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    • 22. 发明申请
    • APPARATUS AND METHOD FOR DEMAND COORDINATION NETWORK CONTROL
    • 用于需求协调网络控制的装置和方法
    • US20160291562A1
    • 2016-10-06
    • US14674057
    • 2015-03-31
    • ENERNOC, INC.
    • HUSAIN AL-MOHSSENANGELA S. BASSARICHARD R. PARADISRandy C. Willig
    • G05B19/048G05B19/10
    • G05B19/048G05B19/106G05B2219/2639G06Q50/00
    • An apparatus including devices, a network operations center (NOC), and control nodes. Each of the devices consumes a portion of a resource when turned on, and performs a corresponding function within an acceptable operational margin by cycling on and off. The NOC is disposed external to a facility, and determines an energy lag for the facility based upon fine-grained energy consumption baseline data. The NOC employs the energy lag to generate a plurality of run time schedules that coordinates run times for the each of the devices to control the peak demand of the resource. Each of the plurality of control nodes is coupled to a corresponding one of the plurality of devices. The plurality of control nodes transmits sensor data and device status to the NOC via the demand coordination network for generation of the plurality of run time schedules, and executes selected ones of the run time schedules to cycle the plurality of devices on and off.
    • 包括设备,网络操作中心(NOC)和控制节点的设备。 每个设备在打开时消耗资源的一部分,并通过循环打开和关闭在可接受的操作余量内执行相应的功能。 NOC设置在设施的外部,并且基于细粒度的能量消耗基准数据来确定设施的能量滞后。 NOC采用能量滞后来生成多个运行时间表,其协调每个设备的运行时间以控制资源的峰值需求。 多个控制节点中的每一个耦合到多个设备中的对应的一个。 多个控制节点通过需求协调网络向NOC发送传感器数据和设备状态,以生成多个运行时间表,并且执行所选择的运行时间计划以使多个设备打开和关闭。
    • 23. 发明授权
    • Apparatus and method for controlling peak energy demand based on a global schedule
    • 基于全球时间表控制峰值能量需求的装置和方法
    • US09268313B2
    • 2016-02-23
    • US13864942
    • 2013-04-17
    • EnerNOC, Inc.
    • Randy C. WilligMatthew B. O'KelleyJeffrey P. MathewsJeffrey G. Reh
    • G05B13/02H02J3/14H02J13/00
    • G05B13/02H02J3/14H02J13/0062H02J13/0075H02J13/0079H02J13/0086Y02B70/3225Y04S20/222
    • An apparatus includes a monitor node and a first control node. The monitor node determines and broadcasts whether a non-system device is consuming an energy resource over a network. The first control node is coupled to the monitor node and a second control node via the network. The first control node has a node processor and a global schedule module. The node processor operates a first energy consuming device to maintain a first local environment. The global schedule module is coupled to the first node processor, and coordinates run times for the first energy consuming device and a second energy consuming device based on a replica copy of a global run time schedule disposed within the first and second control nodes, an adjusted first descriptor set characterizing the first local environment, an adjusted second descriptor set characterizing a second local environment, and energy consumption data broadcast by the monitor node.
    • 一种装置包括监视节点和第一控制节点。 监视器节点确定并广播非系统设备是否在网络上消耗能量资源。 第一控制节点经由网络耦合到监视节点和第二控制节点。 第一控制节点具有节点处理器和全局调度模块。 节点处理器操作第一能量消耗装置以维持第一局部环境。 全局调度模块耦合到第一节点处理器,并且基于布置在第一和第二控制节点内的全局运行时间调度的副本副本来协调第一能量消耗装置和第二能量消耗装置的运行时间, 表征第一本地环境的第一描述符集,表征第二本地环境的经调整的第二描述符集,以及监视节点广播的能量消耗数据。
    • 24. 发明授权
    • Frequency hop sequence discovery mechanism
    • 频跳序列发现机制
    • US09203469B1
    • 2015-12-01
    • US14791149
    • 2015-07-02
    • ENERNOC, INC.
    • Randy C. Willig
    • H04B1/713H04B1/7156G01D4/00
    • H04W24/06G01D4/002G08C15/02H04B1/7156H04B2001/71563H04L41/12H04L63/06H04L63/10H04Q9/00H04Q2209/43H04Q2209/50H04Q2209/60H04W4/80H04W12/08H04W24/08H04W84/18
    • An apparatus including narrowband receivers and a controller. The narrowband receivers are deployed geographically within a grid, where each of the narrowband receivers is configured to receive transmissions from a least one of a plurality of automated meter reading (AMR) meters, and where each of the plurality of AMR meters transmits identical data on each of a plurality of frequency bands that are hopped according to an unknown hopping sequence, but a known hop rate. The controller is coupled to the narrowband receivers, and is configured to control the narrowband receivers such that the each of the plurality of AMR meters is identified, and is configured to control the narrowband receivers such that corresponding data from the each of the AMR meters is received on at least one of the plurality of frequency bands.
    • 一种包括窄带接收机和控制器的设备。 窄带接收机在地面上部署在网格内,其中每个窄带接收机被配置为从多个自动抄表(AMR)仪表中的至少一个接收传输,并且其中多个AMR仪表中的每一个传送相同的数据 根据未知的跳频序列而跳过的多个频带中的每一个,但是已知的跳频。 所述控制器耦合到所述窄带接收机,并且被配置为控制所述窄带接收机,使得所述多个AMR仪表中的每一个被识别,并且被配置为控制所述窄带接收机,使得来自所述每个所述AMR仪表的相应数据为 在多个频带中的至少一个频带上接收。
    • 26. 发明申请
    • DEMAND COORDINATION NETWORK CONTROL NODE
    • 需求协调网络控制节点
    • US20130297091A1
    • 2013-11-07
    • US13864933
    • 2013-04-17
    • EnerNOC, Inc.
    • Randy C. WilligMatthew B. O'KelleyJeffrey P. MathewsJeffrey G. Reh
    • G05B13/02
    • G05B13/02H02J3/14H02J13/0062H02J13/0075H02J13/0079H02J13/0086Y02B70/3225Y04S20/222
    • An apparatus for controlling peak demand of a system of energy consuming devices, including a first control node coupled to a second control node via a demand coordination network. The first control node has a node processor and a global schedule module. The node processor is coupled to a first energy consuming device, and operates the first energy consuming device within an acceptable operating margin to maintain a first local environment by cycling on and off. The global schedule module is coupled to the first node processor, and coordinates run times for the first energy consuming device and a second energy consuming device, where the coordination is based on a replica copy of a global run time schedule disposed within the first and second control nodes, an adjusted first descriptor set characterizing the first local environment, and an adjusted second descriptor set characterizing a second local environment.
    • 一种用于控制能量消耗装置系统的峰值需求的装置,包括通过需求协调网络耦合到第二控制节点的第一控制节点。 第一控制节点具有节点处理器和全局调度模块。 节点处理器耦合到第一能量消耗装置,并且在可接受的操作余量内操作第一能量消耗装置,以通过循环打开和关闭来维持第一局部环境。 全局调度模块耦合到第一节点处理器,并且协调第一能量消耗装置和第二能量消耗装置的运行时间,其中协调基于布置在第一和第二能量消耗装置内的全局运行时间表的副本 控制节点,表征第一本地环境的经调整的第一描述符集,以及表征第二本地环境的经调整的第二描述符集。