The invention with its state-of-the-art and innovative methods has established a time simulation phenomenon pertaining to celestial objects independently for (14) Universal Time (FIG. 1). The co-ordination between three celestial objects Earth, Moon, and Sun are the significant sources for back mapping and the method remains immaculate and perfect in ascertaining the Universal Time Co-Ordination (15). The invention has delivered the classified integrity while implementing the most impressive and innovative methods in bringing-out a novel concept (9) and (10) for Universal Time Simulation. The Universal Time (14) and Universal Time Co-ordination phenomenon provide a leap ahead in worldwide clocks and time regulation in which clocks would be (7) self-synchronizing based on specific locations. The location-specific Time would be incorporated to have a reality-based transition in the framework of Universal Time and Universal Time Co-Ordination that would benefit watch manufacturing industry massively (7). The invented method also provides a framework for high-level precision clocks in research labs to check their integrity in timescale (16). The pioneered method in this present invention would benefit space industry to the maximum possible extent (FIG. 4) with its limited kernel (3) memory usage statistics. The singularity in the definition of Universal Time (14) would enhance simultaneous space mission programs.

Universal Time and Universal Time Co-Ordination are key aspects in the following areas namely: Regulation of Clock and Time, World Wide Web, Network Time Protocol, International Broadcast, Weather Forecast, Air Traffic Control, Radio Stations, Space Technology.

A time display device, including: an indication display unit which displays a content according to an indicating operation, and a processor, wherein in a case where a remaining time with respect to a reference set time of an elapsed time from a measuring start timing is greater than a predetermined reference remaining time, the processor makes the indication display unit display a ratio of the remaining time with respect to the reference set time, and in a case where the remaining time is equal to or less than the predetermined reference remaining time, the processor makes the indication display unit display the remaining time.

A time display device, including: an indication display unit which displays a content according to an indicating operation, and a processor, wherein in a case where a remaining time with respect to a reference set time of an elapsed time from a measuring start timing is greater than a predetermined reference remaining time, the processor makes the indication display unit display a ratio of the remaining time with respect to the reference set time, and in a case where the remaining time is equal to or less than the predetermined reference remaining time, the processor makes the indication display unit display the remaining time.

An electronic device comprises a body and a band being able to attach the body to a part of a human body. The body comprises first and second detectors and at least one processor. The first detector detects illuminance on an upper surface of the body. The second detector is located in a position distant from a position of the first detector in a short-side direction of the band and detects the illuminance on the upper surface of the body. The at least one processor executes predetermined processing if the at least one processor determines that at least one of first illuminance detected by the first detector and second illuminance detected by the second detector changes.

The technology provides for an electronic device with gesture detection. In this regard, the device may include a housing, and one or more sensors positioned along an inner periphery of the housing. The sensors may be adapted to detect user interaction with an outer surface of the housing. The device may further include one or more processors in communication with the plurality of sensors. The one or more processors may be configured to determine the user interaction and to determine a type of gesture based on the detected user interaction, determine a type of input command based on the determined gesture, and execute a task corresponding to the determined type of input command.

Described herein is a wearable device, which comprises an ultrasonic system. The ultrasonic system comprises a substrate that comprises an ultrasonic transducer array and accompanying circuitry. The wearable device is configured to produce useful ultrasonic images.

A clock adapted to be supported by a wall or table includes a central clock face, formed by an LCD screen or the like and controlled electronically to display images. The screen is e controlled by a processing unit receiving signals from a remote device to provide information displaying on the screen the time of day in a format selected by the user as well as information selected by the user to be displayed on the screen. The processing unit contains information to display any of several images to serve as background for the clock face and the processing unit may further be able to receive signals from the remote device to provide information for displaying further images to serve as background for the clock face.

A device having one or more processors, the one or more processors configured to acquire time information by performing one or more of a first acquisition operation to control a communicator to communicate with an external device to receive signals including the time information, and a second acquisition operation to control one or more radio wave receivers to receive transmission radio waves with signals including the time information.

An electronic timepiece includes a display, a communicator, and a processor. The communicator communicates with an external device. The processor causes the display to display, as multiple kinds of information obtained by the communicator from the external device, an icon corresponding to a category to which each of the multiple kinds of information belongs.

Embodiments of the present disclosure describe automatically changing a time zone of a mobile device to a current time zone. The method detects a first event for a mobile device from a plurality of events. The plurality of events represents a possible time zone change from a first time zone. The method generates a time change value based on detection of the event. The method detects a subsequent event for the mobile device and modifies the time change value. The method determines the time change value exceeds a change threshold value and changes a time zone display of the mobile device from the first time zone to a second time zone based on at least one detected event for the mobile device.