会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • DYNAMIC DISTRIBUTED-SENSOR NETWORK FOR FORECASTING EXTERNAL EVENTS
    • 动态分布式传感器网络,用于预测外部事件
    • WO2014035432A3
    • 2014-05-30
    • PCT/US2012053502
    • 2012-08-31
    • NEST LABS INCFILSON JOHN BDANIELS ERIC BMITTLEMAN ADAMNELMES SIERRA LMATSUOKA YOKY
    • FILSON JOHN BDANIELS ERIC BMITTLEMAN ADAMNELMES SIERRA LMATSUOKA YOKY
    • G01W1/00
    • G06Q10/08
    • Systems and methods for forecasting events can be provided. A measurement database can store sensor measurements, each having been provided by a non-portable electronic device with a primary purpose unrelated to collecting measurements from a type of sensor that collected the measurement. A measurement set identifier can select a set of measurements. The electronic devices associated with the set of measurements can be in close geographical proximity relative to their geographical proximity to other devices. An inter-device correlator can access the set and collectively analyze the measurements. An event detector can determine whether an event occurred. An event forecaster can forecast a future event property. An alert engine can identify one or more entities to be alerted of the future event property, generate at least one alert identifying the future event property, and transmit the at least one alert to the identified one or more entities.
    • 可以提供预测事件的系统和方法。 测量数据库可以存储传感器测量,每个传感器测量已经由非便携式电子设备提供,其主要目的与从收集测量的传感器的类型收集测量无关。 测量集标识符可以选择一组测量。 与该组测量相关联的电子设备可以相对于其与其他设备的地理接近度处于紧密的地理位置。 设备间相关器可以访问该集合并集体分析测量结果。 事件检测器可以确定事件是否发生。 事件预报员可以预测未来的事件属性。 警报引擎可以识别要被警告未来事件属性的一个或多个实体,生成识别未来事件属性的至少一个警报,以及将所述至少一个警报发送到所识别的一个或多个实体。
    • 2. 发明申请
    • SMART-HOME DEVICE THAT SELF-QUALIFIES FOR AWAY-STATE FUNCTIONALITY
    • 智能家居设备,可以进行外部功能的自我评估
    • WO2013058968A1
    • 2013-04-25
    • PCT/US2012/058206
    • 2012-09-30
    • NEST LABS, INC.FISHER, Evan J.MATSUOKA, Yoky
    • FISHER, Evan J.MATSUOKA, Yoky
    • G05D23/00
    • G05D23/1904F24F11/30F24F2110/10F24F2120/10
    • A thermostat, includes a housing and an occupancy sensor that is disposed within the housing and configured to detect physical presences of users within a responsive area of the occupancy sensor. The thermostat may also include a processing system that is disposed within the housing and in operative communication with the occupancy sensor. The processing system may be configured to determine, after a trial period, whether to activate an away-state feature by storing indications of how often the occupancy sensor detected physical presences during the trial period, computing an occupancy level for the trial period, comparing the occupancy level to a threshold criterion, determining whether sufficiently true indications of occupancy conditions were sensed by the occupancy sensor during the trial period, and enabling the away-state feature of the thermostat if it is determined that the sufficiently true indications of occupancy conditions were sensed during the trial period.
    • 恒温器包括壳体和占用传感器,所述壳体和占用传感器设置在所述壳体内并且被配置为检测所述占用传感器的响应区域内的用户的物理存在。 恒温器还可以包括处理系统,该处理系统设置在壳体内并与占用传感器可操作地通信。 处理系统可以被配置为在试用期后,通过存储在试用期间检测出物理存在的频率的指示来确定是否激活离开状态特征,计算试用期的占用水平,比较 占用水平达到阈值标准,确定在试用期间占用传感器是否感测到占有率状况的足够真实的指示,以及如果确定感测到充分真实的占用条件的指示,则启用恒温器的离开状态特征 在试用期间。
    • 3. 发明申请
    • DYNAMIC DISTRIBUTED-SENSOR NETWORK FOR FORECASTING EXTERNAL EVENTS
    • 用于预测外部事件的动态分布式传感器网络
    • WO2014035432A2
    • 2014-03-06
    • PCT/US2012/053502
    • 2012-08-31
    • NEST LABS, INC.FILSON, John, B.DANIELS, Eric, B.MITTLEMAN, AdamNELMES, Sierra, L.MATSUOKA, Yoky
    • FILSON, John, B.DANIELS, Eric, B.MITTLEMAN, AdamNELMES, Sierra, L.MATSUOKA, Yoky
    • G06Q10/08
    • G06Q10/08
    • Systems and methods for forecasting events can be provided. A measurement database can store sensor measurements, each having been provided by a non-portable electronic device with a primary purpose unrelated to collecting measurements from a type of sensor that collected the measurement. A measurement set identifier can select a set of measurements. The electronic devices associated with the set of measurements can be in close geographical proximity relative to their geographical proximity to other devices. An inter-device correlator can access the set and collectively analyze the measurements. An event detector can determine whether an event occurred. An event forecaster can forecast a future event property. An alert engine can identify one or more entities to be alerted of the future event property, generate at least one alert identifying the future event property, and transmit the at least one alert to the identified one or more entities.
    • 可以提供用于预测事件的系统和方法。 测量数据库可以存储传感器测量值,每个传感器测量值都由非便携式电子设备提供,其主要目的与收集来自收集测量值的传感器类型的测量值无关。 测量集标识符可以选择一组测量值。 与该组测量相关联的电子设备相对于其与其他设备的地理接近度可以处于接近的地理接近度。 设备间相关器可以访问该设备并共同分析测量结果。 事件检测器可以确定事件是否发生。 事件预报员可以预测未来的事件属性。 警报引擎可以识别要提醒未来事件属性的一个或多个实体,生成识别未来事件属性的至少一个警报,并且将至少一个警报传送给所识别的一个或多个实体。
    • 6. 发明申请
    • AUTO-CONFIGURING TIME-OF-DAY FOR BUILDING CONTROL UNIT
    • 自动配置建筑控制单元的时间
    • WO2012092627A1
    • 2012-07-05
    • PCT/US2012/020088
    • 2012-01-03
    • NEST LABS, INC.MATSUOKA, Yoky
    • MATSUOKA, Yoky
    • F24F11/00
    • G05D23/1919F24F11/30F24F11/52F24F11/65F24F2130/20F24F2221/32G05D23/1917
    • Provided according to some embodiments is a thermostat is capable of discerning the time-of-day without external input. Should the user fail to set the time, the thermostat uses one or more sensors to determine the time-of-day through a variety of techniques. In one example, a light sensor can monitor natural light to understand the cycle of sun with respect to the installation location. From the cycle of natural light a latitude, time-of-year, time-of-day, etc. can be estimated through processing sensor information over time. Should the thermostat have its time manually set or gathered from the network, it would override the estimated time-of-day. Techniques can be used to filter input from the one or more sensors to avoid confusion from other inputs, for example, man-made lighting.
    • 根据一些实施例提供的是恒温器能够识别无需外部输入的时间。 如果用户未能设置时间,恒温器将使用一个或多个传感器通过各种技术来确定时间。 在一个示例中,光传感器可以监测自然光,以了解相对于安装位置的太阳的周期。 从自然光的循环来看,可以通过随时间处理传感器信息来估计纬度,时间,时间等。 如果恒温器有时间从网络手动设置或收集,它将覆盖估计的时间。 技术可以用于过滤来自一个或多个传感器的输入,以避免与其他输入的混淆,例如人造照明。