公开(公告)号：US20160343243A1

公开(公告)日：2016-11-24

申请号：US14718291

申请日：2015-05-21

Applicant: Google Inc.

Inventor： Laura Rabb ,  Yash Modi ,  Timo Bruck ,  Greg Fulco ,  Kenneth Louis Herman

IPC: G08B29/18

CPC classification number: G08B29/185 ,  G08B25/002 ,  G08B29/188 ,  H04L12/2823 ,  H04L12/2829 ,  H04L67/26 ,  H04L69/26

Abstract: A method may receive, in response to a first event, a first sensor data from a first sensor, and receive, in response to the first event, a second sensor data from a second sensor. The method may select, from among a plurality of event profiles, a first event profile. The first event profile may comprise a first condition matching the first sensor data, a second condition matching the second sensor data, and a plurality of conditions which, when met, indicate the occurrence of the first event. Conditions may include a sensor data, a time period, a user data, a sequence of conditions, or a combination of such data. The first event profile may comprise a first event notice to be provided in response to the occurrence of the first event. The method may provide the first event notice to a recipient indicated by the event profile.

Abstract translation: 一种方法可以响应于第一事件接收来自第一传感器的第一传感器数据，并且响应于第一事件接收来自第二传感器的第二传感器数据。 该方法可以从多个事件简档中选择第一事件简档。 第一事件简档可以包括与第一传感器数据匹配的第一条件，与第二传感器数据匹配的第二条件，以及在满足时指示第一事件的发生的多个条件。 条件可以包括传感器数据，时间段，用户数据，条件序列或这种数据的组合。 第一事件简档可以包括响应于第一事件的发生而提供的第一事件通知。 该方法可以向由事件简档指示的接收者提供第一事件通知。

公开(公告)号：US20160302284A1

公开(公告)日：2016-10-13

申请号：US14683420

申请日：2015-04-10

Applicant: Google Inc.

Inventor： Kenneth Louis Herman ,  Bryan James ,  Yash Modi ,  Laura Rabb ,  Michael Lammers ,  Aveek Ravishekhar Purohit ,  Michael Dixon ,  Shankar Iyer

IPC: H05B37/02 ,  H05B33/08

CPC classification number: H05B37/0218 ,  H05B33/0854 ,  H05B37/0227 ,  Y02B20/44

Abstract: A system and method for automatic path light control based on a detected size and classification of motion around the device using passive infrared (PIR) sensor technologies and distributed classification algorithms, and on detected light levels in and around the path area using ambient light sensor (ALS) technologies. By using such sensor data, the path light does not need to be maintained at a fixed value, which may be inadequate or inefficient at times, nor require constant user adjustments. Implementations of the disclosed subject matter enable automatic path light control that can be dynamic and automatically adjusted to fit the environment, the current user characteristics and the current user movements through the environment.

Abstract translation: 基于使用被动红外（PIR）传感器技术和分布式分类算法的检测到的设备周围运动的尺寸和分类的自动路径光控制的系统和方法，以及使用环境光传感器（） ALS）技术。 通过使用这样的传感器数据，路径光不需要保持在固定值，有时可能不足够或低效，也不需要持续的用户调整。 所公开的主题的实现使自动路径光控制能够被动态地和自动地调整以适应环境，当前用户特征和当前用户通过环境的移动。

公开(公告)号：US20160189511A1

公开(公告)日：2016-06-30

申请号：US14991108

申请日：2016-01-08

Applicant: Google Inc.

Inventor： Kevin Charles Peterson ,  Sophie Le Guen ,  Yash Modi ,  Julia Deluliis

IPC: G08B13/24

CPC classification number: G08B13/2491 ,  E05B39/00 ,  E05B47/06 ,  G01P15/00 ,  G07C2009/00769 ,  G08B13/08 ,  G08B25/001 ,  G08B25/008

Abstract: A sensor package is disclosed that includes, a compass, an accelerometer, and an electromagnetic flux tag based open/close sensor. The compass may be activated by a microcontroller in response to an indication of movement detected by an accelerometer. The compass's data may be utilized to determine an orientation for the object such as a door on which the sensor package is situated. The orientation data may indicate that the door is ajar and/or that a second magnetic field is present, suggesting tampering. A notice may be dispatched to a controller for the home security system, a client device, a remote system, etc.

Abstract translation: 公开了一种传感器封装，其包括罗盘，加速度计和基于电磁通量标签的开/关传感器。 响应于由加速度计检测到的运动的指示，罗盘可以由微控制器激活。 罗盘的数据可以用于确定诸如传感器封装所在的门的物体的取向。 取向数据可以指示门是存在的和/或存在第二磁场，这暗示了篡改。 可以将通知发送到家庭安全系统，客户端设备，远程系统等的控制器。

公开(公告)号：US20160187368A1

公开(公告)日：2016-06-30

申请号：US14585257

申请日：2014-12-30

Applicant: Google Inc.

Inventor： Yash Modi ,  Shao-Po Ma

IPC: G01P15/00 ,  G08B29/04 ,  G01P21/00

CPC classification number: G01P15/00 ,  G01P21/00 ,  G08B13/08 ,  G08B29/04 ,  G08B29/28

Abstract: Systems and methods of security are provided, including a sensor having an accelerometer and an electronic compass to generate motion data and position data, respectively, in response to movement of the sensor by a force, a processor communicatively coupled to the sensor, where processor identifies a displacement of the sensor from a mounting position according to the generated motion data and position data that is transmitted to the processor.

Abstract translation: 提供了安全系统和方法，包括具有加速度计和电子罗盘的传感器，以分别响应于传感器通过力的移动而产生运动数据和位置数据，处理器通信地耦合到传感器，其中处理器识别 根据生成的运动数据和发送到处理器的位置数据，传感器从安装位置的位移。

公开(公告)号：US08965587B2

公开(公告)日：2015-02-24

申请号：US14085594

申请日：2013-11-20

Applicant: Google Inc.

Inventor： Yash Modi ,  Yoky Matsuoka ,  Mark Malhotra

IPC: G06F19/00 ,  G05D23/19 ,  F24F11/00

CPC classification number: F24F11/62 ,  F24F11/0012 ,  F24F11/006 ,  F24F11/30 ,  F24F11/64 ,  F24F2011/0063 ,  F24F2110/10 ,  G05B13/04 ,  G05D23/19 ,  G05D23/1919 ,  G06N5/048

Abstract: Embodiments of the invention describe thermostats that use model predictive controls and related methods. A method of controlling a thermostat using a model predictive control may involve determining a parameterized model. The parameterized model may be used to predicted ambient temperature values for an enclosure. A set of radiant heating system control strategies may be selected for evaluation to determine an optimal control strategy from the set of control strategies. To determine the optimal control strategy, a predictive algorithm may be executed, in which each control strategy is applied to the parameterized model to predict an ambient temperature trajectory and each ambient temperature trajectory is processed in view of a predetermined assessment function. Processing the ambient temperature trajectory in this manner may involve minimizing a cost value associated with the ambient temperature trajectory. The radiant heating system may subsequently be controlled according to the selected optimal control strategy.

Abstract translation: 本发明的实施例描述了使用模型预测控制和相关方法的恒温器。 使用模型预测控制来控制恒温器的方法可以包括确定参数化模型。 参数化模型可用于预测外壳的环境温度值。 可以选择一套辐射加热系统控制策略进行评估，以从控制策略集中确定最佳控制策略。 为了确定最佳控制策略，可以执行预测算法，其中每个控制策略被应用于参数化模型以预测环境温度轨迹，并且考虑到预定的评估功能处理每个环境温度轨迹。 以这种方式处理环境温度轨迹可能涉及最小化与环境温度轨迹相关联的成本值。 可以随后根据所选择的最佳控制策略来控制辐射加热系统。

公开(公告)号：US20150029019A1

公开(公告)日：2015-01-29

申请号：US14334233

申请日：2014-07-17

Applicant: Google Inc.

Inventor： Yoky Matsuoka ,  AJ Minich ,  Yash Modi ,  Andrew W. Goldenson

IPC: G08B25/00

CPC classification number: G08B25/008 ,  G06F3/017 ,  G08B17/10 ,  G08B17/113 ,  G08B25/001 ,  G08B25/10

Abstract: Hazard detection systems and methods according to embodiments described herein are operative to enable a user to interface with the hazard detection system by performing a touchless gesture. The touchless gesture can be performed in a vicinity of the hazard detection system without requiring physical access to the hazard detection system. This enables the user to interact with the hazard detection system even if it is out of reach. The hazard detection system can detect gestures and perform an appropriate action responsive to the detected gesture. In one embodiment, the hazard detection system can silence its audible alarm or pre-emptively turn off its audible alarm in response to a detected gesture. Gestures can be detected using one or more ultrasonic sensors, or gestures can be detected using a motion detector in combination with one or more ultrasonic sensors.

Abstract translation: 根据本文描述的实施例的危害检测系统和方法的操作是使用户能够通过执行无接触姿态与危害检测系统相接触。 可以在危险检测系统的附近执行无触摸手势，而不需要物理地访问危害检测系统。 这使得用户能够与危害检测系统进行交互，即使它不能达到。 危害检测系统可以检测手势并且响应于检测到的手势执行适当的动作。 在一个实施例中，危害检测系统可以使其听觉警报静音或者响应于检测到的手势而先预先关闭其声音警报。 可以使用一个或多个超声波传感器检测手势，或者可以使用与一个或多个超声波传感器组合的运动检测器来检测手势。

公开(公告)号：US10712204B2

公开(公告)日：2020-07-14

申请号：US15430256

申请日：2017-02-10

Applicant: Google Inc.

Inventor： Yash Modi ,  Mark Rajan Malhotra ,  Gwendolyn van der Linden ,  Dongeek Shin ,  Michael Dixon

IPC: G01J5/00 ,  G08B13/193 ,  G08B13/191 ,  G01J5/02 ,  G01J5/10

Abstract: A method includes detecting, with a passive infrared sensor (PIR), a level of infrared radiation in a field of view (FOV) of the PIR, generating a signal based on detected levels over a period of time, the signal having values that exhibit a change in the detected levels, extracting a local feature from a sample of the signal, wherein the local feature indicates a probability that a human in the FOV caused the change in the detected levels, extracting a global feature from the sample of the signal, wherein the global feature indicates a probability that an environmental radiation source caused the change in the detected levels, determining a score based on the local feature and the global feature, and determining that a human motion has been detected in the FOV based on the score.

公开(公告)号：US10127785B2

公开(公告)日：2018-11-13

申请号：US14585222

申请日：2014-12-30

Applicant: Google Inc.

Inventor： Kevin Charles Peterson ,  Sophie Le Guen ,  Yash Modi ,  Julia Deiuliis

IPC: G08B13/08 ,  G08B13/24 ,  E05B39/00 ,  E05B47/06 ,  G08B25/00 ,  G07C9/00 ,  G01P15/00

Abstract: A sensor package is disclosed that includes a compass and/or an accelerometer. The compass may be activated by a microcontroller in response to an indication of movement detected by an accelerometer. The compass's data may be utilized to determine an orientation for the object such as a door on which the sensor package is situated. The orientation data may indicate that the door is ajar and/or that a second magnetic field is present, suggesting tampering. A notice may be dispatched to a controller for the home security system, a client device, a remote system, etc.

公开(公告)号：US09952029B2

公开(公告)日：2018-04-24

申请号：US14681744

申请日：2015-04-08

Applicant: Google Inc.

Inventor： Yash Modi ,  Kenneth Louis Herman ,  Kristoffer John Donhowe ,  Lawrence Au ,  Kevin Charles Peterson

IPC: G01R33/09 ,  G01B7/14 ,  G06K9/00 ,  G06T11/60 ,  G08B13/08 ,  G08B13/196 ,  G08B29/18 ,  G08B29/22

CPC classification number: G01B7/14 ,  G06K9/00671 ,  G06T11/60 ,  G08B13/08 ,  G08B13/196 ,  G08B29/183 ,  G08B29/22

Abstract: Systems and techniques are provided for guided installation feedback for an opening sensor. Detected magnetic field strengths of a magnetic field created by a magnet of an opening sensor as detected by a magnetometer sensor of the opening sensor may be received over a time period. It may be determined that there has been a change in the strength of the magnetic field created by the magnet as detected by the magnetometer sensor based on the received detected magnetic field strengths. Accelerometer data from an accelerometer disposed in the magnetometer sensor may be received. It may be determined from the accelerometer data that the magnetometer sensor was not moving and positive feedback may be provided to an installer of the opening sensor, or it may be determined from the accelerometer data that the magnetometer sensor was moving and negative feedback may be provided to the installer of the opening sensor.

公开(公告)号：US09940798B2

公开(公告)日：2018-04-10

申请号：US15428111

申请日：2017-02-08

Applicant: Google Inc.

Inventor： Kevin Charles Peterson ,  Sophie Le Guen ,  Maxime Veron ,  Yash Modi ,  Lawrence Au ,  Mark Rajan Malhotra ,  Julia Deluliis

IPC: G08B13/08 ,  G08B25/00

CPC classification number: G08B13/08 ,  G01R33/02 ,  G08B13/24 ,  G08B25/008

Abstract: A magnet and magnetometer may be integrated into a smart home environment and allow it to be placed into an away mode of operation despite an entry point being semi-open. The disclosed implementations can detect a magnetic field strength and determine, based on the detected field strength, an approximate distance that a moveable partition is open. In some configurations, the presence of a second magnetic source can be detected. A notice may be generated based on one or more signals received from the magnetometer. The notice may be sent to a controller, a remote system, a remote device, and/or a client device as disclosed herein.