[ { "title": "", "publication_date": "2018/02/06", "number": "", "url": "/2018/06/02/2015-04-08-method-and-system-for-sensitive-data-abstraction2/", "abstract": "", "owner": "", "owner_city": "", "owner_country": "" }, { "title": "Execution plan generator and execution engine for interfacing with application programming interfaces", "publication_date": "2015/01/10", "number": "09424112", "url": "/2015/10/01/execution-plan-generator-and-execution-engine-for-interfacing-with-application-programming-interfaces/", "abstract": "Embodiments for a method of interfacing with a remote application programming interface (API) by defining an execution plan using an interface definition language and a dependency configuration file to generate a constrained directed graph of hierarchically dependent functions of the API, and executing the execution plan using an executing engine that traverses the graph to call the API functions in a defined order and convert data output by a parent function call to input required by a child function call until a terminal vertex is reached that results in directing the resulting in an action such as data to persist and/or affecting the state of a system.", "owner": "EMC Corporation", "owner_city": "Hopkinton", "owner_country": "US" }, { "title": "Systems and methods for interaction-based analysis and visualization of remote collaboration sessions", "publication_date": "2015/31/08", "number": "09646655", "url": "/2015/08/31/systems-and-methods-for-interactionbased-analysis-and-visualization-of-remote-collaboration-sessions2/", "abstract": "Systems and methods of performing a process are provided, including receiving a live document video stream of a remote collaboration session, detecting a cursor action in the live document video stream, classifying the detected cursor action into an action category, detecting key frames of the live document video stream, indexing the detected key frames based on the action category, detecting a keyword in the indexed key frames, indexing the key frames using the category, visualizing the cursor action in the key frames based on the action category, and displaying the visualized cursor action.", "owner": "FUJI XEROX CO., LTD.", "owner_city": "Tokyo", "owner_country": "JP" }, { "title": "System for wireless, motion and position-sensing, integrating radiation sensor and energy harvester for occupational and environmental dosimetry", "publication_date": "2015/10/06", "number": "09417331", "url": "/2015/06/10/system-for-wireless-motion-and-positionsensing-integrating-radiation-sensor-and-energy-harvester-for-occupational-and-environmental-dosimetry/", "abstract": "Described are a method and apparatus for determining based on motion data when an individual wearing a dosimeter is active. Also described are a method and apparatus for determining based on motion data whether an individual was wearing a dosimeter when the dosimeter was exposed to radiation. Also described are a method and apparatus for determining based on motion data whether a dosimeter was in a particular location when the dosimeter was exposed to radiation. Also described are a method and apparatus for determining based on motion data where on the body of an individual the individual was wearing a dosimeter when the dosimeter was exposed to radiation. Also described are a method and apparatus for determining based on motion data the probability that an individual is wearing a dosimeter that is assigned to the individual.", "owner": "LANDAUER, INC.", "owner_city": "Glenwood", "owner_country": "US" }, { "title": "Wireless, motion and position-sensing, integrating radiation sensor for occupational and environmental dosimetry", "publication_date": "2015/05/06", "number": "09429661", "url": "/2015/06/05/wireless-motion-and-positionsensing-integrating-radiation-sensor-for-occupational-and-environmental-dosimetry/", "abstract": "Described is a radiation dosimeter including multiple sensor devices (including one or more passive integrating electronic radiation sensor, a MEMS accelerometers, a wireless transmitters and, optionally, a GPS, a thermistor, or other chemical, biological or EMF sensors) and a computer program for the simultaneous detection and wireless transmission of ionizing radiation, motion and global position for use in occupational and environmental dosimetry. The described dosimeter utilizes new processes and algorithms to create a self-contained, passive, integrating dosimeter. Furthermore, disclosed embodiments provide the use of MEMS and nanotechnology manufacturing techniques to encapsulate individual ionizing radiation sensor elements within a radiation attenuating material that provides a “filtration bubble” around the sensor element, the use of multiple attenuating materials (filters) around multiple sensor elements, and the use of a software algorithm to discriminate between different types of ionizing radiation and different radiation energy.", "owner": "LANDAUER, INC.", "owner_city": "Glenwood", "owner_country": "US" }, { "title": "Consultation among feedback instances", "publication_date": "2015/31/03", "number": "09524200", "url": "/2015/03/31/consultation-among-feedback-instances/", "abstract": "Concepts and technologies disclosed herein are directed to consultation among feedback instances. According to one aspect, a system can receive a feedback instance consultation request for a consultation among an original feedback instance and a target feedback instance. The target feedback instance can be consulted with by the original feedback instance to enable the original feedback instance to cure a deficiency. The system can examine the feedback instance consultation request to determine if a match exists with an application programming interface associated with a target feedback instance model upon which the target feedback instance is based. If examination of the feedback instance consultation request determines that a match exists, the system can update the target feedback instance model with an intercommunication plan by which the consultation can occur. The system also can update an original feedback instance model upon which the original feedback instance is based.", "owner": "AT&T Intellectual Property I, L.P.", "owner_city": "Atlanta", "owner_country": "US" }, { "title": "Technologies for offloading and on-loading data for processor/coprocessor arrangements", "publication_date": "2015/27/03", "number": "09626227", "url": "/2015/03/27/technologies-for-offloading-and-onloading-data-for-processorcoprocessor-arrangements2/", "abstract": "Technologies for transferring offloading or on-loading data or tasks between a processor and a coprocessor include a computing device having a processor and a sensor hub that includes a coprocessor. The coprocessor receives sensor data associated with one or more sensors and detects events associated with the sensor data. The coprocessor determines frequency, resource usage cost, and power state transition cost for the events. In response to an offloaded task request from the processor, the coprocessor determines an aggregate load value based on the frequency, resource usage cost, and power state transition cost, and determines whether to accept the offloaded task request based on the aggregate load value. The aggregate load value may be determined as an exponential moving average. The coprocessor may determine whether to accept the offloaded task request based on a principal component analysis of the events. Other embodiments are described and claimed.", "owner": "Intel Corporation", "owner_city": "Santa Clara", "owner_country": "US" } ]