CPC Class H04N

Systems and methods for monitoring the use of a shared vehicle are described. In various aspects, telematics data regarding operation of a shared vehicle is collected from one or more sensors, where the shared vehicle is associated with a shared vehicle operator and a shared vehicle stakeholder. One or more processors determine whether a driving event has occurred based upon the telematics data, where the driving event is indicative of improper usage of the shared vehicle by the shared vehicle operator. The one or more processors generate a notification regarding the driving event. The notification includes a driver rating determined from the telematics data regarding operation of the shared vehicle by the shared vehicle operator. The notification is transmitted, via a network, to the shared vehicle stakeholder for presentation to the shared vehicle stakeholder.

Systems and methods which detect in video and/or audio data a change in a physiological indicator of a person captured by the video and/or audio data, and which provide feedback indicating when the change in the physiological indicator occurs, are described. A method uses an analytics module operating on at least one processor. Data is received from a video camera worn on a first person. The data is indicative of an interaction between the first person and a second person. A physiological indicator of the second person is detected by analyzing the data. A change in the physiological indicator in the data is determined. An indication of the change in the physiological indicator in the data is transmitted to a sensory device on the first person.

A computer-implemented system and method for offering merchant and shopper-friendly parking reservations through tourist privileges is provided. Motor vehicle parking spaces located in a tourist area of an urban environment are managed through a server. Smart parking devices and vehicle occupancy sensors are each proximate to at least one of the parking spaces. Tourist parking identification cards are issued to an agency authorized to provide tourist parking privileges, which are then provided to the visitors. The parking identification cards are activated by pairing each identification card with a digital ticket issued to the agency. The parking spaces are managed by sensing occupancy of one of the parking spaces by a motor vehicle through the nearest vehicle occupancy sensor and by determining an identity of the driver of the motor vehicle through the nearest smart parking device.

The present application discloses a detection system for image sticking of display panel and method thereof, includes obtaining the display panel image to be detecting the image sticking; obtaining the image display portion of the display panel in the display panel image; performing Fourier transform to the image display portion, obtaining a first spectral energy value with characteristic frequency corresponding to the image sticking in the image display portion, and a second spectral energy value of the reference frequency in the image display portion; determining the ratio of the first spectral energy value and the second spectral energy value is exceeding the numerical range of the corresponded qualified detection, if beyond, it is judged as disqualified. By the method described above, the present application can solve the conventional image sticking judgment based on human subjectivity, accurate judgment and objectively evaluation of severity the image sticking of the display panel.

A data processing apparatus has a first compressor, a second compressor, a first output interface, and a second output interface. The first compressor generates first compressed display data by performing compression upon display data of a first partial region of a frame according to a first compression order. The second compressor generates second compressed display data by performing compression upon display data of a second partial region of the frame according to a second compression order. There is a boundary between the first partial region and the second partial region. In a horizontal direction, the first compression order on one side of the first boundary is opposite to the second compression order on another side of the first boundary. The first and second output interfaces output the first and second compressed display data via a first display port and a second display port of a display interface, respectively.