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CN-122001932-A - Root server platform system and method for future code/FN code based on overlapping multiplexing of future network/FN and OV

CN122001932ACN 122001932 ACN122001932 ACN 122001932ACN-122001932-A

Abstract

The invention provides a root server platform system and a root server platform method for future codes/FN codes based on overlapping multiplexing of a future network/FN and an OV, and belongs to the technical fields of future networks, digital economy and Internet of things identification. Aiming at the defects that the existing global anti-counterfeiting traceability code cannot be communicated across national boundaries, lacks an equal architecture of the main authority and the like, and has weak anti-counterfeiting capability, the invention provides a Future Network (FN) static IP address as a future code/FN code. The system realizes autonomous and controllable anti-counterfeiting traceability codes of various countries through a root server platform system of future codes/FN codes, and interconnects and intercommunicates, so that any intelligent mobile phone terminal in the world can be directly scanned by a browser for code access and verification. The system structure OV overlapping multiplexing provides high-spectrum efficiency wireless access for mass terminals and provides high-quality data transmission through future networks. The invention constructs a new generation global identification and communication infrastructure and future network space resources which can realize anti-counterfeiting tracing, safety, high efficiency, equal master right and the like and natural intercommunication of future codes/FN codes.

Inventors

  • CHEN MING
  • Yuan Zongrui

Assignees

  • 陈明
  • 袁宗睿

Dates

Publication Date
20260508
Application Date
20260212

Claims (10)

  1. 1. A root server platform system for future codes/FN codes based on overlapping multiplexing of future networks/FNs and OVs, comprising: The FN code application terminal is used for generating or analyzing a globally unique future code (FN code) according to an authorization rule, wherein the FN code is a static IP address conforming to a future network protocol, and the number Duan Dingceng code of the FN code comprises a country/region master right identifier; 1.2, FN-OV intelligent access node, dispose at the network edge, used for carrying on authentication preconditioning, tactics execution to FN code data, and adopt the adaptive OV to overlap multiplexing technology to carry on the physical layer transmission of high-efficient; 1.3, a root server platform of future codes is used as a system core management hub for carrying out equal allocation of main rights, registration analysis, strategy generation and distribution on global FN code resources; a future network deterministic core network for providing a deterministic end-to-end transmission path for FN code data streams according to a policy; 1.5, the FN code application terminal is in wireless connection with the FN-OV intelligent access node, the FN-OV intelligent access node and a root server platform of the future code are connected with the future network deterministic core network, and the root server platform of the future code is in communication connection with the FN-OV intelligent access node for policy interaction.
  2. 2. The system of claim 1, wherein the FN code application terminal embeds an FN code engine that generates an FN code with a digital signature for an entity or digital object according to coding rules and key material obtained from a root server platform or a national agency of the future code, the FN code having a basic code length of 256 bits in binary or decimal and being expandable to 2048 bits.
  3. 3. The system of claim 1, wherein the FN-OV intelligent access node comprises: 3.1, FN code authentication preprocessing unit, which is used for carrying out format verification and preliminary verification on received FN code data and initiating analysis and strategy request to the future code root server platform; 3.2, the self-adaptive OV overlapped multiplexing transceiver is used for dynamically adjusting the parameters of an overlapped domain, an overlapped coefficient and a modulation coding mode according to a physical layer proposal strategy and real-time channel state feedback received from the future code root server platform, so as to realize high-spectrum efficiency wireless transmission; And the policy execution and interface unit is used for executing the network service quality policy and the access control policy issued by the future code root server platform and managing the communication interface with the future network deterministic core network.
  4. 4. The system of claim 1, wherein the future code root server platform comprises: 4.1, a global resource allocation and main authority management module, which is used for pre-allocating the top-level number section resource of the global FN code to each participating main authority country or region according to a preset comprehensive factor model and an international negotiation protocol; 4.2, a root library of FN codes, which is used for storing the mapping relation between the FN codes registered globally and the country/region code sections, core metadata and verification public keys; 4.3, a coding rule and security engine for managing and distributing the generation algorithm, the geometric structure representation specification and the public key infrastructure system of FN codes; 4.4, a network policy library is used for generating a corresponding network service quality policy template and a physical layer transmission proposal policy template according to the country, industry and application scene attribute associated with the FN code; and 4.5, a global analysis and routing engine is used for receiving and processing FN code analysis requests from the access nodes, determining target countries and routing paths by querying the global resource allocation and master management module and the FN code root library, and calling the network policy library to generate collaborative policies and issuing the collaborative policies to related nodes.
  5. 5. The system of claim 1, wherein the future network deterministic core network is a network constructed based on a computational power routing, time-sensitive network technology, capable of providing deterministic data transmission services with bounded guarantees of bandwidth, latency, jitter according to service level agreement requirements of traffic.
  6. 6. A method for transmitting and resolving future codes based on the system of any one of claims 1 to 5, comprising a master right allocation registration procedure and a global intercommunication verification procedure: The main right allocation registration flow comprises the following steps: s11, pre-distributing FN code top grade number segments to each master country by the global resource distribution and master management module of the future code root server platform) according to an international protocol; S12, after a management organization in the country of the main authority obtains the number segment, a specific FN code and an associated key are distributed to nodes or end users in the country; S13, binding the obtained FN code with a physical or digital object by the terminal user to finish registration; the global intercommunication verification process comprises the following steps: S21, a consumer uses a universal camera of the smart phone to scan the FN code carried on the object, and a mobile phone operating system automatically recognizes the FN code as a website and initiates an access request through a universal browser; s22, requesting to reach a global parsing and routing engine of a root server platform of the future code through the Internet; s23, the global analysis and routing engine analyzes FN codes, determines the country of the main authority according to the prefix of the number segment, and routes the request to the corresponding authoritative data source server in the country; S24, the future code root server platform issues network and physical layer optimization strategies to related access nodes and possibly triggers the future network deterministic core network to establish an optimized transmission path; And S25, the authoritative data source server returns the tracing information subjected to the digital signature, returns the tracing information through a network path and displays the tracing information in a mobile phone browser of the consumer.
  7. 7. The method according to claim 6, wherein in the worldwide interoperability verification process, the FN code is represented on a physical carrier as a graph compatible with a universal two-dimensional code standard, but the coded data content is in a web site format conforming to a future network protocol.
  8. 8. The method of claim 6 further comprising a high-spectrum wireless access procedure, wherein a massive FN code application terminal transmits data to the FN-OV intelligent access node through a wireless link, and an adaptive OV overlap multiplexing transceiver of the node dynamically adopts overlap time division multiplexing, overlap frequency division multiplexing or a mixed mode thereof for data transmission according to channel states and policies, so as to achieve spectrum efficiency exceeding that of the conventional technology.
  9. 9. The system of claim 4, wherein the global resource allocation and master management module is based on a comprehensive factor model including at least population, territorial area, total domestic production, administrative division level, and reserved for future development of deep sea, land, air, etc.
  10. 10. The system of claim 3 wherein the dynamic adjustment process of the adaptive OV overlap-multiplexing transceiver constitutes a closed-loop control, wherein the physical layer proposal strategy issued by the root server platform of the future code is used as an initial parameter, and the transmission parameters are continuously adjusted by a built-in optimization algorithm according to the acknowledgement information and the channel quality indication fed back by the receiving end, so as to balance the transmission efficiency and the reliability in the complex wireless environment.

Description

Root server platform system and method for future code/FN code based on overlapping multiplexing of future network/FN and OV Technical Field The invention relates to the fields of Future Network architecture, wireless communication, information coding, global resource allocation, distributed system technology and the like, in particular to a root server platform system integrating Future Network (FN) deterministic service capability, overlapping multiplexing (OvXDM) high-spectral efficiency transmission technology, a novel 'Future code' (FN code) identification system and global code resource equal allocation capability and an implementation method. Background With the acceleration of the integrated processes of industrial 4.0, everything interconnection, digital economy, digital twinning and global supply chain, unique, reliable and traceable identification and interconnection of articles become a key foundation. However, the existing global traceability coding system comprises bar codes, two-dimensional codes, RFID, EPC codes and even internet IPv4/v6 addresses, which have common defects which cannot be overcome, so that 'natural intercommunication' and large-scale application across systems, platforms, industries and national boundaries are difficult to realize. 1. The technical architecture has fundamental obstacle to interoperability. Most existing codes are not internet native resolvable addresses, which identify heavily dependent on a dedicated reader-writer or specific application (App). For example, a consumer scans a two-dimensional code of a commodity, must rely on a specific App to resolve, and cannot directly access the commodity through a globally uniform internet protocol as if accessing a website. This forms a natural technical barrier, evolving "everything interconnected" into a myriad of "platform islands". 2. The coding system lacks a master equal and benefit sharing architecture. The management right, number segment allocation right and potential benefits of the existing mainstream coding system (such as EPC and mainstream internet of things identifier) are often concentrated in a few non-profit organizations or business entities, and cannot respect and guarantee that each main authority country has equal management right, allocation right, profit right and pricing right on coding resources circulated in the main authority country at the infrastructure level. This results in fundamental questions and resistance in terms of national network ownership and data security faced in globalization popularization, and it is difficult to form international consensus. 3. Capacity, cost and verification convenience are bottlenecks. IPv4 addresses are exhausted, IPv6 addresses have large capacity, but are still difficult to be compatible with the existing complex coding system (such as complex coding containing information of countries, industries, manufacturers and the like), and the allocation and management modes of the IPv6 addresses do not change the security dilemma of network ownership. Meanwhile, the special verification equipment or software increases the application cost and prevents the popularization of self-verification at the low-value commodity and the consumer side. 4. The anti-counterfeiting and trusted mechanisms are weak. The existing code is easy to physically copy, and the verification entrance (such as the website pointed by the two-dimension code) can be hijacked or imitated, so that the trust crisis of 'true code fake goods' or 'fake code true station'. Consumers lack a convenient and reliable self-verification means without pre-software. 5. Therefore, a new technical solution is needed to fundamentally solve the above-mentioned systematic defects. Disclosure of Invention (One) object of the invention. The invention aims to fundamentally solve the common defect of the global traceability coding system, and provides a future code (FN code) root server platform system and method based on overlapping multiplexing of a future network and an OV. The method has the core ideas that the traceable code is up-scaled to be the future network static IP address (FN code), and is managed, analyzed and strategically scheduled through a root server platform with equal allocation capacity of global code resource main authority, so that the network static IP address (FN code) naturally has global Internet accessibility, and meanwhile, the efficient wireless access capacity is provided for massive FN code data by combining the high-spectrum-efficiency OV (OvXDM) overlapping multiplexing transmission technology. (II) System architecture scheme. In order to achieve the above purpose, the present invention adopts the following technical scheme. 1. The invention provides a root server platform system based on future codes of overlapping multiplexing of a future network and an OV. The system comprises an FN code application terminal, an FN-OV intelligent access node, a future code root server platfor