首页> 外国专利> The method of transferring digital currency encryption keys based on the procedure for issuing, authenticating and disabling the physical carrier with multifactor authorization and the physical carrier of encryption keys for the digital currency for implementing this method

The method of transferring digital currency encryption keys based on the procedure for issuing, authenticating and disabling the physical carrier with multifactor authorization and the physical carrier of encryption keys for the digital currency for implementing this method

机译：基于发布，认证和禁用具有多因素授权的物理载体的过程以及用于数字货币的加密密钥的物理载体的传输数字货币加密密钥的方法

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摘要

The method of transferring digital currency encryption keys based on the procedure for issuing, authenticating and disabling the physical carrier with multifactor authorization consists in the fact that a carrier, distributed in the market in the empty state, which the second authorization factor (5A) safely stored with the manufacturer or integrated into the carrier in the form of a tamper evident mode belongs to, is loaded by the issuer using a software application for exposure of the carrier and on the basis of the first authorization factor (2A), the carrier identifier and other data generated by the issuer the address for sending the digital currency balance in a corresponding amount equalling to the nominal value of the carrier is derived and communicated to the issuer, whereupon using the online service for issuing the digital signature (3A), upon request and upon completion of all required requisites, in particular the authenticity of the piece of the carrier and the balance of the digital currency sent corresponding to the nominal value of the carrier, a digital signature (3A) is granted, and this digital signature (3A) is combined by the software application for issuing the carrier with the first authorization factor (2A), and these data are supplemented by the issuer, in particular by printing, writing or labelling, thereby bringing the carrier into an active state and enabling it to be handed to another holder, also repeatedly, wherein the recipient performs a visual inspection and verifies the carrier using a software application for verifying the carrier, in particular the balance of the digital currency, then this software application authenticates, after loading the first authorization factor (2A) and the digital signature (3A), the authenticity of the digital signature (3A), the validation of the first authorization factor (2A) is performed and the recipient compares the digitally signed data with the data visible on the carrier, whereupon all of the available authorization factors (2A and/or 5A) on the carrier are loaded from this new properly issued physical carrier in the active state by the recipient using the software application for transferring the digital currency and, if applicable, other authorization factors known to recipients are added, and an electronic transaction within the network of the digital currency for transferring the funds in the electronic form to the private address of the recipient is made and authorized, wherein the result is the transfer of digital currency encryption keys on the basis of the procedure of issuing, authentication and invalidation of the physical carrier with multifactor authorization and thus performing the payment with the digital currency between the issuer and the last recipient, and part of the result is also the carrier in a visibly invalidated state. A physical carrier of encryption keys for a digital currency for implementation of the method of transfer of the encryption keys of the digital currency based on the procedure of issuing, authentication and invalidation of the physical carrier consists of a base body in the form of a flat planar object of any shape, in particular a geometric figure made of a compact material, in particular plastic, paper or metals and their alloys, wherein one of its major planar surfaces is marked with a unique alphanumeric identifier (1), wherein the physical carrier is, according to a particular embodiment, provided with applications of security features against counterfeiting, wherein, on one or both major flat surfaces, there are also fields (2) for placing the first authorization factor (2A) and also fields (3) for adding the digital signature (3A).

机译：基于具有多因素授权的物理载体的发行，认证和禁用过程的数字货币加密密钥的传输方法包括以下事实：在市场上以空状态分布的载体安全地具有第二授权因子（5A）与制造商一起存储或以防篡改模式形式集成到载体中，由发行方使用用于暴露载体的软件应用程序并基于第一授权因子（2A）加载载体标识符，由发行者加载以及由发行人生成的其他数据的发送地址，该地址用于发送相当于承运人名义价值的相应数量的数字货币余额，并传送给发行人，随后使用在线服务发布数字签名（3A）要求并在完成所有必要条件后，尤其是运输工具的真实性和天平o如果发送的数字货币对应于承运人的名义价值，则授予数字签名（3A），该数字签名（3A）由软件应用程序组合以发行具有第一授权因子（2A）的承运人，并且这些数据由发行者补充，特别是通过打印，书写或贴标签进行补充，从而使载体进入激活状态，并使其能够反复多次移交给另一个持有人，其中，接收者使用以下方法进行目视检查并验证载体用于验证运营商，特别是数字货币余额的软件应用程序，然后该软件应用程序在加载第一授权因数（2A）和数字签名（3A）之后认证数字签名（3A）的真实性，进行第一授权因子（2A）的验证，接收者将数字签名的数据与运营商可见的数据进行比较，于是所有接收者使用转移数字货币的软件应用程序从接收者处于活动状态的新的正确发行的物理载体中读取载体上的可用授权因子（2A和/或5A），以及在适用时接收者已知的其他授权因子添加数字货币，并在数字货币网络内进行电子交易，以将电子形式的资金转移到收款人的私人地址，并进行授权，其中，结果是基于加密货币的数字货币加密密钥的转移具有多因素授权的物理载体的发行，认证和失效的过程，从而在发行者和最后的接收者之间用数字货币进行支付，结果的一部分也是载体处于明显失效的状态。一种用于数字货币的加密密钥的物理载体，用于实现基于物理载体的发行，认证和失效过程的数字货币的加密密钥的传输方法，该主体由扁平形式的基体组成。任何形状的平面物体，尤其是由紧凑材料制成的几何图形，特别是塑料，纸张或金属及其合金，其中其主要平面之一标有唯一的字母数字标识符（1），其中物理载体根据特定实施例，为应用提供防伪安全特征，其中，在一个或两个主要平坦表面上，还存在用于放置第一授权因子（2A）的字段（2），以及用于放置第一授权因子的字段（3）。添加数字签名（3A）。

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公开/公告号CZ307164B6

专利类型
公开/公告日2018-02-14

原文格式PDF
申请/专利权人 PETR SOBOTKA;
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申请/专利号CZ20150000562
发明设计人 PETR SOBOTKA;
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申请日2015-08-20
分类号G06Q20/40;G06Q20/28;G07F7/08;G06Q20;G06Q30;
国家 CZ
入库时间 2022-08-21 12:53:03

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