WO2018170573A2 - Global information system - Google Patents

Abstract

The claimed utility model relates to the field of information systems, information retrieval systems and communications systems and can be used to create an information network referred to by the inventors as the "Cybernet", which enables the collection, storage, processing and transfer, on the basis of an authorized request, of full information, converted into an electronic format, about individual objects and persons. A global information system (GIS) is proposed, comprising a plurality of information spheres formed according to certain themes and containing information about objects which is in the form at least of a digital certificate of the object. The GIS also contains a system-level electronic TOP manager capable of determining the access path to specific information in a specific information sphere according to a corresponding marker, a plurality of servers, including a central DNS server capable of classifying all information according to specific markers and encrypting any information transferred, distributed DNS servers and user servers, and a plurality of user access points, each of which is provided with electronic equipment, including a personal electronic device of the user, said equipment being capable of forming a personal electronic space of the user and being provided with a unique digital signature assigned by the DNS server and based on a personal encryption code. In the inner sphere of the GIS, each physical object has a corresponding virtual object with a digital certificate, and each physical person has a corresponding virtual person with a digital passport, and physical space is represented in the form of a 3D model in which each virtual object and each virtual person is positioned in real time according to satellite communications system data, forming a virtual cyberspace.

Description

 Global information system

The inventive utility model relates to the field of information and information retrieval systems and communication systems and can be used to create a global information network, called by the author of "Cybernet" which provides for the collection, storage, processing and transmission, by an authorized request, of complete information on individual information converted into electronic format objects and subjects.

The need for communication determines the need and desire to organize convenient means for this, including information systems, allowing to realize state, public and personal needs in this area. Modern information technologies in the field of information exchange (network technologies) allow not only improving existing ones, but also creating new information systems. At the same time, in the modern movement towards the information society, towards the formation of a global information infrastructure and the global information space, constant improvement of the organization, storage, secure access and use of the global information environment is of great importance. Within the existing global information environment, there are various separate independent or compatible with other information systems and within these systems information networks, which are complexes of software and hardware for transmitting and processing data via communication channels. Depending on the distance between subscriber systems, information networks are divided into global, territorial and local. Distinguish between universal and specialized information networks. Moreover, from the point of view of the formation of a global information infrastructure, universal global information systems and information networks are of particular interest. The founder of all computer (information) networks is the computer network ARPANET, created by the US Department of Defense Advanced Research Agency in 1969 to process, store and transmit information. The goal of the ARPANET project was to conduct experiments in the field of computer communications, unify the scientific potential of research institutions, study ways to maintain stable communications in a nuclear attack, and develop a concept for distributed control of military and civilian structures during the war [1]. The main computer network applications of that time allowed users to maintain business, social contacts and exchange information, as well as use remote computing resources; developed applications made it possible to catalog and find information on the network. The service for exchanging documents and messages between users of the e-mail network turned out to be so in demand that it was one of the key applications that stimulated the development of the Internet. However, at this stage, the creation of computer networks was mainly funded by the state, and their use was available only to scientific and educational institutions [2].

To date, the Internet has become ubiquitous - the global information computer network that connects both users of local and territorial computer networks and users of individual computers to exchange information. The task of creating a worldwide network was not to provide a specific set of information services, but to ensure global connectivity. The choice of specific applications is the task of the users themselves, the network only provides a data transfer service between nodes. This network service presents one of the fundamental architectural principles of the World Wide Web - the principle of transparency or the “end-to-end principle)). Its essence lies in an approach in which most of the functionality is implemented in finite devices — computers connected to the network — not the network itself. The network provides only universal routing and packet data services. Thus, the network does not give any guarantees regarding the transmission quality parameters, and does not even guarantee that the data will reach the addressee or information will be kept confidential [3].

 Along with the constantly developing Internet information network, there were other computer networks. For example, FidoNet (FiDonet) is an international amateur network built on the technology "from point to point", popular in the 90s of the last century and currently still has several thousand connection nodes. Each of the users of this network spends time and uses its capabilities to make it work for the benefit of all its users. The network provides users with a convenient and effective means for mutually beneficial exchange of information, and in it, unlike the Internet, there is no advertising, spam and repeatedly duplicated useless information. A feature of FidoNet, which at one time determined the wide distribution of this network, was the actual free connection and use of network resources. The participants needed only a communication channel in the form of a telephone line (the fee for a landline telephone was usually fixed). However, the FidoNet network has drawbacks: it is difficult to connect to the network, it is rather difficult to master a software package, a small delay in letters from distant regions, and the network is unreliable [4].

The Freenet peer-to-peer network is also known, designed for decentralized distributed storage of data without the possibility of censorship, created to provide users with electronic freedom of speech by ensuring their strict anonymity. Freenet can be seen as a huge, potentially unreliable storage device. When saving a file on this network, the user is provided with a key with which you can get information back [5]. The disadvantages of the system include a very limited selection of video and audio resources, low data exchange rate, the involvement of unreliable users in the environment due to the anonymity, and the lack of real-time services.

 Also known is the Usenet computer network (abbreviated from English. User network), used for communication and publication of files. Usenet consists of newsgroups to which users can send messages. Messages are stored on servers that exchange them with each other. Usenet had a great influence on the development of modern web culture, giving rise to such widely known concepts as “nickname”, “smile”, “signature”, “moderator”, “trolling”, “flood”, “flame”, “ban” , "FAQ" and "spam." Usenet is currently part of the Internet, and not a separate network from it [6].

 The information systems listed above are universal global systems. Moreover, along with universal, there are specialized global systems

So, in Earth sciences, information technology has spawned geoinformatics and geographic information systems (GIS). Moreover, the word "geographical" in this case means not only "spatiality" and "territoriality", but also the complexity of the geographical approach. GIS is a hardware-software and at the same time human-machine complex that provides for the collection, processing, display and dissemination of data. Geographic information systems differ from other information systems in that all their data is necessarily spatially coordinated, that is, tied to a territory, to a geographical space. GIS helps to analyze and model any geographical situations, make forecasts and manage processes in the environment. GIS are used to study all those natural, public and natural-public objects and phenomena that study Earth sciences and related with them social and economic sciences, as well as cartography and remote sensing. At the same time, GIS is a complex of hardware devices and software products (GIS shells), and the most important element of this complex is automatic mapping systems. GIS structure is usually represented as a system of information layers. One of the most important properties of GIS is precisely that based on the available information, they are able to create new derived information. GIS technologies have developed a new direction - operational mapping, that is, the creation and use of maps in real or near real time. There was an opportunity to quickly, accurately and timely inform users and influence the course of processes [7].

 Specialized information systems, mainly so far only local and territorial, are becoming more widespread in the field of healthcare. So, an interactive network based on the health information system is known, which provides the most up-to-date medical information, which is intended, including for the user experience, directly to the user. The user can ask specific consecutive questions, initiate a discussion with a professional, and also establish the relationship between the doctor and the patient. The system provides the ability to remotely monitor and diagnose the patient and remote treatment. On an individual basis, various levels of service can be provided [8].

In the general case, an information system (IP) can be defined, inter alia, as a system that implements an information model of a subject area, most often of any area of human activity or area of knowledge. At the same time, information systems that position themselves as global are striving to provide their users with access to information resources belonging to various fields of knowledge. However, within the global information systems, the entire amount of information related to various areas of human activity or areas of knowledge is practically not systematized and not structured, and in connection with this, the process of searching for certain information is quite complicated, time-consuming and time-consuming, while the completeness and reliability of the search results can satisfy the user.

 An analysis of the prior art showed that, despite the prominence of a number of both specialized and global information systems, built on various principles of storing, searching and providing / sending information, by the totality of common essential features, none of them can be accepted as a prototype for the claimed global information system.

 The analysis of the prior art also showed that the existing universal information systems still have not developed common universal mechanisms for documenting and protecting information, and information chaos is due to the insufficient implementation of common standards and technologies in the formation, storage and processing of information resources. The required quality of information is also not achieved due to the presence of parainformation in information resources and outright misinformation; insufficient interpretative level of navigation technology; insufficient relevance and pertinance (correspondence of the received information to the user's information needs) when generating responses to user requests.

Thus, the objective of the utility model is to develop a global information system that would provide the user with simple, convenient, secure access to the entire amount of information related to the user's area of interest or field of knowledge. The global information system should ensure the storage of all information in a systematic and structured form, protected, at the same time, from unauthorized access. The global information system should also ensure the formation and authorized transfer of virtual images of subjects and objects of the real world, including with a complete informational description of the subject and / or object with the construction in real time of the most accurate ST model of physical space - virtual cyber space.

The problem is solved by the claimed global information system, including interconnected communication networks with the formation of the internal environment of the information system, a multitude of information areas, each of which is formed in accordance with a specific topic and contains at least information about each object related to this topic , in the form of at least an electronic certificate of the object. The global information system also contains a system electronic TOP manager, many servers, including a central DNS server, distributed DNS servers and user servers, and many user access points, each of which is equipped with electronic equipment, including a user's personal electronic device, configured to the formation of the user's personal electronic space, and equipped with the assigned DNS server a unique electronic signature based on an individual cryptocode , to ensure information security and protect internal information resources. Moreover, each DNS server is configured to cryptograph the transmitted information with the formation of electronic signatures of data packets using a cryptocode available to the DNS server and browser of the personal electronic device of the corresponding user. The central DNS server is configured to classify all information according to certain labels available to the central DNS server and the TOP manager, where each label contains at least a pointer to a specific information area. TOR manager is configured to determine access route to certain information in a certain information area by the corresponding label. Each information sphere in the internal environment of the information system has a structure of the information shell, made with the possibility of docking with an electronic TOP-manager, and including the entire amount of information available in the world on this topic. The internal environment of the information system is configured to connect to the shared Internet through at least one gateway formed on the basis of the corresponding DNS server, including the central DNS server. At the same time, in the internal environment of the information system, each physical object corresponds to a virtual object equipped with an electronic certificate, each physical subject corresponds to a virtual subject equipped with an electronic passport, and the physical space is presented in the form of a 3D model with the binding of each virtual object and each virtual subject in real time time according to the satellite communication system with the formation of virtual cyber space.

The claimed global information system provides for the possibility of forming both a set of information areas of the general internal environment of the information system and through the user's personal electronic device of each user's personal electronic space. Moreover, all information about each object is presented in the form of an electronic model of the object with an electronic certificate of the object, and all information about each subject is presented in the form of an electronic model of the subject with an electronic passport. This provides not only the possibility of authorized obtaining the most complete information about the object and / or subjects in the form of their ZO-models, but also the possibility of embedding them in real time in the general ST-model of physical space formed by the system - virtual kiber-space. Moreover, a high-precision and real-time updated ZE model of physical space can find a wide application in various fields of human activity, for example, in navigation and driving unmanned vehicles, including cars.

Also a very important aspect of the claimed global information system is the provision of reliable protection of information, especially the personal information of the subjects (users) of the system, and the organization of access to information in accordance with the authority of the user requesting this information. This is significant, including in connection with the widespread use in the claimed global information network of an electronic model of a subject (user) with an electronic passport. It should be borne in mind that at present, in the real world, one of the safeguards of human and citizen security is the creation of conditions under which it is impossible to use his personal data and identification documents to commit crimes. The public safety system of states, international organizations and the international community as a whole implies toughening the requirements both for the protection of identity documents and for the inclusion of the optimal amount of personal data in them, which make it possible to accurately identify a specific individual. So, in various countries electronic passports are being gradually introduced, which are usually a passport equipped with chips on which are stored: data from the data page of a machine-readable passport or machine-readable zone; biometric characteristics of the passport holder: a digital photograph of the passport holder and, at the discretion of the particular state, digitized fingerprints and / or photos of the iris; Data protection element using PKI cryptographic technology (Public Key Infrastructure - Public Key Infrastructure). The indisputable advantage of electronic passports is the possibility of accelerated automatic verification of documents for authenticity and affiliation to its owner, which significantly increases the effectiveness of border and other types of control, and also improves the accuracy of identification of the persons who presented them.

 To provide electronic passports of the type mentioned above, NXP smart chip technologies (high-performance contactless microcircuit for use in electronic passports and electronic identification applications) have been developed, which are widely used in biometric passport systems in many countries of the world and provide a high level of data security and degree of protection of the chip itself [9]. This technology provides enhanced protection against radiation and laser attacks. This chip for the chip is a flexible solution that provides a high degree of security and high speed data processing in such government applications as biometric passports, electronic ID cards, electronic health insurance cards and driver's licenses. Based on the new NXP smart chip technology, a prototype smart car key has been developed. The set of functions of such electronic documents includes: the possibility of contactless payments, personalized access control, as well as additional functions such as an electronic ticket for public transport, which further enhances the owner’s mobility.

In addition, information security in the inventive system is ensured through the use of special cryptocodes at all stages of the formation and transmission of information packets. In the prior art, various architectural solutions to the problem of protecting information requests and ensuring secure interactions are known. This is a known solution based on .NET technology in a heterogeneous multi-network environment, based on the use of proxy server technology. The essence of the solution is the organization of special intermediary servers that act as gateways between the information management systems and the global network and perform the functions verification and generation of electronic signatures in incoming and outgoing SOAP messages [10]. It is also known to use various cryptocodes to protect, for example, banking information. However, the individual cryptocode used in the claimed global information system, generated on the basis of personal data from the electronic passport of the subject (user), further increases the reliability of information protection.

In preferred forms of implementing the claimed global information system, communication networks can be made in the form of satellite networks or radio networks of cellular operators, in contrast to commonly used fiber-optic communication lines for connecting local networks. Using wireless lines eliminates the need for cabling. If the transmitting and receiving antennas are within the line of sight, then radio channels are used, otherwise the information can be exchanged through the satellite channel using special antennas. Traditionally, satellite communications systems have been designed to provide radio communications between different locations on the earth using satellite transponders (CP). The use of CP provides coverage of the direct radio-visibility zone of CP significant areas of the earth's surface. In addition, satellite communications provides a large range of information transmission and is developing on a global scale [1 1]. Various satellite communication systems are known to those skilled in the art, for example, a radio communication system [12] containing low-orbit satellites, for example, a geostationary satellite, portable or mobile communications, and a ground station, contains two information transmission channels. Moreover, one channel is intended for exchange between portable communications equipment and low-orbit satellites and for exchange between low-orbit satellites and a ground station, and the second channel is used to transmit information from a ground station to a geostationary satellite and for transmission information in a downward direction from a geostationary satellite to portable communications. The advantages of this system, as well as satellite communication systems as a whole, include the high throughput of satellite radio channels and the ability to transmit large amounts of information through them, as well as a significant expansion of the territory, including providing communications for hard-to-reach and remote areas. Thus, within the framework of the claimed global information system, both existing satellite communication systems and specially created ones can be used.

In preferred forms of implementing the claimed global information system, the central DNS server is part of the electronic TOP manager, consisting of modules of super powerful processors, and is part of its electronic equipment. The DNS server usually has the functionality of a gateway, and also controls equipment and objects operating in the "cybernet" circuits. TOR-manager is, in fact, a hierarchical system of processors of different functionality, including various filters. One processor processes streaming data according to certain criteria, classifies by attributes and remembers. Another processor, using labels and routes, collects routes into algorithmic schemes with all kinds of configurations according to certain algorithms and remembers. The third processor works with requests, builds an event diagram. The fourth integrates the algorithmic configurations according to the event and marks the new configurations of the algorithmic circuits, accumulates the circuits and uses them later as criteria. The main processor determines the functionality of substructural processors, determines the forms of algorithms, connects them to certain models, classifies information flows, associates certain flows to certain routes. Unlike a conventional processor, which has constant circuits and constant volume, respectively a limited number possible interactions, in the claimed information system, the TOP-manager is an electronic cybernetic transformable mechanism.

 As already mentioned above, the central DNS server, which is multifunctional, is preferably also configured to operate in a gateway mode for connecting resources of the internal environment of the information system to the Internet and monitoring current information, preferably via a satellite communication channel.

The user's personal electronic space may preferably include encoded personal information representing information about the user, including an electronic passport, family and gender, personal accounts, access to housing, to a car, to personal data, to household appliances, including electronic certificates of each of the specified objects. In general, an electronic passport should contain a comprehensive description of the subject, and an electronic certificate should contain a comprehensive description of the object, including information about the current state of the subject / object or its activities. Thus, in one information space, it becomes possible to combine static (conditionally constant) and dynamically changing data about controlled objects or individuals and legal entities (entities). So, static data may include those that are already part of electronic certificates (passports) of real estate and energy passports of organizations, if necessary, supplementing these data with information about the geographical location of the object or subject, contact information, photographs, etc. increase the level of information security, the electronic passport of the subject (user), as well as electronic certificates of objects belonging to or related to this subject, are placed on a personal electronic user device. In this case, the electronic passport and certificate solve the problem of the formation of information support related to the heterogeneity of the information used on the relevance, quality and completeness of the description of subjects or objects of management.

 Within the framework of the claimed global information system, the electronic certificate may preferably include an accurate metric ZO-model of the object on a scale in cyber space with its detailed description indicating at least ownership rights, as well as accurate technical, mechanical, chemical, environmental and other data , and is equipped with an electronic signature generated on the basis of individual biometric data selected from the group including at least heart rate, fingerprints, rainbow pattern Eye ki. An electronic certificate contains information about the properties of the object and is synchronized in the circuits of the information system with various other certificates. An electronic certificate has full legal force and is created in full coordination with the necessary State services.

The electronic passport in the claimed global information system preferably includes at least accurate civil passport data and all accurate biometric data, including a human biometric prototype in the form of an ST model, as well as all individual features, and is equipped with an electronic signature. In this case, the electronic signature also consists of several components. One part is the identification of the object, the second is the membership of the virtual server. The presence of a fully electronic passport (stored in a personal electronic device) is consistent with the basic principles underlying the formation of the identity card of a member of the global information society [13]. The legal basis for creating a passport system for the global information society is the Okinawa Charter for the Global Information Society dated July 22, 2000. Thus, the passport system of the global information society is a strict hierarchical aggregate legal rules governing social relations that arise between the bodies of the global information society and participants in the international information exchange in connection with the issuing of an electronic identity card and registration. The participants in the international information exchange include: the state as a whole; government departments; subjects of the state; local government bodies; Individuals and legal entities. The issuance of electronic identity cards is aimed at solving four main problems: providing participants of international information exchange as an integral element of the global information society with a basic document that gives them the right to exercise important rights, including in the information sphere, creating a system of registration of participants as an integral element of the global the information society, the implementation of measures to combat crime, in particular computer crimes, electronic Eren personality form a grain of truth in relation to the available information resources.

Thus, biometric identification documents and biometric systems have recently been in the focus of attention of government agencies and businesses of various countries. In electronic passports of the new generation, as mentioned above, in addition to the photo of the owner, an electronic chip is additionally placed on which it is possible to record any required additional information, including biometric parameters [14]. For example, in the countries of the Middle East, the population received identification smart cards, and police officers in these countries now carry special readers with them to verify documents. There is no photo of the owner on the cards, and the face image, as well as fingerprints, are recorded in the chip. This is due, in particular, to the fact that the image of a person is prohibited by Islamic standards. In preferred forms of implementing the inventive global information system, the user's personal electronic device is configured to automatically identify the user by at least one biometric parameter in order to improve security efficiency. Biometric parameters can be read automatically when the user picks up a personal electronic device, for example, by applying a finger to the area of the fingerprint scanner. You can also use high-sensitivity touch sensors to determine the heart rate when the device is in your hands. User’s personal electronic devices can be represented in the form of various sizes of smartphones, a wide range of tablets, laptops and netbooks equipped with all the necessary tools for automatic user recognition, or specialized electronic devices with simultaneous functions of mobile communication devices and means of connecting to a global information system. All personal electronic devices in the inventive system are as functional as possible and are supported by satellite connection. In addition, personal electronic devices are equipped with a personal electronic manager, who is named by the author within the framework of the claimed global information system and will be referred to as “ROBOT” in the application text (including in relation to the personal electronic device as a whole).

In addition, in the inventive global information system, preferred are implementation forms in which a personal electronic device is configured to operate through a user's personal virtual server. Specialists in the art are aware of the technology for creating virtual servers, so they will not be considered in detail in this utility model. In general, a virtual server enables users to manage a personal system and install a specific software provision and change service settings at the root level. The main advantages of its use are: affordable cost; reliability of work (possible failures on one service are not displayed on others); simple setup and administration; reduction in energy costs; high safety performance; performance.

 The operating system of a personal electronic device within the framework of the claimed global information system can preferably be made in the form of an operating system for an electronic robot. Robot - these are various configurations of the software operating system of a personal electronic device with an electronic TOP-manager. The electronic personal device has its own permanent processor and controller, which in this concept are the basis of the configuration. The general strategy allows the robot to work both as an individually functional mechanism and as part of a general cyber mechanism. Since access to the electronic device is provided through recognition of individual biometric parameters, only its owner can use the electronic device.

 In the inventive global information system, a personal device can preferably be configured to provide roaming-free communication, as well as automatically connecting to a global investment program.

In preferred forms of implementation, the claimed global information system provides for work with a system of settlement and electronic units - MEGA ("MEGA" - World Wide Electronic Global Assignment), which is a single International electronic settlement unit in the system. The concept of electronic certification underlies the overall strategy and includes an economic development program. The electronic unit of account is secured by property of citizens, assets and gold and foreign exchange reserves of the countries of the world, assets of companies and corporations users of the information system.

 In preferred forms of the claimed global information system for transmitting information in the internal environment of the information system, internal data transfer protocols are provided that are specially developed and installed for the claimed system, which provides reliable information protection of cyberspace from external penetration.

 In the claimed global information system in a virtual cyber space, a cyber social network may preferably be formed.

The above and other advantages of the claimed global information system will be further discussed in more detail with reference to the position of figure 1 of the drawings, which, as an example, and not for limitation, shows a diagram of the claimed global information system in one of the preferred forms of implementation.

The global information system, a diagram of which is shown in FIG. 1 includes many areas of information Ι ι ,. ,. ΐ _ί, interconnected communication networks (depicted in Scheme solid and dashed lines without reference numerals and numbers can be either wired or wireless, and preferably in the form of satellite networks or radio) to form two internal environment information system. Each information sphere l _l5 ... li is formed in accordance with a specific topic, for example, li - the structure of the planet, 1 ₂ - population, 1 ₃ - history, 1 ₄ - states, 1 ₅ - resources, 1 ₆ - medicine, 1 ₇ - education. 1 ₈ - finance, I ₉ - business, 1 ₁₀ - real estate (architecture, construction, furniture), 1 TS - art, lj ₂ - world of technology, 1 ₁₃ - world of technology, 1 ₁₄ - events (news, reports, mass media information), etc. Moreover, each information sphere 1 ι, · · · 1ί contains information about each physical object related to this topic in the form of at least an electronic certificate 3 _1; ... Зк object.

 Each information sphere is 1 b ... 1; in the internal environment 2 of the information system, it has the structure of an information shell made with the possibility of docking with an electronic TOP-manager, and including the entire amount of information available in the world on this topic. Moreover, the concept of “information shell” includes the whole range of hardware and software that provides the ability to collect, store, sort, process, search, play, transfer, etc. thematic information.

The global information system also contains a system electronic TOP-manager 4, many servers, including a central DNS server 5, distributed DNS servers 6 and servers 7 _l ..7 _h users, and many points 8 _l ..8 _h user access, each of which is equipped with electronic equipment, including a personal electronic device 9 _l5 ... 9 _h user. Electronic equipment, primarily a personal electronic device 9, ...% of the user, is configured to form the user's personal electronic space and is equipped with a unique electronic signature assigned by the DNS server 6 based on an individual cryptocode. To simplify the scheme, the servers 7i, ... 7h of users, many access points 8 ... 8 _{h of} users and many personal electronic devices 9 _l ..9 _{h of the} user are shown for only one DNS server 6. For the rest of the DNS servers 6, all communications will be similar.

 The central DNS server 5 is part of the electronic TOR manager 4, and the electronic TOR manager 4 itself consists of modules of super powerful processors 10.

The central DNS server 5 is provided with a means of forming a gateway 1 1 for connecting resources of the internal environment 2 of the information system with the Internet 12, preferably via a satellite communication channel. In general, the internal environment 2 the information system has the ability to connect to the shared Internet 12 through the corresponding gateways 1 1, which are formed on the basis of not only the central DNS server 5, but also the corresponding distributed DNS servers 6.

 The central DNS server 5 is also equipped with a means 13 for classifying all information according to certain labels available to the central DNS server 5 and the TOP-manager 4, where each label contains at least a pointer to a certain information sphere.

 Each DNS server 5, 6 is also equipped with a cryptographic means 14 for transmitting information with the formation of an electronic signature of data packets using a cryptocode available to the DNS server 5, 6 and the browser of a personal electronic device 9ι, ...% of the corresponding user.

 The TOP-manager is equipped with a means 15 of forming a route of access to certain information in a certain information area l i, ... lj by the corresponding label.

In the internal environment 2 of the information system, each physical object corresponds to a virtual object equipped with an electronic certificate 3 _l5 ... 3k, to each physical subject - a virtual subject equipped with an electronic passport 16 _1; ... 16 _h . Physical space is presented in the form of a ZO-model (virtual cyber space) 17 with the binding of each virtual object and each virtual subject in real time according to the satellite communication system.

Personal electronic space 18i, ... 18 _{h of the} user includes encoded personal information, which is at least information about the user, including electronic passport 16, about family and gender, about personal accounts, about access to housing, to a car, to personal data, to household appliances, including electronic certificates of each of these objects. In this case, the electronic passport 16 _{l 5} ... 16 _h includes, for example, the exact data of the civil passport and all accurate biometric data, including the human biometric prototype in the form of the ZO-model 19 _{l 5} ... 19 _{h of the} user, as well as all individual features , and is electronically signed 20 ₁ , .., 20 _1ι .

The electronic certificate 21 _l ..21h of objects owned by the user includes an accurate metric 3D model of 22 ... 22 _{h of the} object in scale in cyber space with its detailed description indicating at least ownership rights, as well as precise technical, mechanical , chemical, environmental and other data, and is equipped with an electronic signature 20 ... 20b generated on the basis of individual biometric data selected from the group including at least the heart rate, fingerprints, iris pattern, authorized the owner of a physical object. Moreover, any tangible objects, including real estate, vehicles, etc., are considered as an object within the framework of the claimed system.

 Personal electronic device 9ι, ...% of the user is equipped with

23 _l ..23h automatic identification of the user by at least one biometric parameter included in his electronic passport 16 _l ..16h of the user and is configured to work through the user's personal virtual server. The operating system of a personal electronic device 9i, ... 9h is designed as an operating system for an electronic robot, and the personal device 9i, ... 9h of a user is configured to provide roaming-free communication and can automatically connect to a global investment program.

To transmit information in the internal environment 2 of the information system, internal data transfer protocols are provided, indicated on the diagram by bidirectional volume arrows. In the virtual cyber space 17, a cyber-social network 24 is formed. The claimed global information system provides for the use of a system of settlement and electronic units - “MEGA” (MEG A). Declared global information system with architecture in accordance with

FIG. 1 operates as follows.

 In general, the functioning of the claimed global information system is based on the maximum information protection of the internal space (internal environment 2) of cybernet and the most efficient use of the electronic format.

At the initial stages of creating a global information system (hereinafter referred to as “cybernet”), the internal environment of the information system is created, for which sets of information spheres l _l5 ... li are formed, where information about each physical object related to this topic is stored , including in the form of an electronic certificate З ₁₅ ... 3к of the object, electronic passports 16i, ... 16 _{h of} subjects (users) and electronic certificates of 21 ₁ , ... 21 physical objects (including real estate objects) are created transport medium PTS, etc.) belonging to the system users. At this stage, it is important to “digitize” as much information as possible, including about objects and subjects, although in the future the system can be constantly updated with information at any time and in any of its constituent parts. At the same time, the storage form, classification / systematization of thematic information provides the possibility of forming on its basis in real time a 3D model of physical space. The created global information system also provides for communication networks, which should provide information exchange between all elements of the system.

 In the architecture of the cybernet information system being created, a key place is occupied by the system electronic TOP-manager 4, implemented on the basis of modules of super-powerful processors 10 and including a central DNS server 5, which provides information processing and transmission tools: information classification tool 13, cryptographic means 14, means 15 for forming a route to access information, etc. In addition, a gateway 11 is provided as part of the central DNS server 5 for connecting the internal environment 2 of the cybernet to a common Internet network, preferably via a satellite communication channel.

The means 13 for classifying information of the central DNS server 5 classifies all the information according to certain labels available to the central DNS server 5 and the TOP manager 4, and each label contains at least a pointer to a specific information area 1 _l ..1 j, and IP address of the posting information.

When transmitting information, cryptographic means 14 generates an electronic signature of data packets using a cryptocode available to the DNS server 5 and the browser of the personal electronic device 9 _\ , ...% of the corresponding user. In addition, the DNS server 5 marks with an electronic signature (based on individual cryptography), which is known only to the DNS server 5, each device from the electronic equipment of cybernet. Each electronic signature of a cybernet equipment or object means its functionality, that is, the possibility (authority) of access to cybernet resources. This provides reliable protection against unauthorized access to cybernet resources.

The means 15 of forming the route of access to information determines the location of information by the assigned means 13 of information classification certain labels and determines the route. All previously made routes are saved, and information about them is available to the TOP-manager 4 and can be used in processing and preparing a response when a request is received for similar information.

Each cybernet user can connect to it through the corresponding server 1 _\ , .. Л user (including virtual) with access point 8 ... 8b, which is equipped with electronic equipment, including personal electronic device 9 _l5 ... 9h of the user, equipped with a unique electronic signature 20 ₁ assigned by the DNS server 5 _; ... 20b based on an individual cryptocode. In this case, a personal electronic space 18i, ... 18h of the user is formed. Personal electronic space 18 _{l 5} ... 18h also includes 20i, ... 20 _h electronic passports equipped with unique electronic signatures 16i, ... 16 _{h of the} user with a biometric prototype 19 _l ..19h, as well as electronic certificates 21 _l . .21h user-owned physical objects with their metric DA models 22i, ... 22h. All biometric prototypes 19 _l .. 19h users and all metric 3D models 22 _l ..22h user-owned physical objects are “embedded” in real time into the 3D model of physical space formed in the internal environment of cybernet.

All information stored in the internal environment 2 of the information system is distributed among the information spheres l _l .. li, formed by thematic affiliation and having an information shell structure that can be docked with the electronic TOP-manager 4 and includes the entire amount of Information available in the world on this subject.

If it is necessary to obtain certain information, the user, through his personal electronic device 9i, ... 9 _h, forms a request for the appropriate content. User permissions are checked by means of automatic user identification means 23 i, ... 23h, at least one of his biometric parameters, which are available in his electronic passport 16 _l5 ... 16 _h, during confirmation of authority, a request with an electronic signature attached to it 20 ... 20b through a current of 8 _1; ... 8 user access and server 7 _l5 ... 7h of the user is directed to the corresponding distributed DNS server 6 and then to the central DNS server 5 as part of the TOP-manager 4. TOP-manager 4 by electronic signature 20 ... 20 _h , which accompanies the user's request, checks his authority to access the requested information and, if confirmed, processes the request. As already mentioned above, all information inside the cybernet is classified by the central DNS server 5 with certain labels. TOR-manager 4 remembers all the marks. He knows all the routes to certain information and saves these routes. When a certain condition occurs, that is, a specific request to the TOP-manager 4 through the DNS server 5, an integration algorithm is formed. According to this algorithm, the TOP-manager 4 knows where to look for the necessary information for integration and analysis. TOR-manager 4 is guided by previously saved marks on previously saved routes. Thus, the TOP-manager 4 determines the storage address of the requested information in a certain information area l _l .. li and the optimal access route to this information using the appropriate label. The performance of the TOP-manager 4 is provided by super-powerful processors 10.

 The query results are sent through the communication networks of the information system through

TOP-manager 4, central DNS server 5, corresponding distributed DNS server 6 and server 7i, ... 7 _{h of the} user to his personal electronic device 9 _l ..9 _h (ROBOT). At the same time, the query results are visualized by ROBOTOM, including in the form of virtual cyber space 17 (ZO-models of the real physical space), where each object of the real world is represented in the form of its exact metric ZO-model (in accordance with its electronic certificate 3 _l5 ... 3k or 22 ,, ... 22 _h ).

For example, the content of the information sphere 1 ₆ “Medicine”, created in the internal environment 2 of the claimed global information system, will be considered in more detail. In this information sphere 1 ₆ all the thematic information from the beginning of the existence of medicine, the whole history, changes, all the scientific achievements in this field, traditional and non-traditional, are stored. All information posted here is covered and also supported by thematic cyber television. Access to the information sphere 1 ₆ , as well as to other areas is carried out through a personal electronic device 9ι, ...% of the user ROBOTa. New technologies in the field of medicine and technical equipment of the personal electronic device 9ι, ... of the user allow him to function as your personal electronic doctor. During the identification procedure using appropriate means 23i, ... 23 _{h of} automatic identification of the user, ROBOT can receive data on the heart rate, pressure, and pulse of the user. He can carry out identification (research) on the retina and other parameters. This allows you to automatically analyze the health status of the user. All report data will be reflected by ROBOTOM in the user's personal electronic medical card, which is also stored in the information sphere 1 ₆ .

At the same time, the concept of a personal electronic medical record includes a biometric detailed prototype, including the structure of the pupil (fundus), DNA code, heart rate, “bioenergetic individual field” and other parameters. All these parameters are hidden in one configuration in the circuits of the electronic “medical record” as part of the electronic passport 16 _l ..16h. All data in the configuration are parameters for comparison and are entered into the genetic base. Integration and synchronization of this configuration with an electronic passport and An electronic personal medical card provides, among other things, the possibility of statistical forecasting and determination of the genus tree.

 With a genetic base, processors 10 as part of the TOP-manager 4 work in the "OP-Npe" mode. The base is constantly monitored and updated. The more parameters, the more accurate the forecast. The processor 10 takes into account and compares the parameters of the pedigree (relatives), all predispositions, various information about the state of health, monitors changes 24 hours a day. The processor 10 also takes into account complex changes, for example, configuration changes when changing the constituent parameters and how these changes affect the heart rate, how the retina and other parameters are reflected - all this is reflected in the genetic code. The processor 10 remembers all the changed configurations and possible causes in this database.

 The scope of the base can be unlimitedly large. If the database has a certain number of configurations, various parameters and criteria, it is enough to “enter” several or one of the criteria parameters for forecasting. The form of the algorithm depends on the area of forecasting. For example, to predict compatibility, you need some parameters, to predict predisposition, others. Based on the data obtained, the ROBOT electronic device makes recommendations, for example, in the diet, in the amount of physical activity, recommendations in planning a child’s birth, recommendations in choosing a field of activity, in choosing a climate for living or relaxing, etc.

As mentioned above, to increase cyber security, each personal electronic device 9ι, ...% of the user works with his virtual server 7 ... 7b through DNS server 6, one electronic signature 20i, ... 20h. Since the DNS server 5 is part of the electronic TOP-manager 4, and it has the functionality of a gateway, its functionality also consists in monitoring equipment and objects operating in the “cybernet” circuits. Under each electronic signature 20i, ... 20 _h (equipment or facility) implies its functionality, that is, the ability to access resources. This is necessary to prevent unauthorized access to resources. Electronic signature 20 _l5 ... 20 _h excludes the possibility of "parallel" operation of the same device. At the same time, the electronic access system provided in the claimed global information system based on user identification by cryptographic individual code and other biometric parameters provides the user with the widest possibilities for managing his electronic devices / means. So, in the system it is possible to provide for the connection of an electronic car lock, front door, etc. through a satellite channel to a virtual server, through a home “router”, to this personal electronic device 9 _l5 ... 9 _h , one electronic signature 20 ₁₅ ... 20b. The structure of the electronic signature 20 _l ..20 _h consists of several components. One component of the signature identifies the object, or equipment, or goods, the second - characterizes a particular group. The principle of operation is as follows: when the user leaves his apartment or home, or office, the lock "closes". When a user approaches his home, then his ROBOT, using cyber navigation, determines the distance to the castle (when the user is in close proximity, a few meters or steps from the castle), and through the router “see” the castle, and the castle “sees” ROBOTa. Since the satellite communication channel works through the central DNS server 5, and the central DNS server 5 confirms the authority for electronic signature 201, ... 20b, the lock automatically opens.

Another promising area in the claimed global information network is a new cyber navigation system, the principle of which is built in a multidimensional format. So, upon receipt of a “request” to build any part of the space, the program downloaded in the personal electronic device 9 _\ , ...% “collects” this part of the space according to the specified criteria. According to the satellite coordinates of this section, the program uses a Ze-map (due to integration with the “planet device” information sphere). If on this section of the map there are objects with an electronic certificate 3j, ... 3 _k , then the program “includes” these objects in the modeling of space. If these objects move, then in the model (virtual cyber space 17) this is reflected, since the GPRS grid is used in On-line mode. Each electronic certificate Z ... 3k is closed with a certain electronic signature with a “beacon”, therefore in the GPRS grid there is not a certificate itself, but only a “beacon”. When simulating virtual cyber space 17 by electronic signature, along the route to the electronic certificate Z ... 3k and based on the data in the certificate, this object is modeled on a 3D map section using satellite coordinates.

Additional benefits are also provided to users through the availability of electronic passports 16 _l ..16 _h . An electronic passport opens up a number of additional possibilities: it does not require changes in the legislation and existing general civil passports of countries or countries of the world. The citizen’s electronic passport contains information from the civil passport of the citizen of the country, state of the world in which he was born, lives and carries out his life activities, information from the military ID, insurance, studies, employment, etc. Also, information on credit banking history, on property owned by a citizen and other information may be included in the electronic passport certificate. However, the basis of the electronic passport is the biometric prototype 191, ... 19b of the user. In order to increase the level of information security, is an electronic passport located on a personal electronic device 9 _1? ... 9 _h . A complex and accurate identification system for the holder of an electronic passport eliminates unauthorized access to the document. An electronic passport opens up enormous opportunities for its owner in the field of business, financing, leisure, etc. The use of the MEGA settlement electronic unit, life activity is simplified, and it also helps to use the capabilities of the electronic world to the maximum. If necessary, the electronic passport can be viewed by various authorized control services, in the necessary but limited form (such as a general passport at the border crossing) in on-line mode, or on request. Some services are allowed to view general information with owner confirmation. At the same time, the owner of a personal electronic device 9ι, ...% does not need to carry any documents, including credit cards, to confirm his identity and pay for goods or services. In case of loss of the electronic device 9ι, ...%, nobody will be able to use the user's documents, as well as the electronic device in general (user identification only by his personal biometric indicators). It is enough to report the loss to the service department via the satellite navigation system, which will detect the location of the device. In case of unauthorized hacking of the device 9Ι, ... 9Η, all programs will be blocked automatically. It will be possible to recover all data from the saved profile on the server.

In addition to the advantages and advantages of the claimed global information system described above, the internal environment of the information system 2 is configured to connect to the Internet via at least one gateway 1 1 formed on the basis of the corresponding DNS server 6, including the central DNS server 5 . Information sources.

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Claims

Utility Model Formula

 1. The global information system, including interconnected communication networks with the formation of the internal environment of the Information System, many information areas, each of which is formed in accordance with a certain 5 topics and contains at least information about each object related to this topic, in in the form of at least an electronic certificate of the object, a system electronic TOP-manager, many servers, including a central DNS server, distributed DNS servers and user servers, and many more access access users, each of which is equipped with electronic equipment, including 10 personal electronic device of the user, configured to create a personal electronic space of the user, and equipped with a unique electronic signature based on an individual crypto code assigned to the DNS server,

in addition, each DNS server is configured to cryptographically - 15 - transmitted information from the ^" ftermyrotani ^ lethron subscription ^ akts ^~ yes Гн1х ^" using a cryptocode available to the DNS server and browser of the personal electronic device of the corresponding user,

 the central DNS server is configured to classify all information by specific labels available to the central DNS server and the TOP-20 manager, where each label contains at least a pointer to a specific information area,

 and the TOR manager is made with the ability to determine the route of access to certain information in a certain information field by the corresponding label,

 25 each information sphere in the internal environment of the information system has a structure of the information shell made with the possibility of docking with the electronic TOP-manager, and including the entire amount of information available in the world on this topic,

 the internal environment of the information system is configured to dock with

30 by the common Internet through at least one gateway formed on the basis of the corresponding DNS server, including the central DNS server,

 at the same time, in the internal environment of the information system, each physical object corresponds to a virtual object equipped with an electronic certificate, to each physical subject - a virtual subject equipped with an electronic

35 with a passport, and the physical space is presented in the form of a ZO-model with binding each virtual object and each virtual subject in real time according to the satellite communication system with the formation of a virtual cyber space.

 2. The system according to p. 1, characterized in that the communication network is made in the form of satellite networks or radio networks.

 3. The system according to claim 1, characterized in that the central DNS server is part of the electronic TOR manager, while the electronic TOR manager consists of modules of super-powerful processors.

 4. The system according to claim 3, characterized in that the central DNS server is configured to operate in a gateway mode for connecting resources of the internal environment of the Information System to the Internet, preferably via a satellite communication channel.

 5. The system according to claim 1, characterized in that the user's personal electronic space includes encoded personal information, which is at least information about the user, including an electronic passport, family and gender, personal accounts, access to housing, to a car, to personal data, to household appliances, including electronic certificates of each of these objects.

 6. The system according to p. 1, characterized in that the electronic certificate includes an accurate metric ST model of the object on a scale in cyber space with its detailed description indicating at least ownership rights, as well as exact technical, mechanical, chemical, environmental and other data, and is equipped with an electronic signature generated on the basis of individual biometric data selected from the group including at least a heart rate, fingerprints, iris pattern.

 7. The system according to claim 1, characterized in that the electronic passport includes at least the exact data of the civil passport and all accurate biometric data, including the biometric human prototype in the form of a ZO model, as well as all individual features, and is equipped with an electronic signature .

 8. The system according to claim 1, characterized in that the user's personal electronic device is configured to automatically identify the user by at least one biometric parameter.

9. The system according to p. 1, characterized in that each personal electronic device is configured to work through a personal virtual server of the user.

10. System iio p. 1, characterized in that the operating system of a personal electronic device is made in the form of an operating system for an electronic robot.

 11. The system according to p. 1, characterized in that the personal device is configured to provide roaming-free communication.

 12. The system under item 1, characterized in that the personal device is configured to automatically connect to the global investment program.

 13. The system according to p. 1, characterized in that it is configured to work with the system settlement and electronic unit - "MEGA" (MEG A).

 14. The system according to any one of paragraphs. 1 to 13, characterized in that it is configured to transmit information in the internal environment of the information system via internal data transfer protocols.

 15. The system according to any one of paragraphs. 1 - 13, characterized in that a cyber-social network is formed in the virtual cyber space.