Patent application number | Description | Published |
20140156084 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described, including receiving a first input and a second input from one or more sensors coupled to a wearable computing device, processing the first input to determine a pattern, processing the second input to determine an environmental condition, referencing the pattern against a pattern library, the pattern library indicating a threshold for the environmental condition, generating a signal indicating whether the environmental condition exceeds the threshold, and generating a control signal, the control signal configured to initiate execution of an operation if the signal indicates the environmental condition exceeds the threshold. | 06-05-2014 |
20140194782 | POWER MANAGEMENT IN A DATA-CAPABLE STRAPBAND - Embodiments of the invention relates generally to electrical and electronic hardware, computer software, wired and wireless network communications, and computing devices, and more specifically to structures and techniques for managing power generation, power consumption, and other power-related functions in a data-capable strapband, including receiving input from one or more sensors coupled to a wearable computing device, processing the input to determine a pattern, the pattern indicating a threshold clock frequency, and operating a processor coupled to the wearable computing device at a clock frequency above the threshold clock frequency. | 07-10-2014 |
20140195166 | DEVICE CONTROL USING SENSORY INPUT - Techniques for device control using sensory input are described, including receiving input from one or more sensors coupled to a wearable computing device, processing the input to determine a pattern, the pattern associated with a social network, and generating a control signal based on the input, the control signal configured to initiate execution of a social-related activity on the social network. | 07-10-2014 |
20140206289 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described, including detecting a signal configured to initiate a pairing function being transmitted from a wearable computing device to an application, pairing the wearable computing device to the application, establishing a data communication link between the wearable computing device and the application, and configuring the application to transfer data between the wearable computing device and the application. | 07-24-2014 |
20140210640 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described, including setting a goal, the goal comprising a threshold for an activity, receiving input from one or more sensors coupled to a wearable computing device over a time period, processing the input to generate a signal indicating whether the goal is achieved over the time period, generating a control signal, the control signal configured to initiate execution of an operation if the signal indicates the goal is achieved over the time period, and displaying on a user interface in data communication with the wearable computing device a log indicating the activity associated with the input received over the time period. | 07-31-2014 |
20140213872 | DATA-CAPABLE BAND FOR MEDICAL DIAGNOSIS, MONITORING, AND TREATMENT - A system for medical diagnosis, monitoring, and treatment is described, including a medical band comprising one or more sensors configured to gather data associated with at least one symptom of a medical condition and a communications facility configured to communicate with another device, a memory configured to store the data, a notification facility configured to provide a notification, and an application implemented on the another device, the application configured to determine the medical condition using the data and to provide an instruction to the medical band. The notifications may be alarms, may be designed to prompt movement, or may be associated with a drug regimen. | 07-31-2014 |
20140223165 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described, including storing in memory a first operational mode and a second operational mode, the first operational mode being associated with a parameter and being configured to operate on an input received from one or more sensors coupled to a wearable computing device using a rule, setting the second operational mode, receiving data at the wearable computing device, the data comprising the input received from the one or more sensors while in the second operational mode, generating a signal indicating whether the data matches the parameter of the first operational mode substantially within a tolerance, classifying the input as received in the first operational mode if the signal indicates the data matches the parameter substantially within the tolerance, and performing an operation on the input using the rule of the first operational mode. | 08-07-2014 |
20140240144 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described. In some examples, a first wearable device may transmit to a second wearable device a signal configured to initiate detection of a second sensory input to determine whether the second sensory input is equal to or greater than a threshold for an activity. A first sensory input is received from one or more sensors coupled to the first wearable device and compared to the threshold. A first parameter associated with the first sensory input, the first sensory input being equal to or greater than the threshold, is evaluated. A second parameter associated with the second sensory input, the second sensory input being equal to or greater than the threshold, is received from the second wearable device. The first parameter and the second parameter are displayed on a user interface. | 08-28-2014 |
20140243609 | DATA-CAPABLE BAND FOR MEDICAL DIAGNOSIS, MONITORING, AND TREATMENT - A system for medical diagnosis, monitoring, and treatment is described, including a medical band comprising one or more sensors configured to gather data associated with at least one symptom of a medical condition, a memory configured to store the data and an application, the application being configured to determine the medical condition using the data, a processor configured to execute the application, and a notification facility configured to provide a notification upon receiving from the application an instruction associated with the notification, wherein the notification is associated with a drug regimen. | 08-28-2014 |
20140243637 | DATA-CAPABLE BAND FOR MEDICAL DIAGNOSIS, MONITORING, AND TREATMENT - A system for medical diagnosis, monitoring, and treatment is described, including a medical band comprising one or more sensors configured to gather data associated with at least one symptom of a medical condition, a memory configured to store the data and an application, the application being configured to determine the medical condition using the data, a processor configured to execute the application, and a notification facility configured to provide a notification upon receiving from the application an instruction associated with the notification, wherein the notification is associated with a diet. | 08-28-2014 |
20140266780 | MOTION PROFILE TEMPLATES AND MOVEMENT LANGUAGES FOR WEARABLE DEVICES - Techniques for motion profiles in wearable devices are described, including receiving motion-related data, user-related data, and environmental-related data from one or more sensors coupled to one or more wearable devices, forming a motion profile using the motion-related data, determining an activity using the motion profile, the user-related data, and the environmental-related data, the activity comprising sleep, and setting a mode of operation of one of the one or more wearable devices to a sleep mode, the mode of operation being configured to be set to one of the sleep mode and another mode. A sampling rate of one of the one or more sensors in the sleep mode may be set to be lower than the sampling rate of the one of the one or more sensors in the another mode. | 09-18-2014 |
20140267148 | PROXIMITY AND INTERFACE CONTROLS OF MEDIA DEVICES FOR MEDIA PRESENTATIONS - Embodiments relate generally to electrical/electronic hardware, computer software, wired and wireless network communications, portable, wearable, and stationary media devices. RF transceivers and/or audio system in each media device may be used to wirelessly communicate between media devices and allow configuration and other data to be wirelessly transmitted from one media device to another media device. The proximity detection system may be configured to detect a presence of a user or multiple users and upon detecting presence, access content on a user device, and record the content while also playing back the content on the media device. One or more user devices in proximity of the media device post detection may wirelessly communicate with the media device and the media device may orchestrate handling and/or queuing of content from those devices or from a wirelessly accessible location such as the Cloud, Internet, NAS, Flash memory, or other wireless sources. | 09-18-2014 |
20140269508 | BLUETOOTH VIRTUALISATION - Embodiments of the present application relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, Bluetooth systems, RF systems, self-powered wireless devices, and consumer electronic (CE) devices. More specifically the present application relates to provision of networked based services to Bluetooth-enabled devices. The present application describes a very low-cost, multi-purpose, rapidly re-purposable Bluetooth node that may sit at the edge of a network and may be configured to allow a network system to dynamically add and remove different Bluetooth capabilities and allow for a much higher level of management of Bluetooth devices that are interacting with the network. | 09-18-2014 |
20140270187 | FILTER SELECTION FOR DELIVERING SPATIAL AUDIO - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and audio and speaker systems. More specifically, disclosed are an apparatus and a method for processing signals for optimizing audio, such as 3D audio, by adjusting the filtering for cross-talk cancellation based on listener position and/or orientation. In one embodiment, an apparatus is configured to include a plurality of transducers, a memory, and a processor configured to execute instructions to determine a physical characteristic of a listener relative to the origination of the multiple channels of audio, to cancel crosstalk in a spatial region coincident with the listener at a first location, to detect a change in the physical characteristic of the listener, and to adjust the cancellation of crosstalk responsive to detecting the change in the physical characteristic to establish another spatial region at a second location. | 09-18-2014 |
20140270188 | SPATIAL AUDIO AGGREGATION FOR MULTIPLE SOURCES OF SPATIAL AUDIO - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and audio and speaker systems. More specifically, disclosed are an apparatus and a method for processing signals for optimizing audio, such as 3D audio, by adjusting the filtering for cross-talk cancellation based on listener position and/or orientation. In one embodiment, an apparatus is configured to include a plurality of transducers, a memory, and a processor configured to execute instructions to determine a physical characteristic of a listener relative to the origination of the multiple channels of audio, to cancel crosstalk in a spatial region coincident with the listener at a first location, to detect a change in the physical characteristic of the listener, and to adjust the cancellation of crosstalk responsive to detecting the change in the physical characteristic to establish another spatial region at a second location. | 09-18-2014 |
20140270259 | SPEECH DETECTION USING LOW POWER MICROELECTRICAL MECHANICAL SYSTEMS SENSOR - Devices and techniques for speech detection using low power microelectrical mechanical systems (MEMS) sensor are described, including a power source, a voice activity detection device connected to the power source and having a microelectrical mechanical system sensor formed on die with a digital signal processor and a voice activity detection logic, and a host system connected to the power source and the voice activity detection device, the host system having sensors, a power manager configured to control power being consumed by the host system according to various power modes, and a speech recognition module, where the voice activity detection device is configured to provide a signal to the host system indicating the presence of speech. | 09-18-2014 |
20140270260 | SPEECH DETECTION USING LOW POWER MICROELECTRICAL MECHANICAL SYSTEMS SENSOR - Devices and techniques for speech detection using low power microelectrical mechanical systems (MEMS) sensor are described, including monitoring acoustic energy using a microelectrical mechanical system sensor, detecting a presence of speech using a voice activity detection device comprising a voice activity detection logic and the microelectrical mechanical system sensor formed on die, switching a host system from a first power mode to a second power mode, using a power manager, upon receiving a signal from the voice activity detection device indicating a presence of speech, the host system comprising one or more sensors and a speech recognition module configured to recognize a speech command, and taking an action in response to the speech command. | 09-18-2014 |
20140270698 | PROXIMITY-BASED CONTROL OF MEDIA DEVICES FOR MEDIA PRESENTATIONS - Embodiments relate generally to electrical/electronic hardware, computer software, wired and wireless network communications, portable, wearable, and stationary media devices. RF transceivers and/or audio system in each media device may be used to wirelessly communicate between media devices and allow configuration and other data to be wirelessly transmitted from one media device to another media device. The proximity detection system may be configured to detect a presence of a user or multiple users and upon detecting presence, access content on a user device, and record the content while also playing back the content on the media device. One or more user devices in proximity of the media device post detection may wirelessly communicate with the media device and the media device may orchestrate handling and/or queuing of content from those devices or from a wirelessly accessible location such as the Cloud, Internet, NAS, Flash memory, or other wireless sources. | 09-18-2014 |
20140273848 | DATA-CAPABLE BAND MANAGEMENT IN AN INTEGRATED APPLICATION AND NETWORK COMMUNICATION DATA ENVIRONMENT - Techniques for data-capable band management in an integrated application and network communication data environment are described, including receiving input from one or more sensors coupled to a wearable computing device, processing the input to generate a control signal, the control signal being configured to initiate execution of one or more operations of a device in data communication with the wearable computing device, and initiating a data communication protocol, the data communication protocol being configured to transmit the control signal from the wearable computing device to the device. | 09-18-2014 |
20140273851 | NON-CONTACT VAD WITH AN ACCELEROMETER, ALGORITHMICALLY GROUPED MICROPHONE ARRAYS, AND MULTI-USE BLUETOOTH HANDS-FREE VISOR AND HEADSET - Electronic hardware, software, wired and/or wireless network communications, Bluetooth systems, RF systems, self-powered wireless devices, signal processing, audio transducers, accelerometers, and consumer electronic (CE) devices for a wireless portable headset and a portable wireless speaker phone that the wireless portable headset docks with and communicates with are disclosed. The headset and speaker phone may wirelessly communicate with each other (e.g., Bluetooth radios or other) when docked, un-docked, or both. When docked, an internal rechargeable power source in the speaker phone may recharge another internal rechargeable power source in the headset (e.g., rechargeable Lithium-Ion type batteries). A USB connector or the like may be used to electrically communicate power between the internal rechargeable power sources and may communicate other signals, such as signals from one or more microphones to form a microphone array (e.g., when docked). Magnet(s) may be used to facilitate/retain docking of the headset with the speaker phone. | 09-18-2014 |
20140278208 | FEATURE EXTRACTION AND CLASSIFICATION TO DETERMINE ONE OR MORE ACTIVITIES FROM SENSED MOTION SIGNALS - Embodiments of the invention relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In at least some embodiments, an apparatus can include a wearable housing, and a motion sensor configured to generate a motion sensor signal. The apparatus also may include a motion processor configured to generate intermediate motion signals from the motion sensor signal, and an activity processor configured to identify an activity based on the intermediate motion signals. | 09-18-2014 |
20140288441 | SENSING PHYSIOLOGICAL CHARACTERISTICS IN ASSOCIATION WITH EAR-RELATED DEVICES OR IMPLEMENTS - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing and audio devices for monitoring health and wellness. More specifically, disclosed are an apparatus and a method for processing signals representing physiological characteristics sensed from tissue at or adjacent an ear of an organism. In one or more embodiments, a wearable device includes a sensor terminal and a physiological sensor coupled to the sensor terminal to sense one or more signals originating at the sensor terminal. The wearable device may also include a radio frequency (“RF”) communications interface. Also, the wearable device can include a processor configured to cause generation of data representing a physiological characteristic of the organism. | 09-25-2014 |
20140288447 | EAR-RELATED DEVICES IMPLEMENTING SENSORS TO ACQUIRE PHYSIOLOGICAL CHARACTERISTICS - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing and audio devices for monitoring health and wellness. More specifically, disclosed are an apparatus and a method for processing signals representing physiological characteristics sensed from tissue at or adjacent an ear of an organism. In one or more embodiments, a wearable device includes one or more sensor terminals, one or more physiological sensors configured to sense one or more signals originating at the one or more sensor terminals. At least one sensor terminal includes a pressure-sensitive terminal configured to detect a pressure exerted by a portion of tissue of an organism and generate a pressure signal representing a value of the pressure. Further, the wearable device can include a processor configured to cause generation of data representing a physiological characteristic of the organism based on the pressure signal. | 09-25-2014 |
20140288870 | INLINE CALIBRATION OF MOTION SENSOR - Embodiments of the invention relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In at least one embodiment, a method includes receiving data representing a motion sensor signal and determining whether the wearable device is in a still state. The method also can include calibrating the motion sensor signal in-situ to form a calibrated motion signal, generating intermediate motion signals based on the calibrated motion sensor signal, and identifying an activity based on the intermediate motion signals. | 09-25-2014 |
20140288875 | METHODS AND ARCHITECTURE FOR DETERMINING ACTIVITY AND ACTIVITY TYPES FROM SENSED MOTION SIGNALS - Embodiments of the invention relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In at least some embodiments, an apparatus can include a wearable housing, and a motion sensor configured to generate a motion sensor signal. The apparatus also may include a motion processor configured to generate intermediate motion signals from the motion sensor signal, and an activity processor configured to identify an activity based on the intermediate motion signals. | 09-25-2014 |
20140288876 | DYNAMIC CONTROL OF SAMPLING RATE OF MOTION TO MODIFY POWER CONSUMPTION - Embodiments of the relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In one embodiment, an apparatus can include a wearable housing and a motion sensor. The apparatus can also include a signal preprocessor, which may include a sample rate controller configured to modify a sample rate of a motion sensor signal to form an adjusted sample rate with which to sample the motion sensor signal. Further, the apparatus can include an intermediate motion signal generator and an activity processor configured to identify an activity based on the intermediate motion signals. | 09-25-2014 |
20140288877 | INTERMEDIATE MOTION SIGNAL EXTRACTION TO DETERMINE ACTIVITY - Embodiments of the relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In some embodiments, a method can include receiving data representing a motion sensor signal from a motion sensor disposed in a wearable device, and generating intermediate motion signals from the motion sensor signal. The method can also include separating the motion sensor signal at a processor to form one or more constituent components, and identifying an activity based on at least one of the intermediate motion signals and at least one of the one or more constituent components. | 09-25-2014 |
20140288878 | IDENTIFICATION OF MOTION CHARACTERISTICS TO DETERMINE ACTIVITY - Embodiments of the relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices for facilitating health and wellness-related information. More specifically, disclosed are systems, methods, devices, computer readable medium, and apparatuses configured to determine activity and activity types, including gestures, from sensed motion signals using, for example, a wearable device (or carried device) and one or more motion sensors. In some embodiments, a method can include receiving data representing a motion sensor signal from a motion sensor disposed in a wearable device, and generating intermediate motion signals from the motion sensor signal. The method also can include identifying characteristics of motion based on the intermediate motion signals to form motion characteristics data, and determining an activity based the motion characteristics data. | 09-25-2014 |
20140303900 | MOTION PROFILE TEMPLATES AND MOVEMENT LANGUAGES FOR WEARABLE DEVICES - Techniques for determining a state of a user using wearable devices are described, including receiving motion-related data from a first sensor and user-related data from a second sensor over a time period, determining a plurality of states of a user over the time period as a function of the motion-related data and the user-related data, determining a trend as a function of the plurality of states of the user, and displaying information associated with the trend at a user interface. The first sensor and the second sensor may be coupled to a wearable device. The user-related data may include galvanic skin response data. The information associated with the trend may be displayed at a web browser. | 10-09-2014 |
20140306821 | MOTION PROFILE TEMPLATES AND MOVEMENT LANGUAGES FOR WEARABLE DEVICES - Techniques for determining a state of a user using wearable devices are described, including receiving motion-related data from a first sensor and user-related data from a second sensor, determining a state of a user as a function of the motion-related data and the user-related data, and displaying a graphic associated with the state of the user at a graphical user interface. The first sensor and the second sensor may be coupled to a wearable device. The user-related data may include galvanic skin response data. The graphic associated with the state of the user may be displayed at a web browser. | 10-16-2014 |
20140348351 | STRUCTURES FOR DYNAMICALLY TUNED AUDIO IN A MEDIA DEVICE - Techniques associated with structures for dynamically tuned audio in a media device are described, including receiving data associated with an acoustic output, determining a target frequency response associated with an audio device, the audio device implemented with a hybrid radiator formed using a smart fluid or artificial muscle material, determining a value associated with a property of the smart fluid or artificial muscle material, calculating, using a dynamic tuning application, a magnitude of an external stimulus associated with the value, and sending a control signal to a source, the control signal configured to cause the source to apply the external stimulus, an application of the external stimulus of the determined magnitude configured to change the property of the smart fluid or artificial muscle material. | 11-27-2014 |
20150026498 | POWER MANAGEMENT IN A DATA-CAPABLE STRAPBAND - Embodiments of the invention relates generally to electrical and electronic hardware, computer software, wired and wireless network communications, and computing devices, and more specifically to structures and techniques for managing power generation, power consumption, and other power-related functions in a data-capable strapband. Embodiments relate to a band including sensors, a controller coupled to the sensors, an energy storage device, a connector configured to receive power and control signals, and a power manager. The power manager includes at least a transitory power manager configured to manage power consumption of the band during a first power mode and a second mode. The band can be configured as a wearable communications device and sensor platform. | 01-22-2015 |
20150029067 | RF SIGNAL PICKUP FROM AN ELECTRICALLY CONDUCTIVE SUBSTRATE UTILIZING PASSIVE SLITS - Embodiments of the present application relate generally to electronic hardware, computer software, wireless communications, network communications, wearable, hand-held, and portable computing devices for facilitating communication of information and presentation of media. An electrically conductive substrate (e.g., a metal or metal alloy) includes an antenna formed by a slot or opening formed in the substrate, and also includes at least one separate passive slot or opening (e.g., a passive slit) formed in the substrate. The antenna may be intentionally detuned from one or more target frequencies (e.g., 802.11, 2.4 GHz, 5 GHz) such that the antenna is not optimized (e.g., is not tuned) for the one or more target frequencies. One portion of the antenna may be electrically coupled with a ground potential. Another portion of the antenna may be electrically coupled with a RF receiver, transmitter, or transceiver. The antenna may be an active antenna, a passive antenna or both. | 01-29-2015 |
20150031287 | RADIO SIGNAL PICKUP FROM AN ELECTRICALLY CONDUCTIVE SUBSTRATE UTILIZING PASSIVE SLITS - Embodiments of the present application relate generally to electronic hardware, computer software, wireless communications, network communications, wearable, hand held, and portable computing devices for facilitating communication of information and presentation of media. An electrically conductive substrate, such as a sheet of metal or metal alloy, for example, includes an active antenna formed by a slot or opening formed in the substrate, and also includes at least one separate passive slot or opening (e.g., a passive slit) formed in the substrate. The active antenna may be intentionally detuned from one or more target frequencies (e.g., 802.11, 2.4 GHz, 5 GHz) such that the active antenna is not optimized (e.g., is not tuned) for the one or more target frequencies. One portion of the active antenna may be electrically coupled with a ground potential. Another portion of the active antenna may be electrically coupled with a RF receiver, transmitter, or transceiver. | 01-29-2015 |
20150036760 | RF ARCHITECTURE UTILIZING A MIMO CHIPSET FOR NEAR FIELD PROXIMITY SENSING AND COMMUNICATION - A re-configurable RF architecture includes both a 2×2 MIMO mode and a 1×2 MIMO mode The 2×2 MIMO mode includes a first RF chain coupled with a first dual band antenna and configured to both transmit (Tx) and receive (Rx) using two different RF protocols. The 2×2 MIMO mode also includes a second RF chain coupled with a second dual band antenna and configured to both Tx and Rx using a single RF protocol. The first RF chain may be coupled with a third antenna configured for near field proximity sensing. The RF architecture is reversibly switchable from the 2×2 MIMO mode to the 1×2 MIMO mode when near field proximity detection is required. In the 1×2 MIMO mode the Tx/Rx capabilities of the second chain using the second dual band antenna are retained and the first chain is configured for Rx only capability using the third antenna. | 02-05-2015 |
20150050886 | EFFICIENT PAIRING OF NETWORKED DEVICES - A wireless device may be enabled to pair (e.g., establish a wireless communication link) with multiple other wireless devices that are connected with a wireless network without the need to conduct a separate pairing operation between the wireless device and each of the other network-connected wireless devices. Data exchanged between the wireless device and a peer device (e.g., one of a group of network-connected wireless devices) and that may be used to authenticate communications between the wireless device and the peer device (e.g., a link key) may be stored in a network-accessible data storage and retrieval system. The link key may be used by the wireless device when attempting to establish communications with a different peer device (e.g., another one of the network-connected wireless devices) and may be retrieved by the other network-connected peer devices and may be used to enable authenticated communications between the other peer devices and the wireless device. | 02-19-2015 |