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1.发明授权Integrated adaptive wireless mesh sensor platform and energy visualization and management system 有权综合自适应无线网状传感器平台和能量可视化管理系统公开(公告)号:US08193929B1
公开(公告)日:2012-06-05
申请号:US12291407
申请日:2008-11-10
Applicant: David Siu , Ken C. K. Cheung , Joseph M. Cardenas , Luke B. Joseph , Ryan Y. Miyamoto , Donald Harbin
Inventor: David Siu , Ken C. K. Cheung , Joseph M. Cardenas , Luke B. Joseph , Ryan Y. Miyamoto , Donald Harbin
CPC classification number: H04L12/2829 , G01R22/063 , G08B21/0469 , H04L67/12 , H04W84/18
Abstract: A mesh-networked sensor platform has a mesh network of nodes that connect with existing electrical infrastructure or are powered through other means such as batteries or energy scavenging. The mesh network forms a self-healing and self-configuring network robust against individual node failures. Wireless mesh networking integrated circuits (ICs), energy monitoring ICs and solid state relays are used to create a low-cost, easy-to-install energy visualization and management system. The system can intelligently control energy usage at the sockets to stop energy from being wasted. Software for a central base station uses energy usage data from each node to create an energy usage profile to automatically detect anomalies in energy usage and take steps to correct them. Other sensors can be easily added for a multitude of applications. Power usage and control of each appliance can be viewed via an internet connected PC or smart phone via a social networking website.
Abstract translation: 网状网络传感器平台具有与现有电气基础设施连接的节点的网状网络,或者通过其他方式(例如电池或能量清除)供电。 网格网络形成了针对单个节点故障的自愈和自配置网络。 无线网状网络集成电路(IC),能量监控IC和固态继电器用于创建低成本,易于安装的能源可视化和管理系统。 该系统可以智能地控制插座上的能源消耗,以阻止能量浪费。 中央基站的软件使用来自每个节点的能量使用数据来创建能量使用模式,以自动检测能量使用中的异常并采取措施进行纠正。 其他传感器可以轻松添加到众多应用中。 每个设备的电源使用和控制可以通过互联网连接的PC或智能手机通过社交网站查看。
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2.发明授权Integrated adaptive wireless mesh sensor platform and energy visualization and management system 有权综合自适应无线网状传感器平台和能量可视化管理系统公开(公告)号:US08536998B1
公开(公告)日:2013-09-17
申请号:US13487675
申请日:2012-06-04
Applicant: David Siu , Ken C. K. Cheung , Joseph M. Cardenas , Luke B. Joseph , Ryan Y. Miyamoto , Donald Harbin
Inventor: David Siu , Ken C. K. Cheung , Joseph M. Cardenas , Luke B. Joseph , Ryan Y. Miyamoto , Donald Harbin
CPC classification number: H04L12/2829 , G01R22/063 , G08B21/0469 , H04L67/12 , H04W84/18
Abstract: A mesh-networked sensor platform has a mesh network of nodes that connect with existing electrical infrastructure or are powered through other means such as batteries or energy scavenging. The mesh network forms a self-healing and self-configuring network robust against individual node failures. Wireless mesh networking integrated circuits (ICs), energy monitoring ICs and solid state relays are used to create a low-cost, easy-to-install energy visualization and management system. The system can intelligently control energy usage at the sockets to stop energy from being wasted. Software for a central base station uses energy usage data from each node to create an energy usage profile to automatically detect anomalies in energy usage and take steps to correct them. Other sensors can be easily added for a multitude of applications. Power usage and control of each appliance can be viewed via an interne connected PC or smart phone via a social networking website.
Abstract translation: 网状网络传感器平台具有与现有电气基础设施连接的节点的网状网络,或者通过其他方式(例如电池或能量清除)供电。 网格网络形成了针对单个节点故障的自愈和自配置网络。 无线网状网络集成电路(IC),能量监控IC和固态继电器用于创建低成本,易于安装的能源可视化和管理系统。 该系统可以智能地控制插座上的能源消耗,以阻止能量浪费。 中央基站的软件使用来自每个节点的能量使用数据来创建能量使用模式,以自动检测能量使用中的异常并采取措施进行纠正。 其他传感器可以轻松添加到众多应用中。 每个设备的电源使用和控制可以通过互联网连接的PC或智能手机通过社交网站查看。
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