The communication device comprising a communication implementer, a TV program implementer, and a multiple language implementer.

The communication device comprising a communication implementer, a TV program implementer, and a multiple language implementer.

A vehicle communication system facilitates hands-free interaction with a mobile device in a vehicle or elsewhere. Users interact with the system by speaking to it. The system processes text and processes commands. The system supports wireless technology for hands-free use. The system handles telephone calls, email, and SMS text messages. The user can customize the device via a user profile stored on an Internet web server. The system also includes a plurality of power conservation features.

A method of orienting a mobile device to a vehicle includes determining an orientation of a gravity vector and aligning a first axis of the mobile device with respect to the gravity vector. The method also includes determining an orientation of a magnetic direction and aligning a second axis of the mobile device with respect to the magnetic direction. The method further includes determining a direction of travel for the vehicle and orienting the mobile device to the vehicle.

A device and method for communicating identifying information to a nearby portable electronic device is disclosed. A low energy electronic device comprises a transceiver operable to transmit and receive signals and a processing unit in communication with the transceiver. The processing unit, in response to being activated by user input, switches the transceiver into a one-way communication mode, wherein the transceiver transmits a generic wake-up signal comprising a generic wake-up identifier for a first time period, and transmits a user identifier signal comprising a user identifier for a second time period after the first time period as elapsed. The processing unit then switches the transceiver into a two-way communication mode after the second time period has elapsed to facilitate receipt of an incoming confirmation signal.

The present invention relates to a data processing method and apparatus. The invention provides an electronic device including: a communication module; a first location calculating module; a second location calculating module; and a first processor electrically connected to at least one of the first location calculating module and/or the second location calculating module. The first processor may be configured to: identify property information of at least one application that is driven by the first processor and requests location information; determine a location accuracy level on the basis of the identified property information of the at least one application; and select one of the first location calculating module and/or the second location calculating module in order to calculate the location of the electronic device by using a signal obtained through the communication module, according to the determined location accuracy level.

A mobile computing device such as a smartphone is used to find a parking garage with available spaces for a motor vehicle. The smartphone has a navigation app which receives a destination and computes an estimated time of arrival to that destination. It then broadcasts a request to parking garages in the vicinity of the destination with the ETA. Parking service systems associated with those garages respond with predicted parking availability. A cognitive system analyzes the responses and provides optimal recommendations based on user preferences such as cost, distance and safety. The user selects one of the recommended garages, and the computing device sends a reservation to the selected garage. The navigation app provides first directions to the destination until the vehicle is proximate thereto, and then switches to directions to the garage. The cognitive system can analyze a history of user selections and updating the user's preferences.

A mobile computing device such as a smartphone is used to find a parking garage with available spaces for a motor vehicle. The smartphone has a navigation app which receives a destination and computes an estimated time of arrival to that destination. It then broadcasts a request to parking garages in the vicinity of the destination with the ETA. Parking service systems associated with those garages respond with predicted parking availability. A cognitive system analyzes the responses and provides optimal recommendations based on user preferences such as cost, distance and safety. The user selects one of the recommended garages, and the computing device sends a reservation to the selected garage. The navigation app provides first directions to the destination until the vehicle is proximate thereto, and then switches to directions to the garage. The cognitive system can analyze a history of user selections and updating the user's preferences.

Wearable audio recorder and retrieval software applications for long term audio and related data recording, visualization, filtering, search, and proof of provenance, providing a record-all and find-later methodology capable of finding audio in multi-year audio data streams. System default state is to record permanently, allowing the user to decide when not to record instead of when to record. User interfaces enable users to retrieve desired recorded audio data by querying other types of recorded data which are related to the desired recorded audio data by way of time and spatial domains.

A mobile communication environment (100) can include a mobile device (160) to measure and send sound pressure level data. The mobile device (160) can initiate the collection of audio information responsive to detecting a trigger event. Mobile device (160) can measure or calculate the sound pressure level from the audio information. Metadata including time information and geographic location information can be captured with the collected audio information. Mobile device (160) can send the sound pressure level data and metadata through a wired or wireless communication path to a database (614).