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    • 2. 发明申请
    • FEEDER AUTOMATION FOR AN ELECTRIC POWER DISTRIBUTION SYSTEM
    • 馈电自动化用于电力分配系统
    • WO2010080490A1
    • 2010-07-15
    • PCT/US2009/068443
    • 2009-12-17
    • ABB RESEARCH LTD.YANG, FangSTOUPIS, JamesDONDE, Vaibhav
    • YANG, FangSTOUPIS, JamesDONDE, Vaibhav
    • H02J3/00H02J13/00H02H7/26
    • H02J13/00H02H7/261H02J3/006Y04S10/525
    • A soft PLC technology based computer-implemented method includes updating a system configuration incidence matrix for an electric power distribution system based on both a depth-first search of a connectivity matrix for the electric power distribution system and information about the electric power distribution system, wherein the information includes at least status information about one or more switches of the electric power distribution system. The method further includes detecting a fault in the system based on the incidence matrix. The method further includes generating isolation control logic based on the incidence matrix and isolating the fault based on isolation control logic. The method further includes generating restoration control logic based on a breadth-first search of the incidence matrix and restoring the system based on the restoration control logic.
    • 基于软PLC技术的计算机实现方法包括基于用于配电系统的连接矩阵的深度优先搜索和关于配电系统的信息来更新用于配电系统的系统配置入射矩阵,其中 该信息至少包括关于电力分配系统的一个或多个开关的状态信息。 该方法还包括基于入射矩阵来检测系统中的故障。 该方法还包括基于入射矩阵产生隔离控制逻辑,并基于隔离控制逻辑隔离故障。 该方法还包括基于入射矩阵的宽度优先搜索生成恢复控制逻辑,并且基于恢复控制逻辑恢复系统。
    • 4. 发明申请
    • MICROGRID ENERGY MANAGEMENT SYSTEM AND METHOD FOR CONTROLLING OPERATION OF A MICROGRID
    • 微控能源管理系统及控制微机操作的方法
    • WO2015017201A1
    • 2015-02-05
    • PCT/US2014/047736
    • 2014-07-23
    • ABB RESEARCH LTD.YANG, FangFENG, XianyongLI, ZhaoWANG, Zhenyuan
    • YANG, FangFENG, XianyongLI, ZhaoWANG, ZhenyuanOUDALOV, Alexandre
    • H02J3/00
    • G05B13/02H02J3/00
    • A microgrid includes a plurality of distributed energy resources such as controllable distributed electric generators (104, 106, 108, 110, 112) and electrical energy storage devices (114). A method of controlling operation of the microgrid includes periodically updating a distributed energy resource schedule for the microgrid that includes on/off status of the controllable distributed electric generators (104, 106, 108, 110, 112) and charging/discharging status and rate of the electrical energy storage devices (114) and which satisfies a first control objective for a defined time window, based at least in part on a renewable energy generation and load forecast for the microgrid (200). The method further includes periodically determining power set points for the controllable distributed energy resources (104, 106, 108, 110, 112) which satisfy a second control objective for a present time interval within the defined time window, the second control objective being a function of at least the distributed energy resource schedule for the microgrid (210).
    • 微电网包括多个分布式能量资源,例如可控分布式发电机(104,106,108,110,112)和电能存储装置(114)。 一种控制微电网操作的方法包括周期性地更新微电网的分布式能源资源调度表,其包括可控分布式发电机(104,106,108,110,112)的开/关状态以及充电/放电状态和 至少部分地基于对于微电网的可再生能源产生和负载预测(200),满足用于所定义的时间窗口的第一控制目标的电能存储装置(114)。 该方法还包括周期性地确定可控分布式能量资源(104,106,108,110,112)的功率设定点,该功率设定点满足规定时间窗内当前时间间隔的第二控制目标,第二控制目标是功能 至少对于微电网的分布式能源计划(210)。
    • 5. 发明申请
    • POWER DISTRIBUTION SYSTEM LOSS REDUCTION WITH DISTRIBUTED ENERGY RESOURCE CONTROL
    • 分布式能源资源控制降低配电系统损耗
    • WO2014036209A2
    • 2014-03-06
    • PCT/US2013/057196
    • 2013-08-29
    • ABB RESEARCH LTD.YANG, FangFENG, Xiaoming
    • YANG, FangFENG, Xiaoming
    • G05F1/70
    • H02J3/18Y02E40/30
    • A power distribution system has a plurality of reactive power resources including capacitor banks (104) and distributed energy resources (106) connected to branches (102) of the power distribution system. Power loss is reduced in the distribution system by determining discrete switch states for the capacitor banks (104) and continuous set points for the distributed energy resources (106), so that the reactive power provided by the reactive power resources reduces power loss while optionally correcting voltage violations in the power distribution system when the capacitor banks (104) are set in accordance with the respective discrete switch states and the distributed energy resources (106) are operated at the respective continuous set points. The range of values for the continuous set points is constrained based on maximum and minimum reactive power limits for each distributed energy resource (106) under consideration.
    • 配电系统具有多个无功功率资源,包括连接到配电系统的分支(102)的电容器组(104)和分布式能量资源(106)。 通过确定电容器组(104)的离散开关状态和分布式能量资源(106)的连续设定点来降低配电系统中的功率损耗,使得由无功功率资源提供的无功功率减小功率损耗,同时可选地校正 当电容器组(104)根据相应的离散开关状态和分布式能量资源(106)被设置为在相应的连续设定点处操作时,配电系统中的电压违规。 基于考虑中的每个分布式能源(106)的最大和最小无功功率限制来限制连续设定点的值的范围。
    • 8. 发明申请
    • METHOD FOR BINDING SECURE DEVICE TO A WIRELESS PHONE
    • 将安全设备绑定到无线电话的方法
    • WO2011029211A1
    • 2011-03-17
    • PCT/CN2009/001010
    • 2009-09-08
    • AXALTO SMART CARDS TECHNOLOGY CO., LTDLI, RuifengOUYANG, JingZHANG, BinYANG, Fang
    • LI, RuifengOUYANG, JingZHANG, BinYANG, Fang
    • H04W12/00
    • H04L67/16H04L67/34H04W4/02H04W12/12
    • The present invention provides a method for binding a (smart) secure device (2) to a wireless phone, said wireless phone comprising an identifier parameter, said secure device (2) being adapted to communicate with an Over-The-Air (OTA) server and being suitable for receiving services from a network operator in an authorised area determined with localisation parameters stored in the OTA server, wherein the method comprises the following steps : a. storing the identifier parameter of the wireless phone into the secure device (2) at a first powering on of the wireless phone; b. requesting a user registration on the OTA server so as to download the localisation parameters from the OTA server into the secure device (2). After successful registration confirmation from OTA server, for each powering on, the secure device (2) compares the above two parameters in the secure device (2) with the values from the phone, if they are not the same, authentication is forbidden.
    • 本发明提供了一种用于将(智能)安全设备(2)绑定到无线电话的方法,所述无线电话包括标识符参数,所述安全设备(2)适于与无线电(OTA)通信, 服务器,并且适合于在由OTA服务器中存储的定位参数确定的授权区域中从网络运营商接收服务,其中该方法包括以下步骤:a。 在无线电话的第一次接通时将无线电话的标识符参数存储到安全设备(2)中; 湾 在OTA服务器上请求用户注册,以便将定位参数从OTA服务器下载到安全设备(2)中。 在OTA服务器成功注册确认之后,安全设备(2)对于每个上电,将安全设备(2)中的上述两个参数与来自电话的值进行比较,如果不相同,则禁止认证。
    • 10. 发明申请
    • METHOD AND APPARATUS FOR MANAGING DEMAND RESPONSE RESOURCES IN A POWER DISTRIBUTION NETWORK
    • 用于管理电力分配网络中需求响应资源的方法和装置
    • WO2014164220A1
    • 2014-10-09
    • PCT/US2014/021322
    • 2014-03-06
    • ABB TECHNOLOGY AGMOHAGHEGHI, SalmanYANG, Fang
    • MOHAGHEGHI, SalmanYANG, Fang
    • H02J3/14
    • H02J4/00H02J3/005H02J3/14H02J2003/003H02J2003/007Y02B70/3225Y02E60/76Y04S10/54Y04S20/222Y04S40/22
    • In one aspect of the teachings herein, demand responsive loads are selected for involvement in a given DR event using an advantageous approach to selection that is based on using a mathematical network model to evaluate power loss in a power distribution network as a function of different combinations of demand responsive load selections and corresponding load reduction values. The mathematical network model comprises a mathematical representation of the power distribution network as a multi-phase unbalanced distribution network, including mathematical representations of the physical components in the power distribution network and the connecting relationships of those components. As overall power loss in the system is a function of different combinations of demand responsive load selections, the mathematical network model is used to evaluate system power loss under different demand response load selections, in a manner that automatically accommodates mesh networks and other complex network topologies, distributed generation sources, etc.
    • 在本文的教导的一个方面,选择需求响应负载用于参与给定DR事件,使用有利的选择方法,其基于使用数学网络模型来评估功率分配网络中的功率损耗作为不同组合的函数 的需求响应负载选择和相应的负载减少值。 数学网络模型包括作为多相不平衡分配网络的配电网络的数学表示,包括配电网络中的物理组件的数学表示以及这些组件的连接关系。 由于系统中的总体功率损耗是需求响应负载选择的不同组合的函数,因此数学网络模型用于评估不同需求响应负载选择下的系统功率损耗,以自动适应网状网络和其他复杂网络拓扑结构 ,分布式发电源等