Systems and methods for restricting the use of vehicle operator's electronic device are provided. In a method a telematics server determines that a vehicle's engine is running, and that the operator registered with the vehicle is in the driver's seat. In response, the telematics server sends a message to the vehicle operator's terminal for changing the configuration thereof. A system including a telematics device, telematics server, and operator terminal may carry out the method. The system and method can be used to restrict the use of electronic devices by drivers sitting in a vehicle with the engine running in accordance with laws in certain jurisdictions.

Systems and methods for restricting the use of vehicle operator's electronic device are provided. In a method a telematics server determines that a vehicle's engine is running, and that the operator registered with the vehicle is in the driver's seat. In response, the telematics server sends a message to the vehicle operator's terminal for changing the configuration thereof. A system including a telematics device, telematics server, and operator terminal may carry out the method. The system and method can be used to restrict the use of electronic devices by drivers sitting in a vehicle with the engine running in accordance with laws in certain jurisdictions.

Methods executed by a processor of computing device for launching a selected application on a computing device are disclosed. Various embodiments may include authorizing a user based on a fingerprint of a finger detected on a fingerprint sensor portion of a touchscreen display matching a fingerprint of an authorized user of the computing device, determining a selected application installed on the computing device from a selective engagement of the finger on the touchscreen display, continuous from the fingerprint sensor portion and unlocking the selected application in response to the selective engagement of the finger on the touchscreen display. In some embodiments, selection of an application may be based a continuous swipe movement by the finger on the touchscreen display from the fingerprint sensor portion toward an icon on the touchscreen display representing the selected application.

According to the present disclosure an electronic device is disclosed comprising: a housing including a front surface, a rear surface facing the direction opposite to the front surface, and a side surface encompassing the space between the front surface and the rear surface; a display included in the housing and visible to the outside of the electronic device through the front surface; an optical sensor positioned between the display and the rear surface overlapping at least one region of the display when viewed from above the front surface, and including a light-emitting part and a light-receiving part; and a first partition positioned between the light-emitting part and the light-receiving part based on the electronic device having a first shape, and a second partition present between the light-emitting part and the light-receiving part based on the electronic device having a second shape transformed from the first shape, wherein a straight line connecting the light-emitting part and the light-receiving part is perpendicular to the direction in which the electronic device changes from the first shape to the second shape.

Reduction of recorded noise is achieved at the time of imaging in an environment of generation of noticeable noise while securing user convenience. A communication controller includes a wireless communication unit that performs first wireless communication using a first wireless communication method, and second wireless communication using a second wireless communication method, and a control unit that detects a volume of a voice, and changes a wireless output of the first wireless communication on the basis of the detected volume.

Reduction of recorded noise is achieved at the time of imaging in an environment of generation of noticeable noise while securing user convenience. A communication controller includes a wireless communication unit that performs first wireless communication using a first wireless communication method, and second wireless communication using a second wireless communication method, and a control unit that detects a volume of a voice, and changes a wireless output of the first wireless communication on the basis of the detected volume.

Creating and using device orientation fingerprints can include detecting a request to create an orientation fingerprint for a user device, where the orientation fingerprint defines an orientation of the user device and includes a machine learning model that models, for the user device and a known user of the user device, multiple orientations of the device for multiple activities. Operational data that includes orientation data, identity data, and activity data can be obtained. The operational data can be provided to machine learning to output the orientation fingerprint and the orientation fingerprint can be stored with data that associates the orientation fingerprint with the known user.

Creating and using device orientation fingerprints can include detecting a request to create an orientation fingerprint for a user device, where the orientation fingerprint defines an orientation of the user device and includes a machine learning model that models, for the user device and a known user of the user device, multiple orientations of the device for multiple activities. Operational data that includes orientation data, identity data, and activity data can be obtained. The operational data can be provided to machine learning to output the orientation fingerprint and the orientation fingerprint can be stored with data that associates the orientation fingerprint with the known user.

A processor-based device with a display unit, such as a smart phone, identifies pixels associated with a camera under the display screen. The device also identifies a condition in which the pixels associated with the camera under the display screen can be dimmed or turned off. The device then dims or turns off the pixels associated with the camera under display based on the condition.

A remote control device is realized by introducing an application into a mobile terminal (1). A terminal controller (18) of the remote control device automatically authenticates a user based on biometric information of the user and an operation mode of a terminal by the user. The terminal controller (18) displays an operation menu for selecting an instruction for a control target device on a display (19). When the user touches a button on the operation menu, the terminal controller (18) authenticates the user, and, if the authentication is successful, the terminal controller (18) transmits a signal instructing an operation indicated by the touched button to the control target device via a near field communicator (10).