Patents Examined by Edward Raymond
-
Patent number: 10132625Abstract: The present invention belongs to the technical field of irrigation and water conservancy, and discloses a method for acquiring anisotropic basin surface roughness and use thereof.Type: GrantFiled: November 27, 2015Date of Patent: November 20, 2018Assignee: CHINA INSTITUTE OF WATER RESOURCES AND HYDROPOWER RESEARCHInventors: Shaohui Zhang, Di Xu, Yinong Li, Meijian Bai, Fuxiang Li
-
Patent number: 10134256Abstract: In one aspect of the disclosed implementations, a device includes one or more motion sensors for sensing motion of the device and providing activity data indicative of the sensed motion. The device also includes one or more processors for monitoring the activity data, and receiving or generating annotation data for annotating the activity data with one or more markers or indicators to define one or more characteristics of an activity session. The device also includes one or more feedback devices for providing feedback, a notice, or an indication to a user based on the monitoring. The device further includes a portable housing that encloses at least portions of the motion sensors, the processors and the feedback devices.Type: GrantFiled: February 8, 2017Date of Patent: November 20, 2018Assignee: Fitbit, Inc.Inventors: James Park, Shelten Gee Jao Yuen, Eric Nathan Friedman, Christine Boomer Brumback
-
Patent number: 10132828Abstract: An acceleration predictor and method including at least one digital smoothing filter capable of calculating at least one acceleration estimate. In one or more embodiments, the estimator may include an overlay, an acceleration heat map, at least one threshold, wherein each acceleration heat map covers a range of a plurality of tool string components, a scroll bar, visual indications that may be color coded, or a maximum acceleration value.Type: GrantFiled: September 2, 2014Date of Patent: November 20, 2018Assignee: Halliburton Energy Services, Inc.Inventor: Nazareth Sarkis Bedrossian
-
Patent number: 10133263Abstract: Defect inspection methods and systems that use process conditions to dynamically determine how to perform defect inspections during a semiconductor manufacturing process are disclosed. A defect inspection method may include: obtaining process conditions from a process tool utilized to process at least one wafer; determining whether to perform defect inspection of a layer, a wafer, or a high risk area/spot within the at least one wafer based on the process conditions obtained; bypassing the defect inspection when it is determined not to perform the defect inspection; and performing the defect inspection after the at least one wafer is processed by the process tool when it is determined to perform the defect inspection.Type: GrantFiled: August 18, 2015Date of Patent: November 20, 2018Assignee: KLA-Tencor CorporationInventor: Poh Boon Yong
-
Patent number: 10126210Abstract: Raw data from chambers is received. Based on received raw data, if a fault exists in operations of the chambers is detected. The detecting includes at least one of operations outlined below. Sigma values respectively corresponding to the chambers are generated based on the raw data of the chambers. A determination is made to determine whether a sigma ratio corresponding to the sigma values is smaller than a threshold value. Mean outlier indexes respectively corresponding to the chambers is generated by executing a mean matching process for the chambers in a condition that the sigma ratio is smaller than the threshold value. One of the chambers, which has a worst first mean outlier index of the first mean outlier indexes, is identified as a target chamber having fault operation.Type: GrantFiled: May 12, 2016Date of Patent: November 13, 2018Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Chia-Jen Chou, Yu-Jhen Liu, Yi-Ting Tsai, Jo-Ling Pan
-
Patent number: 10126369Abstract: A secondary battery capacity measurement system includes a data convertor, an SOC computer, and a maximum capacity computer. The data convertor determines a partial derivative characteristic curve of a capacity-to-voltage derivative over voltage, the partial derivative characteristic curve indicating a characteristic of a capacity-to-voltage derivative, from a set of historical data of time-sequentially-measured values of voltage and current. The SOC computer computes a difference between the partial derivative characteristic curve and a reference derivative curve indicating a reference characteristic of the capacity-to-voltage derivative, and fits the partial derivative characteristic curve to the reference derivative curve by reducing the difference to estimate an SOC. The maximum capacity computer estimates a maximum value of capacity, from the partial derivative characteristic curve and the reference derivative curve.Type: GrantFiled: August 19, 2015Date of Patent: November 13, 2018Assignee: Yokogawa Electric CorporationInventors: Soichiro Torai, Masaru Nakagomi
-
Patent number: 10119712Abstract: A room condition monitor (RCM) that includes a processor with an embedded router software object that is in signal communication with a first communication connector including BACnet/IP interface for the transmission receipt of data packages over a building management system (BMS) communication network according to a BACnet/IP protocol. The RCM also includes a room condition sensor for detecting a room condition. In addition, the RCM includes a projected capacitive LCD screen display to display information regarding the detected room condition, or other building information associated with the BMS. A second communication connector with a second network protocol interface is provided for communication with network legacy devises through the RCM router.Type: GrantFiled: October 21, 2016Date of Patent: November 6, 2018Assignee: Setra SystemsInventors: Paul Francis Grosshart, Gino Amaro Pinto, Eric Christopher Beishline, Sunil Barot, Kevin Bourbeau, Anthony T. Batista, Shawn Oscar Henry, Brandon Thomas Rogers, Bernard A. Manning, II
-
Patent number: 10113570Abstract: A monitoring system is for in-situ monitoring of a state of a hydraulic system. A hydraulic fluid inlet is coupled to the hydraulic system. A hydraulic fluid outlet is coupled to the hydraulic system. A hydraulic circuit is between the inlet and the outlet. A sensor unit is in the hydraulic circuit. The sensor unit is configured for measuring at least one property of the hydraulic fluid within the hydraulic circuit in operational use of the monitoring system. A processor unit reads out at least one output of the at least one sensor unit and determines a condition of the hydraulic fluid running through the hydraulic circuit. The processor unit determines a representative of a state of the hydraulic system based upon the condition of the hydraulic fluid and is coupled to a display device for displaying the representative.Type: GrantFiled: April 9, 2015Date of Patent: October 30, 2018Assignee: Mera ASInventors: Erling Iversen, Dennis Frønsdal
-
Patent number: 10107675Abstract: A system and method are described that can remotely track and monitor real-time parameters of electric motors and/or machines. Data such as vibration, temperature, current, location and more can be tracked regarding electric motors and/or machines in factories or other plant locations. The data can be aggregated and compared with failure data. The data can then be used to predict and prevent future failures or to make other predictions that will be helpful regarding servicing and repairs.Type: GrantFiled: August 19, 2015Date of Patent: October 23, 2018Assignee: Numerex Corp.Inventors: Jeffrey O. Smith, Rodney C. Montrose
-
Patent number: 10105571Abstract: An example system includes one or more sleeves, each configured for attachment to a leg and comprising a pressure sensor, an accelerometer and a magnetometer. A processor processes sensor signals from the pressure sensor, the accelerometer and the magnetometer to estimate action (A) and work (W) using event detections of peak stance and valley swing events associated with leg movement, for optimizing energy efficiency for maintaining a balance of the body leaning forward in a gravity pull-down force, with the periodic upward force of the sequential foot-thrusts with the toes.Type: GrantFiled: October 18, 2016Date of Patent: October 23, 2018Inventor: James C. Solinsky
-
Patent number: 10101188Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for fluid blob tracking. One of the methods includes identifying, by a computer system, a connected fluid phase region in a flow simulation. The method includes tracking, by the computer system, the connected fluid phase region over a first timeframe and a second timeframe. The method also includes determining, by the computer system, movement of the connected fluid phase region from the first timeframe to the second timeframe based on the tracking.Type: GrantFiled: December 29, 2015Date of Patent: October 16, 2018Assignee: Exa CorporationInventors: Bernd Crouse, David M. Freed, Nils Koliha
-
Patent number: 10094881Abstract: The present disclosure discloses a battery fuel gauging system, which includes a battery voltage collecting module and a microprocessor module. An input terminal of the battery voltage collecting module is configured to collect a terminal voltage of the battery. The microprocessor module is configured to receive the terminal voltage and estimate the remaining charge in the battery. The microprocessor module estimates an open-circuit voltage of the battery according to the terminal voltage of the battery and a built-in battery model, and further calculates the battery's remaining charge based on SOC-OCV relations of a typical lithium-ion battery. The present disclosure is capable of maintaining the precision of the battery fuel gauging system and can set the battery fuel gauging system inside or outside of the battery.Type: GrantFiled: July 31, 2013Date of Patent: October 9, 2018Assignee: DONGGUAN CELLWISE MICROELECTRONICS CO., LTD.Inventor: Weili Zhu
-
Patent number: 10091620Abstract: Receiving point of interest zones and alerts on user devices comprises communicating, by a user computing device to a remote computing device, a request for point of interest data corresponding to points of interest within a proximity of the user device; presenting the received point of interest data; identifying a particular point of interest; and outputting an alert regarding the particular point of interest. Receiving point of interest zones on user devices comprises communicating a request for point of interest data; receiving the point of interest data from the remote network device wherein a size of the point of interest zone is determined based on a density of points of interest in the proximity of the user, and wherein the shape of the point of interest zone is expanded in a direction of travel and contracted in the opposite direction; and presenting the received point of interest data.Type: GrantFiled: April 29, 2016Date of Patent: October 2, 2018Assignee: GOOGLE LLCInventors: Debra Lin Repenning, Ray Xiaohang Wang, Yakov Okshtein, Farhan Shamsi, David Singleton, Lixin Zhang, Alan Newberger, Chandrasekhar Thota, Douglas Alexander Gresham, Nicholas Fey, Marcus Alexander Foster, Petra Cross, Andres Morales
-
Patent number: 10091218Abstract: Described is a system for detecting attacks of misinformation on communication networks. Network controllability metrics on a graphical representation of a communication network are computed. Changes in the network controllability metrics are detected, and attack of misinformation on the communication network are detected based on the detected changes in the network controllability metrics.Type: GrantFiled: March 18, 2016Date of Patent: October 2, 2018Assignee: HRL Laboratories, LLCInventors: Gavin D. Holland, Michael D. Howard, Chong Ding
-
Patent number: 10078156Abstract: A technique for characterizing precipitation includes receiving an impedance signal that is indicative of the impedance in a predetermined area on a measurement surface, deriving, on basis of the impedance signal, a first precipitation rate that is descriptive of accumulated mass of precipitation particles falling on the predetermined area during a calculation period, receiving an acoustic signal that is indicative of acoustic impacts caused by the precipitation particles in vicinity of the measurement surface, deriving, on basis of the acoustic signal, a second precipitation rate that is descriptive of accumulated mass of the precipitation particles during the calculation period, and designating, in response to receiving an indication regarding a presence of precipitation, current precipitation type as one of predetermined precipitation types at least in part on basis of a first precipitation indicator value derived on basis of the first and second precipitation rates.Type: GrantFiled: November 14, 2014Date of Patent: September 18, 2018Assignee: TECONER OYInventors: Pauli Nylander, Taisto Haavasoja
-
Patent number: 10068392Abstract: A safety score using video data but without video comprises an input interface and a processor. The input interface is configured to receive sensor data. The processor is configured to provide the sensor data to a safety score determiner, and determine a safety score using the safety score determiner without using inward facing video data, wherein the safety score determiner has been trained using a data set that includes sensor data with inward facing video data. The system for determining a safety score additionally comprises a memory coupled to the processor and configured to provide the processor with instructions.Type: GrantFiled: January 31, 2017Date of Patent: September 4, 2018Assignee: Lytx, Inc.Inventors: Bryon Cook, Niki Kypri
-
Patent number: 10048194Abstract: A system and a method for calculating and assigning an indicative value, such as cetane number, pour point, cloud point and aniline point, of a fraction of an oil sample based on an index calculated and assigned from ultraviolet visible spectroscopy data of the oil sample.Type: GrantFiled: March 3, 2016Date of Patent: August 14, 2018Assignee: Saudi Arabian Oil CompanyInventors: Omer Refa Koseoglu, Adnan Al-Hajji, Gordon Jamieson
-
Patent number: 10043610Abstract: An apparatus detects a free-fall state of an electronic device, determines an orientation of the electronic device with reference to gravity when the free-fall state is detected, and predicts that the electronic device will strike a surface within a critical angle range. The prediction is based on the detection of the free-fall state and on the orientation of the electronic device. An electromagnetic torque is generated within the electronic device that re-orients the electronic device outside the critical angle. The apparatus comprises a processing system, a free-fall sensor coupled to the processing system, an orientation sensor coupled to the processing system, a magnetic-field generator, and a first coil that is electrically coupled to the processing system.Type: GrantFiled: August 19, 2015Date of Patent: August 7, 2018Assignee: Motorola Mobility LLCInventors: Pavana Abhiram Sirimamilla, Martin R. Pais, Maninder S. Sehmbey
-
Patent number: 10037258Abstract: Various embodiments of methods and systems for intelligent thermal power management implemented in a portable computing device (“PCD”) are disclosed. To mitigate or alleviate hysteresis associated with drastic changes in processing speeds for thermally aggressive processing components, embodiments of the solution dynamically adjust performance level floors in view of a temperature reading. Advantageously, embodiments work to manage thermal energy generation based on temperature sensor feedback that is relatively slow to detect temperature changes.Type: GrantFiled: May 16, 2016Date of Patent: July 31, 2018Assignee: QUALCOMM IncorporatedInventors: Adam Cunningham, Kwangyoon Lee, Melanie Oclima
-
Patent number: 10024688Abstract: An angle detection device which includes multiple sensors to output multiple sinusoidal signals having different phases according to the rotation angle of a rotating body; a rotation calculation device to detect the rotation angle based on the multiple sinusoidal signals and detect an amplitude of the multiple sinusoidal signals to output the amplitude of the multiple sinusoidal signals as amplitude signal; and an amplitude comparison device to compare the amplitude signal with a predetermined amplitude target value and output an amplitude error signal indicating the comparison result; wherein the error of amplitude of the multiple sinusoidal signals is corrected by increasing or decreasing a drive input of a sensor driving unit based on the amplitude error signal.Type: GrantFiled: October 8, 2014Date of Patent: July 17, 2018Assignee: Ricoh Company, Ltd.Inventor: Fumihiro Shimizu