公开(公告)号：US20220253619A1

公开(公告)日：2022-08-11

申请号：US17300013

申请日：2021-02-08

申请人： Mark Eklund

发明人： Mark Eklund

IPC分类号： G06K7/14

摘要： Micro-Tracking Device (M-TDnm) is a micro-scale technology to assist in asset automated supply chain & logistics asset management employing OFiD (Optical Frequency Identification) and Raman scattering (a cumulative process having net effects of scattering photons and changing their frequency). This manipulation of frequency provides a ‘carrier wave’ for M-TDnm interrogation via Raman spectroscopy. The component parts of the M-TDnm (including silicone substrate, conduction band, and membrane) provide for an ‘E-beam resist’ function. The E-beam resist layer is coded with an arrangement of electrons, serving as a unique identifier. M-TDnm is subject to interrogation via Raman spectroscopy, the Raman spectrum reading is interpreted via an optical frequency identification (OFiD) method. Likewise alternate versions and variations can include energy harvesting mechanisms via polarity and conduction choice of the arrangement of electrons, and nanowire antenna.

公开(公告)号：US07411981B1

公开(公告)日：2008-08-12

申请号：US10874734

申请日：2004-06-22

申请人： Scott K. Reed ,  Gregory Weber ,  Mark Eklund ,  Robert Sargent ,  Steven J. Rich

发明人： Scott K. Reed ,  Gregory Weber ,  Mark Eklund ,  Robert Sargent ,  Steven J. Rich

IPC分类号： H04J3/26 ,  H04L12/22

CPC分类号： H04L63/08

摘要： A solution for matching RADIUS request packets with corresponding RADIUS response packets when the number of simultaneous outstanding requests is greater than 256 involves using a sixteen-octet authenticator field in each packet. For each response packet that arrives, the identifier of the packet is compared in turn with the identifier of each outstanding request packet. If the identifiers match, the authenticators are then compared. If the results of the comparison indicate a match, the packet is accepted and no further processing of the outstanding requests is required. Otherwise, a search of the outstanding request packets is continued. This solution allows for more than 256 simultaneous outstanding RADIUS requests and only encounters a mismatch or ambiguous match with a probability of one in 3.4×1038 packets.

摘要翻译： 当同时未决请求数大于256时，将RADIUS请求报文与对应的RADIUS响应报文进行匹配的解决方案涉及到在每个报文中使用十八字节认证字段。 对于到达的每个响应分组，分组的标识符依次与每个未决请求分组的标识符进行比较。 如果标识符匹配，则验证器被比较。 如果比较结果表示匹配，则该数据包被接受，并且不需要进一步处理未完成的请求。 否则，继续搜索未完成的请求数据包。 该解决方案允许超过256个同时未完成的RADIUS请求，并且仅遇到不符合或不确定的匹配，其中3.4×30 数据包中的概率为1。

公开(公告)号：US20240135311A1

公开(公告)日：2024-04-25

申请号：US17803694

申请日：2022-10-14

申请人： Mark Eklund

发明人： Mark Eklund

IPC分类号： G06Q10/087

CPC分类号： G06Q10/087

摘要： Micro-Tracking Device (M-TDnm) is a micro-scale technology to assist in asset automated supply chain & logistics asset management employing OFiD (Optical Frequency Identification) and Raman scattering (a cumulative process having net effects of scattering photons and changing their frequency). This manipulation of frequency provides a ‘carrier wave’ for M-TDnm interrogation via Raman spectroscopy. The component parts of the M-TDnm (including silicone substrate, conduction band, and membrane) provide for an ‘E-beam resist’ function. The E-beam resist layer is coded with an arrangement of electrons, serving as a unique identifier. M-TDnm is subject to interrogation via Raman spectroscopy, the Raman spectrum reading is interpreted via an optical frequency identification (OFiD) method. Likewise alternate versions and variations can include energy harvesting mechanisms via polarity and conduction choice of the arrangement of electrons, and nanowire antenna.

公开(公告)号：US06771665B1

公开(公告)日：2004-08-03

申请号：US09652762

申请日：2000-08-31

申请人： Scott K. Reed ,  Gregory Weber ,  Mark Eklund ,  Robert Sargent ,  Steven J. Rich

发明人： Scott K. Reed ,  Gregory Weber ,  Mark Eklund ,  Robert Sargent ,  Steven J. Rich

IPC分类号： H04J326

CPC分类号： H04L63/0807

摘要： A solution for matching RADIUS request packets with corresponding RADIUS response packets when the number of simultaneous outstanding requests is greater than 256 involves using a sixteen-octet authenticator field in each packet. For each response packet that arrives, the identifier of the packet is compared in turn with the identifier of each outstanding request packet. If the identifiers match, the authenticators are then compared. If the results of the comparison indicate a match, the packet is accepted and no further processing of the outstanding requests is required. Otherwise, a search of the outstanding request packets is continued. This solution allows for more than 256 simultaneous outstanding RADIUS requests and only encounters a mismatch or ambiguous match with a probability of one in 3.4×1038 packets.

摘要翻译： 当同时未决请求数大于256时，将RADIUS请求报文与对应的RADIUS响应报文进行匹配的解决方案涉及到在每个报文中使用十八字节认证字段。 对于到达的每个响应分组，分组的标识符依次与每个未决请求分组的标识符进行比较。 如果标识符匹配，则验证器被比较。 如果比较结果表示匹配，则该数据包被接受，并且不需要进一步处理未完成的请求。 否则，继续搜索未完成的请求数据包。 该解决方案允许超过256个同时未完成的RADIUS请求，并且仅遇到不符合或不确定的匹配，其中3.4x10 <38>数据包中的概率为1。