CN112765568A - Electronic seal implementation method based on third party authentication - Google Patents

Abstract

A third party certification authority is provided with an electronic seal software platform, and when a user needs to use an electronic seal, the user logs in the electronic seal software platform and obtains the authorization of using the seal through identity certification or electronic signature. A user opens, imports or uploads an electronic text to be stamped through an electronic stamping software platform, and stamps a stamping pattern generated by operating the electronic stamping software platform on the electronic text; the stamping pattern of the electronic stamp comprises a fixed information unit and a dynamic information unit; in the operation process, the electronic seal software platform acquires time information (3) during the sealing operation or sealing frequency information (4) of the electronic seal, and solidifies and presents the acquired time information (3) or sealing frequency information (4) in a visual form in the generated sealing pattern to form a part or all of the content of the dynamic information unit.

Description

Electronic seal implementation method based on third party authentication

Technical Field

The invention relates to an electronic seal implementation method based on third party authentication.

Background

In the era of network economy, remote signing and contracting are common economic behaviors. The scenes that need to be remotely stamped by one party are very common, for example, the bidding document for bidding needs to be modified and stamped on site, or the bidding site submits a challenge letter, and the like, and the introduction letter is issued remotely, and the like. In addition, management of physical seals has always been faced with some internal seal management difficulties, and its main risk is: risk of misappropriation, falseness, or abuse of the seal; after the seal is taken out, the use condition of the seal is difficult to monitor; the seals of subordinate units are not easy to monitor, and if the seals are not used by laws and regulations, the superior units can bear unnecessary legal responsibility and economic loss; when the seal has to be sent remotely, the cost is high, the efficiency is low, and the risk of losing exists; there are also situations where there are out-flowing stamped blank pages, which have significant potential risks.

For the physical seal, the remote contract signing process is very inconvenient and difficult to standardize. One method commonly used at present is that one party firstly scans the stamped text and then sends the text to the other party, and the other party prints and stamps the scanned piece, then carries out secondary scanning, and sends the printed and stamped text back. This process is cumbersome and often results in poor text quality due to multiple scans.

At present, there is still a seal intelligence machine of stamping on the market, and this intelligence machine of stamping is provided with remote control's intelligent lock. The entity seal can be placed in the intelligent stamping machine, and the intelligent lock cannot be opened without authorization. When the seal is used, the seal applicant provides a seal application to a seal use auditor. After the seal is approved, the seal using auditor indicates the intelligent lock controller to unlock remotely, the intelligent stamping machine can stamp automatically, stamping information is returned to the seal using auditor or the intelligent lock controller, and stamping is completed. The intelligent seal stamping machine solves the problems of remote stamping, seal management of molecular companies and the like, but the whole operation still appears to be troublesome. And the intelligent stamping machine for the seal is not expensive, and is a little expense for more enterprises of molecular companies.

In the era of physical seals, the situation that electronic patterns of physical seals are prevented by adopting character software or graphic software exists, the electronic seal patterns are applied to documents such as WPS (paper-based document system) or Word, and then the documents are printed into paper manuscripts by utilizing a color printer. The situation is basically illegal imitation behaviors of various seals, and the seals are generally not used as electronic documents independently, and most of printed paper manuscripts are used as originals. For such an illegally copied electronic stamp pattern, the authenticity is generally discriminated by differentiating a print forming color of the stamp from a stamp forming color of the stamp. When the formed color cannot be distinguished, the stamped text is often checked for authenticity by performing a background survey. The simple electronic seal anti-counterfeiting behavior is called street mouse shouting by people because of lack of visual anti-counterfeiting function or authority certification of a third-party platform to restrict abuse of the simple electronic seal anti-counterfeiting behavior. On the other hand, if the electronic seal pattern authenticated by the third party is simply copied to the solid seal pattern, and changeable dynamic information or anti-counterfeiting lines of the real anti-counterfeiting electronic seal are not given, the electronic seal pattern is still inconvenient to be converted into paper manuscript circulation for use. The reason is that on the paper manuscript printed with the pattern, people are difficult to distinguish the authenticity of the seal pattern and the stamped text, and the people need to resort to an authentication platform for electronic authenticity identification. However, electronic authentication is often inconvenient and complicated in operation. Internet applications are designed for foolproof operation, and complex authentication processes can frustrate many junior users.

With the development of internet technology, socioeconomic life needs an electronic signature mode to solve the above problems, and thus electronic signatures and network identity authentication are in the process of production.

The first electronic signature method in the world was enacted in utah, usa in 1995; in 1996, the United nations trade law Committee formulated the electronic signature demonstration method; the European Union formulated electronic signature directive in 1999; in 2000, the U.S. congress signed the electronic signature act electronically through the electronic signature act in the global and national business act, clinton. Subsequently, a plurality of countries such as japan, singapore, korea, etc. 40 have also made laws concerning e-commerce successively,

since 2002, more than ten third-party electronic signing platforms are established in China, and the platforms roughly comprise: the method comprises the steps of signing, legal marking, contract locking, cloud contract, E sign, Yiyun seal, Wutong I sign file, Chinese cloud sign, Anxin sign, No. 1 sign, text sign, collar sign, Yitong, sign pen box and the like.

On 2.4.2003, docusagn is registered in washington, and an electronic signature solution is provided for users.

In 2005, 1/4, the electronic signature method is formally implemented.

In 2006, the inventor of the present patent application published "dual-network mode wireless signature authentication" in "e-commerce" journal of the 9 th year, first proposed that the problem of remote identity authentication is solved by using short message dynamic codes, and has now been widely applied.

However, the electronic signature service provider and the third-party network signing platform pay attention to an electronic anti-counterfeiting means depending on identity authentication and electronic signature. The electronic anti-counterfeiting means can play a role by depending on the use environment of the software platform. The platform has no corresponding reliable technical measures for visual anti-counterfeiting in the use or circulation process of the stamped text which is separated from the environment of the platform, particularly the visual anti-counterfeiting when the stamped text is printed as a paper text. At present, there is a general view in the industry that it is necessary to work without paper in the future. In the trend of office electronization, the electronic text solves all the anti-counterfeiting problems as long as the anti-counterfeiting problem of the electronic layer is solved. In fact, it is the general recognition of this view that almost no one is concerned with the visual anti-counterfeiting problem in the field of electronic signatures. The inventors believe that such predictions and conclusions are inaccurate. First, absolutely paperless office will not be a reality in the foreseeable future; secondly, even in electronic documents, it is still indispensable to visually identify authenticity by naked eyes during use, and the frequency of use thereof will far exceed electronic authentication.

The inventor considers that: the seal is seen as a person, and the seal also has internal characteristics and external characteristics. Identity authentication and electronic signature express the intrinsic characteristics thereof, which are equivalent to the characters of people; the visual anti-counterfeiting graphic printing shows the external characteristics, which are equivalent to the appearance of a human. Therefore, both electronic anti-counterfeiting and visual anti-counterfeiting are indispensable. Existing third party subscription platforms address only one of them.

In addition, the anti-counterfeiting problem of the electronic seal needs to be solved, namely the combination of the electronic seal and the text content has the problems of singleness, correspondence and illegal counterfeiting and copying prevention. To solve the problem, the method for using anti-counterfeiting watermark or anti-counterfeiting pattern on the stamping text is a solution. And the electronic file formed by the stamped text is stored in a special format, so that the method is more reliable. Such proprietary format files can only be opened by the platform to which they belong or by its designated software. This method makes it impossible to implement a method of forging stamp patterns such as a snap method and a drawing method.

In addition, a single platform generates a two-dimensional code in the stamped text, and the two-dimensional code can be scanned to read the related information of the stamped file. In fact, the two-dimensional code alone does not have the anti-counterfeiting function. Because, it is extremely easy to compile information and generate a two-dimensional code, and the authenticity cannot be distinguished visually.

For the convenience of users, the electronic seal software platform should accept the uploading of as many electronic format files as possible, such as WPS text and word format, PDF format, various picture formats, even chart or slide format, etc., but the output of the sealed files must be non-editable and non-modifiable electronic files. As mentioned above, if a special file format specified by an electronic seal software platform or a platform is adopted, a uniform electronic text format which is easy to distinguish can be formed, and more importantly, the special electronic text format has a crucial role in anti-counterfeiting and authentication of the electronic seal.

From a usage point of view, the autonomous authentication of the user of the stamped text should be as convenient as possible and must be of considerable reliability. The autonomous authentication behavior of the seal user is ubiquitous, and only when autonomous authentication cannot be achieved, intervention of a third-party authentication mechanism is needed, and intervention of a notarization mechanism is needed in occasions with higher requirements. Just like between people, the identification is always carried out by appearance, the identity card is only upgraded to the identity card according to the authority comparison in a few special scenes, and the DNA comparison is possible only under more special conditions.

To some extent, the stamp represents a mechanism or a person, and the stamp pattern is equivalent to the appearance of the person; the stamp pattern or the stamp text reserved by the third-party platform is equivalent to the identity card data of the public security organization; the electronic signature or the identity authentication data is equivalent to the DNA of the electronic seal. The existing technical scheme well solves the problems of data retention and DNA retention, but does not solve the problem of pattern visualization resolution of the seal. In practical application, pattern visualization is common and has a huge demand. The inventor believes that the electronic signature has been popularized and accepted for more than 20 years since birth, and the key reason is that the electronic signature does not solve the problem of appearance identification, so that a gap which is difficult to span is formed between the electronic signature and the widest common population.

In summary, electronic seal anti-counterfeiting mainly relates to the matters of three layers: firstly, the seal main body means the identity authentication problem of the expression main body, namely the identity authentication problem is solved through the reliable identity authentication of a third-party platform; the authenticity problem of the seal pattern is solved in multiple levels by combining a visual anti-counterfeiting seal pattern with an electronic anti-counterfeiting means of a platform, and anti-counterfeiting authentication requirements of different levels are correspondingly matched; thirdly, the problems of the combination of the electronic seal and the text content, such as the singleness, the correspondence and the illegal forgery and copy prevention can be solved in a multi-level way by combining the visual anti-counterfeiting seal pattern with the electronic anti-counterfeiting means of the platform, and the anti-counterfeiting authentication requirements of different levels are correspondingly matched. Only by reasonably combining the factors of the three layers, the true practical anti-counterfeiting electronic seal convenient to manage can be produced.

After the idea of the invention is formed, a receipt stamp is discovered and also contains date information. The time information on the receipt stamp and the anti-counterfeiting electronic stamp time information are completely different in nature, and are specifically represented as follows: firstly, the effects are different: the date information of the receipt stamp is descriptive fixed to a certain occurrence fact, expresses an objective fact and has no anti-counterfeiting directional intention originally. The seal of the present invention is used for fixing the real meaning expression of the main body, the expression is the subjective intention attached to the time factor or the stamping frequency factor or the combination thereof, and the purpose is to prevent counterfeiting. Therefore, the date information of the receipt stamp has no significance to the solution of the present invention. Secondly, the forming mechanism of the time information is different: the receipt stamp is formed by manually adjusting a digital dial, the time information of the invention is network time automatically generated by software, and further, the time information can adopt authoritative standard time issued by a national legal time service institution and can be matched with a trusted timestamp for use. Thirdly, the nature of the used objects is different: the receipt stamp is a representative stamp, and the description of the event is specific and definite and basically has no variability. Official seal, contract seal, etc. are ideographic seals, whose expression of the true meaning of the main body is abstract and indefinite, and at the idea level. The receipt stamp containing date information is different in use purpose, and the receipt stamp containing date information does not aim at anti-counterfeiting, but the electronic stamp aims at solving the anti-counterfeiting problem, thereby solving the practical problem that the electronic stamp has no anti-counterfeiting characteristic and no practicability. And fifthly, the use effects are different, and because the use object of the receipt stamp is relatively determined and does not have subjective variability, the receipt stamp is difficult to judge the authenticity of the receipt stamp through the combination correspondence of the receipt stamp and the stamp text. On the contrary, the use object of the ideographic seal is mainly expressed by subjective meaning, and the use object has subjective variability, so that the authenticity of the seal can be preliminarily judged to a great extent through the correspondence between the seal and the content of the seal text. Sixth, the electronic seal of the invention is implemented based on the authentication of the third party, it is the most reliable anti-counterfeiting management mode to give the electronic seal, the receipt stamp is used as the typical local application, it is not necessary or almost impossible to adopt the authentication mode of the third party. The electronic seal is mainly used for ideographic seals, and the ideographic seal does not need to adopt the scheme of the invention at all. The ideographic seal is a mark seal used for expressing the subjective meaning of a seal main body, and comprises a public seal, a contract special seal, a legal seal, an authentication special seal and the like; the indicative stamp is a stamp for describing the occurrence of an objective fact, such as a cash receipt stamp, a goods receipt stamp, and the like.

Disclosure of Invention

Aiming at the difficult problems of use and anti-counterfeiting of the electronic seal in the network economic era, the invention aims to provide a reliable and convenient implementation method of the electronic seal based on third-party authentication. The seal main body of the invention claims and specification includes natural person and legal person, the electronic seal includes various official seal, special contract seal, legal person seal, private seal, special authentication seal, special detection seal, and also includes the private seal used by natural person, i.e. name seal.

The invention relates to an electronic seal implementation method based on third party authentication, wherein a third party authentication mechanism is provided with an electronic seal software platform and is configured with an identity authentication or electronic signature technical means, when a user needs to use an electronic seal, the user logs in the electronic seal software platform and obtains the authorization of using the seal through the identity authentication or electronic signature, and the method is characterized in that: a user opens, imports, inputs or uploads an electronic text to be stamped through an electronic stamp software platform, and stamps a stamping pattern generated by operating the electronic stamp software platform on the electronic text; the stamping pattern of the electronic stamp comprises a fixed information unit and a dynamic information unit; the fixed information unit comprises one or a combination of several of the following information: a seal body name, a seal logo, a seal body code or a seal type name; the dynamic information unit is generated by the following method: in the process of the electronic seal stamping operation, the electronic seal software platform automatically acquires time information during the stamping operation or stamping frequency information of the electronic seal, and solidifies and presents the acquired time information or stamping frequency information in a visual form in the generated stamping pattern to form part of or all of the content of the dynamic information unit. The seal type name of the invention refers to seals with various special functions, including contract special seal, financial special seal, bidding special seal, authentication special seal, detection special seal, etc. The dynamic word of the dynamic information unit refers to that new time information or stamping frequency information can be automatically generated every time of stamping; however, after each stamping, the time information or the stamping frequency information is once solidified, and the dynamic information of the secondary stamping pattern is not changed.

The preferred scheme is as follows: the electronic seal software platform simultaneously acquires time information during the sealing operation and sealing frequency information of the electronic seal, and simultaneously solidifies and presents the acquired time information and the sealing frequency information in a visual form in the generated seal pattern to form part of or all of the content of the seal pattern dynamic information unit. The time information and the stamping times information can be independent of each other or can be associated with each other. The scheme for associating the time information and the stamping time information together is as follows: the electronic seal software platform acquires time information during the sealing operation and acquires sealing operation frequency information of the current day of operation, and the time information and the sealing operation frequency information are combined together to form a part of content or all content of the dynamic information unit.

The time information adopts the time published by a trusted third party or the time automatically generated by a machine. Specifically, the internet time or the standard time released by the national legal time service organization can be adopted. The time information in the dynamic information unit is preferably accurate to minutes. The electronic seal is generally used in conjunction with a trusted timestamp. And the stamping frequency information is automatically accumulated and determined by the electronic stamp software platform according to the actual use frequency of the electronic stamp. The first seal use frequency code of the seal frequency information can be set by the seal main body independently for the purpose of protecting the commercial secret of the seal main body unit. Because the seal body cannot freely change the set seal use frequency code based on the credibility of management, the seal body is generally required to be unchangeable after setting.

When the combined information of the stamping time information and the stamping frequency information is presented on the stamping pattern, the anti-copying function is extremely strong, the visual identification is very convenient, and the reliability is high. The combination of the stamping time information and the stamping frequency information is presented, so that the illegal copying of the stamp becomes more difficult, and the stamp is easy to break when being combined with the stamping text. The time information of the electronic seal when stamping is accurate to minutes is a good choice based on the length of the field and the actual use effect.

Furthermore, the stamping pattern of the electronic stamp contains an anti-counterfeiting watermark or an anti-counterfeiting pattern. The content of the anti-counterfeiting watermark comprises one or the combination of the following information: the electronic seal authentication mechanism or the related information thereof, the title or the abstract of the text content and the information of the seal applicant. And furthermore, the text page stamped by the electronic stamp contains an anti-counterfeiting watermark or anti-counterfeiting pattern generated by the electronic stamp software platform. The content of the anti-counterfeiting watermark comprises one or the combination of the following information: the electronic seal verification method comprises the following steps of electronic seal certification authority or software platform name, text content title, seal information, seal time information, electronic seal sealing frequency coding information, seal terminal machine code information, text content abstract, seal electronic text file storage format information, seal electronic signature mode information and seal electronic text verification mode description. The anti-counterfeiting watermark is arranged in the stamping text, so that more anti-counterfeiting information can be expressed, and the anti-counterfeiting reliability of the electronic seal in the using process is improved.

In order to be well documented when disputes occur, the electronic seal software platform reserves the electronic seal sample after each stamping or reserves the electronic text after each stamping. Under the condition that visual anti-counterfeiting measures are disputed or invalid, the comparison of the stored samples is a very reliable anti-counterfeiting authentication means.

In order to ensure that the anti-counterfeiting function is more reliable, the electronic file format of the stamping text of the electronic stamp is the electronic file format special for the electronic stamp software platform, and the electronic stamp software platform or the appointed software thereof can be used for opening. The proprietary electronic file formats described herein, generally appear as: the suffix name of the electronic file formed during the electronic text storage is different from the conventional universal file suffix name, but is named by an electronic seal software platform, and the conventional universal read-write software cannot open the file in the format. The electronic file in the special format is a read-only file and cannot be edited or modified. When the source format file is used in circulation, people can easily judge the authenticity of the source format file from the suffix name in the first time. More importantly, the non-editable special format text makes it difficult for illegal replicators to make a fake through the PS software or the tracing software. The electronic text that remains can be encrypted for privacy.

The stamping text page using the electronic stamp can also contain a stamping file code generated by an electronic stamp software platform. Such coding facilitates the overall management of the stamped files. Is favorable for improving the anti-counterfeiting function of the electronic seal in use from the side surface. The seal text page stamped by the electronic seal can also be provided with a seal use condition information code. The seal use condition information code can be a two-dimensional code or a bar code. The seal use condition information code can not be used independently, and can play a role in assisting anti-counterfeiting only by being used together with various measures.

In the scheme of the invention, each actually generated stamp pattern has unique intrinsic characteristics and external characteristics. The overall appearance is supported by the pulse, and is never endless. As previously mentioned, a stamp represents a mechanism or a person. The seal pattern master die of the seal pattern comprises the basic appearance of the seal, namely the name and sex of a seal main body, and the seal type; the dynamic information unit of the seal pattern expresses the age of the seal, the seal date and experience and the seal frequency; the seal pattern sample or the seal text retained by the software or the platform is equivalent to the identity information data retained in the public security bureau; whereas an electronic signature corresponds to DNA. The anti-counterfeiting authentication in the actual use process is also advanced layer by layer according to importance or reliability.

The electronic seal is mainly used for ideographic seals, and the scheme of the invention has no great substantive significance, but the invention does not exclude the ideographic seal from being used by the same method. The ideographic seal is a mark seal used for subjective meaning expression of a seal main body, and comprises a public seal, a contract special seal, a legal seal, a private seal, an authentication special seal, a detection special seal and the like; the indicative stamp is a stamp for describing the occurrence of an objective fact, such as a cash receipt stamp, a goods receipt stamp, and the like.

The electronic seal implementing method of the invention has the advantages of convenient operation, reliable use, strong anti-counterfeiting performance and strong application prospect, and can further promote the healthy and stable development of network economy.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of an electronic official seal stamping pattern according to the present invention.

FIG. 2 is a schematic view of a seal pattern of an electronic legal seal according to the present invention.

Detailed Description

Example 1

The invention relates to an electronic seal implementation method based on third-party authentication.A third-party electronic authentication mechanism is provided with an electronic seal software platform and is provided with an identity authentication or electronic signature technical means, and the third-party electronic authentication mechanism bears the generation and authentication functions of an electronic seal. The third party electronic seal authentication mechanism and the seal main body unit establish the electronic seal identity authentication relationship approved by both parties and establish a seal main body unit identity information and electronic seal authentication information database. The seal body unit is bound with a mobile communication number used for sending or receiving electronic seal authentication information, and the bound mobile communication number is registered in a seal body unit identity information and electronic seal authentication information database established by a third-party electronic seal authentication mechanism in advance.

When a seal main body unit needs to use a seal, the seal main body unit logs in an electronic seal authentication software platform, uploads a text to be stamped and puts forward an electronic seal use or authentication request.

After receiving the electronic seal use or authentication request provided by the seal body unit, the third-party electronic seal authentication mechanism sends authentication confirmation information to the mobile communication number registered in advance by the seal body unit. The authentication confirmation information can be a dynamic code randomly generated by the software platform and is sent in a short message mode.

And after receiving the authentication confirmation information, the seal body unit replies the authentication information according to the authentication confirmation requirement. If the authentication confirmation message is a short message dynamic code, the dynamic code is only required to be filled in a reply.

And after receiving the authentication information replied by the seal main body unit and confirming that the authentication information is correct, the third-party electronic seal authentication mechanism calls the electronic seal template of the seal main body, generates an electronic seal pattern and sends an electronic seal stamping instruction. The seal body unit seals by using the electronic seal and generates a seal text which is not editable.

As shown in FIG. 1, the stamping pattern of the electronic stamp includes a fixed information unit and a dynamic information unit. The fixed information unit includes a stamp body name 1 and a stamp logo 2. The dynamic information unit is generated by the following method: in the process of the electronic seal stamping operation, the electronic seal software platform automatically acquires time information 3 and stamping frequency information 4 of the electronic seal during the stamping operation, and solidifies and presents the acquired time information 3 and stamping frequency information 4 in a visual form in the generated stamping pattern to form a part of or all of the content of the dynamic information unit. The time information 3 adopts internet time and is accurate to minutes. The stamping frequency information 4 is automatically accumulated and determined by an electronic stamp software platform according to the actual use frequency of the electronic stamp, and the first stamping frequency code is automatically set by a stamp main body. The stamping pattern of the electronic stamp contains anti-counterfeiting watermark or anti-counterfeiting pattern. The content of the anti-counterfeiting watermark is as follows: the name of the certification authority of the electronic seal and the title of the text content.

In order to be well documented when disputes occur, the electronic seal software platform reserves the electronic seal sample after each stamping or reserves the electronic text after each stamping. Under the condition that visual anti-counterfeiting measures are disputed or invalid, the comparison of the stored samples is a very reliable anti-counterfeiting authentication means.

Example 2

The invention relates to an electronic seal implementation method based on third-party authentication.A third-party electronic authentication mechanism is provided with an electronic seal software platform and is provided with an identity authentication or electronic signature technical means, and the third-party electronic authentication mechanism bears the generation and authentication functions of an electronic seal. The third party electronic seal authentication mechanism and the seal main body unit establish the electronic seal identity authentication relationship approved by both parties and establish a seal main body unit identity information and electronic seal authentication information database. The third party electronic seal certification authority issues a USB Key for a seal body unit to carry out electronic signature.

When a seal main body unit needs to use a seal, the seal main body unit logs in an electronic seal authentication software platform, uploads a text to be stamped and puts forward an electronic seal use or authentication request.

After receiving the electronic seal use or authentication request provided by the seal main body unit, a third-party electronic seal authentication mechanism requires the seal main body unit to insert a USB Key to carry out electronic signature. The electronic signature is correct, and a third-party electronic seal certification authority takes the electronic seal template of the seal main body, generates an electronic seal pattern and sends an electronic seal stamping instruction. The seal body unit seals by using the electronic seal and generates a seal text which is not editable.

As shown in FIG. 1, the stamping pattern of the electronic stamp includes a fixed information unit and a dynamic information unit. The fixed information unit includes a stamp body name 1 and a stamp logo 2. The dynamic information unit is generated by the following method: in the process of the electronic seal stamping operation, the electronic seal software platform automatically acquires time information 3 and stamping frequency information 4 of the electronic seal during the stamping operation, and solidifies and presents the acquired time information 3 and stamping frequency information 4 in a visual form in the generated stamping pattern to form a part of or all of the content of the dynamic information unit. The time information 3 adopts internet time and is accurate to minutes. The stamping frequency information 4 is automatically accumulated and determined by an electronic stamp software platform according to the actual use frequency of the electronic stamp, and the first stamping frequency code is automatically set by a stamp main body. The stamping pattern of the electronic stamp contains anti-counterfeiting watermark or anti-counterfeiting pattern. The content of the anti-counterfeiting watermark is as follows: the name of the certification authority of the electronic seal and the title of the text content.

In order to be well documented when disputes occur, the electronic seal software platform reserves the electronic seal sample after each stamping or reserves the electronic text after each stamping. Under the condition that visual anti-counterfeiting measures are disputed or invalid, the comparison of the stored samples is a very reliable anti-counterfeiting authentication means.

In order to ensure that the anti-counterfeiting function is more reliable, the electronic file format of the stamping text of the electronic stamp is the electronic file format special for the electronic stamp software platform, and the electronic stamp software platform or the appointed software thereof can be used for opening. The proprietary electronic file formats described herein, generally appear as: the suffix name of the electronic file formed during the electronic text storage is different from the conventional universal file suffix name, but is named by an electronic seal software platform, and the conventional universal read-write software cannot open the file in the format. The electronic file in the special format is a read-only file and cannot be edited or modified. When the source format file is used in circulation, people can easily judge the authenticity of the source format file from the suffix name in the first time. More importantly, the non-editable special format text makes it difficult for illegal replicators to make a fake through the PS software or the tracing software. The electronic text that remains can be encrypted for privacy.

Example 3

The method is implemented according to the same method as the embodiment 1 or 2, the difference is that the dynamic information unit only has time information 2 or stamping frequency information 3, and the text page stamped by the electronic seal comprises the anti-counterfeiting watermark generated by the electronic seal software platform. The content of the anti-counterfeiting watermark comprises the following information: the electronic seal authentication mechanism comprises an electronic seal authentication mechanism name, a text content title, seal information, seal time information, electronic seal frequency coding information, seal electronic text file storage format information, seal electronic signature mode information and seal electronic text verification mode description. The anti-counterfeiting watermark is arranged in the stamping text, so that more anti-counterfeiting information can be expressed, and the anti-counterfeiting reliability of the electronic seal in the using process is improved.

Example 4

On the basis of the embodiment 1 or 2, the entity official seal is changed into a legal seal or other private seal.

As shown in fig. 2, the stamping pattern of the electronic stamp includes a fixed information unit and a dynamic information unit. The fixed information unit includes a stamp body name 1. The dynamic information unit comprises time information 3 and stamping frequency information 4 when the electronic seal is stamped. The time information 3 adopts standard time issued by national legal time service institutions and is accurate to minutes. The stamping frequency information 4 is automatically accumulated and determined by an electronic stamp software platform according to the actual use frequency of the electronic stamp, and the first stamping frequency code is automatically set by a stamp main body.

Example 5

The same method as in embodiment 1 or 2 is used, except that the dynamic information unit incorporates the time information 2 and the stamp count information 3 into the same set of codes.

Example 6

Establishing a third-party electronic seal authentication mechanism independent of a seal main body unit, and assuming the generation and authentication functions of the electronic seal, wherein the third-party electronic seal authentication mechanism establishes an electronic seal authentication software platform. The third party electronic seal authentication mechanism and the seal body unit establish the electronic seal identity authentication relationship approved by both parties and establish an electronic seal authentication information database. The seal body unit is at least bound with a mobile communication number for sending or receiving the electronic seal authentication information, and the bound mobile communication number is registered in an electronic seal authentication information database established by a third-party electronic seal authentication mechanism in advance. The electronic seal authentication software platform is provided with a special electronic file format, and after a text needing to be stamped is uploaded to the platform, the format is converted into the special file format.

When a seal main body unit needs to use a seal, the seal main body unit logs in an electronic seal authentication software platform, uploads an electronic text needing to be stamped, and puts forward an electronic seal use or authentication request.

After receiving the electronic seal use or authentication request provided by the seal body unit, the third-party electronic seal authentication mechanism converts the electronic text format to be stamped into a platform-specific file format and sends authentication confirmation information to the mobile communication number registered in advance by the seal body unit. The authentication confirmation information can be a dynamic code randomly generated by the software platform and is sent in a short message mode.

And after receiving the authentication confirmation information, the seal body unit replies the authentication information according to the authentication confirmation requirement. If the authentication confirmation message is a short message dynamic code, the dynamic code is only required to be filled in a reply.

And after receiving the authentication information replied by the seal body unit and confirming that the authentication information is correct, the third-party electronic seal authentication mechanism generates an electronic seal pattern and sends an electronic seal stamping instruction. The seal pattern contains anti-counterfeiting patterns and contains seal time and seal frequency codes.

And the seal main body unit uses the electronic seal to seal, generates a seal text which is not editable, and stores and downloads the seal text.

And the electronic seal authentication software platform saves the stamped electronic text, seal use records and other related information for future reference. The electronic text that remains can be encrypted for privacy. The seal body unit can also selectively store the seal text only locally.

When the relevant unit of the stamping text needs anti-counterfeiting authentication, the stamping text scanning piece is sent to the electronic stamp authentication software platform, and the platform compares the scanning piece with the reserved text to judge the authenticity.

Claims (10)

1. A third party certification authority is provided with an electronic seal software platform and is configured with an identity certification or electronic signature technical means, when a user needs to use an electronic seal, the user logs in the electronic seal software platform and obtains the authorization of using the seal through the identity certification or electronic signature, and the method is characterized in that: a user opens, imports, inputs or uploads an electronic text to be stamped through an electronic stamp software platform, and stamps a stamping pattern generated by operating the electronic stamp software platform on the electronic text; the stamping pattern of the electronic stamp comprises a fixed information unit and a dynamic information unit; the fixed information unit comprises one or a combination of several of the following information: a seal main body name (1), a seal logo (2), a seal main body code or a seal type name; the dynamic information unit is generated by the following method: in the process of the electronic seal stamping operation, the electronic seal software platform automatically acquires time information (3) during the stamping operation or stamping frequency information (4) of the electronic seal, and solidifies and presents the acquired time information (3) or stamping frequency information (4) in a visual form in the generated stamping pattern to form part of or all of the content of the dynamic information unit.

2. The electronic seal implementing method based on third party certification according to claim 1, characterized in that: and the electronic seal software platform simultaneously acquires the time information (3) during the sealing operation and the sealing frequency information (4) of the electronic seal, and simultaneously solidifies and presents the acquired time information (3) and the sealing frequency information (4) in a visual form in the generated seal pattern to form part of or all of the content of the seal pattern dynamic information unit.

3. A method for implementing an electronic seal based on third party authentication according to claim 1 or 2, characterized in that: the time information (3) adopts internet time or standard time issued by a national legal time service organization.

4. A method for implementing an electronic seal based on third party certification according to claim 3, characterized in that: the electronic seal is matched with the credible timestamp for use.

5. The electronic seal implementing method based on third party authentication as claimed in claim 1, 2 or 4, wherein: the time information (3) in the dynamic information unit is accurate to minutes.

6. The electronic seal implementing method based on third party authentication as claimed in claim 1, 2 or 4, wherein: and the stamping frequency information (4) is automatically accumulated and determined by an electronic stamp software platform according to the actual use frequency of the electronic stamp.

7. The electronic seal implementing method based on third party authentication as claimed in claim 1, 2 or 4, wherein: the stamping pattern of the electronic stamp contains anti-counterfeiting watermark or anti-counterfeiting pattern.

8. The electronic seal implementing method based on third party certification according to claim 7, wherein: the content of the anti-counterfeiting watermark comprises one or the combination of the following information: the electronic seal authentication mechanism or the related information thereof, the title or the abstract of the text content and the information of the seal applicant.

9. A method for implementing an electronic seal based on third party certification according to claim 1, 2, 4 or 8, wherein: the text page stamped by the electronic stamp contains the anti-counterfeiting watermark or anti-counterfeiting pattern generated by the electronic stamp software platform.

10. A method for implementing an electronic seal based on third party certification according to claim 1, 2, 4 or 8, wherein: the electronic file format of the stamping text of the electronic stamp is an electronic file format special for an electronic stamp software platform and can be opened only by the electronic stamp software platform or the appointed software thereof.

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