Abstract: Embodiments of the invention relate generally to electrical and electronic hardware, computer aided simulation and design, high-level language numerical computation, analysis, programming, and visualization of designs, target hardware compilers, assembly code, computer software, wired and wireless network communications, wearable, hand held, and portable computing devices for facilitating communication of information. More specifically, disclosed is a framework for computer aided simulation and design of audio processors including noise suppression systems for wireless media devices for one or more target hardware platforms.

Abstract: A system, apparatus, or method for enabling an application developer to access the events, data and functionality of a device, such as a mobile phone, without being limited by the API provided by the device manufacturer. In some embodiments, the present invention utilizes a transparent gateway as a proxy that is inserted into the device stack to enable an application developer to access features and functions of the device beyond those exposed by the manufacturer provided API. For example, the transparent gateway may be inserted into the wireless stack of a mobile phone, in between the Bluetooth stack and the device's API. The transparent gateway may be installed in the mobile phone via an over the air provisioning or another suitable method.

Abstract: Embodiments of the present application relate generally to personal electronics, portable electronics, wearable electronics, and more specifically to wirelessly enabled devices that include a haptic interface and are configured to wirelessly communicate with one another to synchronize body motion or other user actions based on haptic prompts generated by a sensor system in one or more of the wirelessly enabled devices. Each wirelessly enabled device may include at least one radio configured to transmit, receive or both, RF signals encoded with motion data operative to generate sensory outputs from the haptic interface of one or more of the wirelessly enabled devices. At least one of the wirelessly enabled devices may be configured as a leader device and one or more other wirelessly enabled devices may be configured as a follower device. One or more wirelessly enabled devices may be wirelessly linked to a wireless media device that generates motion data.

Abstract: Embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices in capturing and deriving physiological characteristic data. Techniques associated with an array of electrodes and methods are described, including selecting a subset of electrodes implemented on a wearable device, driving a first signal to a target location using the subset of electrodes, receiving a second signal from the target location, the second signal having a physiological component and a motion component, generating a raw physiological signal using a motion artifact reduction unit, generating a first physiological characteristic data using the raw physiological signal, and deriving a second physiological characteristic using the first physiological characteristic data.

Abstract: The invention is a system for monitoring and reporting the activity level and caloric expenditure of an individual. The system has sensors in electronic communication with a wearable device. A processor is programmed to communicate with the sensor and a computing device to activity data from movement-related data. A remote server receiving the activity data and the data from computing device, and generates a graphical presentation. The graphical presentation comprises information related to the activity data. The wearable device also provides visual and audio data.

Abstract: 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.

Abstract: A multimedia device is described. The multimedia device includes a multiplexer. The multimedia device also includes a plurality of high-definition interface inputs coupled with the multiplexer and an output coupled with the multiplexer. Moreover, the multimedia device includes a processor coupled with the multiplexer to configure the multiplexer to provide one of the plurality of high definition multimedia interface inputs to the output based on the detection of a clock signal on one of the plurality of high-definition multimedia interface inputs. Furthermore, methods related to embodiments of a multimedia device are described herein.

Abstract: The present disclosure relates to systems and methods for recommending and/or optimizing a presentation of content as a function of activity related to consumed content, and more particularly to analysis of content and related data as a criteria for forming specific playlists based on a larger selection of content, and arranging the order of content within a playlist to form, for example, personalized, curated collections of content (e.g., curated “playlists”). According to some examples, a flow includes receiving, at a processor, a request for a list identifying audio content items, and accessing consumption data indicative of audio content consumed by one or more media devices associated with a user. The flow can also include identifying one or more lists identifying subsets of audio content items, determining an order of presentation, and providing the processor with data representing the one or more modified lists responsive to the request.

Abstract: Systems, apparatus, devices, and methods for converting electrical signals into sound using an acoustic transducer. The inventive acoustic transducer utilizes the motion of an airfoil shaped element to generate a sound wave, with the airfoil element being driven in response to an electrical signal input to a suitable driving element. In some embodiments, the airfoil element or elements act to mechanically couple the motion of an armature attached to the driver to the surrounding air, producing sound waves in a more efficient manner than typical acoustic transducer devices. Embodiments of the invention may be used in the design of loudspeakers, earpieces, headphones, and other devices for which a high efficiency transducer is desired.

Abstract: 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.

Abstract: Techniques associated with an acoustic vibration sensor are described, including a first detector that receives a first signal and a second detector that receives a second signal and a third signal, wherein the first signal comprises a skin surface microphone signal, a static equalization filter coupled to the first detector and configured to generate an equalized first signal, a voice activity detector coupled to the first detector, and a wind detector coupled to the second detector, the wind detector configured to correlate the second signal and the third signal and to derive from the correlation a plurality of wind metrics associated with a wind noise, the wind detector is further configured to determine a magnitude associated with the wind noise, to determine whether to suspend an activity of the system, and to determine a duration of time that the magnitude associated with the wind noise exceeds a threshold.

Abstract: 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.

Abstract: The present disclosure relates to audio processing for playback, and more particularly to processing audio files to provide a smooth transition between successive audio tracks during playback. According to some examples, a flow includes determining, with a computing device, a first audio characteristic of a first audio track and determining, with the computing device, a second audio characteristic of a second audio track. The flow can further include receiving, at the computing device, data representing a user-generated trigger. The flow further can determine a transition parameter, responsive to the user-generated trigger, for the first audio track and the second audio track based on one or more of the first audio characteristic and the second audio characteristic. Also, the flow can cause presentation of a transition from the first audio track to the second audio track.

Abstract: Embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing devices, audio devices, and communication devices for facilitating the presentation of personal audio. More specifically, disclosed are an apparatus and method to form directional audio personal to a user in a non-occluded manner. In one embodiment, a personal audio and communication devices can include a first directional speaker disposed at a first mounting region of a first support member. The first support member is configured to position the first directional speaker adjacent a first ear in substantial alignment with the first ear. Also included is a second directional speaker disposed at a second mounting region of a second support member. The second support member is configured to position the second directional speaker adjacent a second ear in substantial alignment with the second ear.

Abstract: Communication systems are described, including both portable handset and headset devices, which use a number of microphone configurations to receive acoustic signals of an environment. The microphone configurations include, for example, a two microphone array including two unidirectional microphones, and a two-microphone array including one unidirectional microphone and one omnidirectional microphone. The communication systems also include Voice Activity Detection (VAD) devices to provide information of human voicing activity. Components of the communications systems receive the acoustic signals and voice activity signals and, in response, automatically generate control signals from data of the voice activity signals. Components of the communication systems use the control signals to automatically select a denoising method appropriate to data of frequency subbands of the acoustic signals.

Abstract: Techniques associated with a smart media ecosystem using local data and remote social graph data are described, including identifying an account associated with a user based on a detection of a presence of a compatible device, the compatible device being associated with the account in a profile, receiving an input indicating a request for media content, retrieving remote social graph data from a remote database, cross-referencing the remote social graph with profile data being stored locally, the profile data associated with media preferences, updating the profile data with a learned media preference generated by a learning module, selecting targeted media content based on the profile data, and sending a control signal to a media device, the control signal configured to cause the media device to output the targeted media content.

Abstract: 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 of content from those devices or from a wirelessly accessible location such as the Cloud or Internet.

Abstract: Techniques associated with structures for dynamically tuned audio in a media device are described, including a housing, a driver mounted to the housing and configured to produce acoustic energy, a hybrid radiator mounted to the housing and formed at least in part using a material configured to change one or more properties in response to an application of an external stimulus, and a source configured to apply the external stimulus to the hybrid radiator.