combine.

152. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 138, it is characterised in that:

Described mark also includes the adjuvanticity information such as geographical location information, timestamp, transit information, handler's information.

153. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described object to be tested be under room temperature shaped solid or in cold preservation storage and transport process formed shaped solid.

154. the false proof mobile terminal of accidental enciphering physical message block chain as described in claim 138, it is characterised in that:

Described be transmitted as point-to-point transmission, described in be transmitted as opportunistic transmission.

155. as described in claim 138 the false proof mobile terminal of accidental enciphering physical message block chain, it is characterised in that:

Described node is distributed node；

Interlinking between described node and form block chain, described link is linked by random hash；

Described block chain persistently extends, and new block once joins in described block chain, it is impossible to be removed；

After described block chain must be linked to previous block, transaction is the most further confirmed.