A prestaging, gesture-based, access control system includes a local access assembly, a mobile device, a storage medium, and a processor. The assembly includes a controller to effect actuation between access and no-access states. The mobile device is carried by a user, and includes a detection system configured to detect a prestaging event inherently performed by the user toward an intent to gain access and followed by the detection of a primary intentional gesture specifically performed by the user toward the intent to gain access. The storage medium and the processor are configured to receive prestaging event information and primary intentional gesture information from the detection system, and execute an application to determine the performance of the prestaging event from the prestaging event information, then determine the performance of the primary intentional gesture from the primary intentional gesture information if the prestaging event is determined to have occurred.

There is a demand for an information processing device capable of determining a position where a user attempts to perform operation on a screen of the information processing device, without impairing usability. Therefore, the present disclosure proposes an information processing device including: an acceleration sensor unit that detects a tilt of the information processing device; a display unit; a gyroscope sensor unit that measures angular velocity of the information processing device; and a determination unit that, in response to detection of a first tilt of the information processing device, determines a position where a user attempts to perform operation on the display unit on the basis of a first gyro waveform obtained from the angular velocity and a second gyro waveform at each operation position of the information processing device measured in advance or a learning model generated by using the second gyro waveform as training data. The display unit further displays a screen displayed on the display unit while reducing the screen by a predetermined amount or moving the screen by a predetermined amount in a predetermined direction in accordance with the determined position.

A touch region adjustment method includes: determining a region on a touch display of a terminal device and in which a sensing parameter changes to determine a grasping gesture of a user for the terminal device; and adjusting a location of a touch response region on the touch display based on the grasping gesture of the user for the electronic device to avoid an accidental touch caused by the grasping gesture of the user for the screen of the terminal device.

Device orientation techniques and systems are described to modify visual characteristics of edits that support the ability of a computing device to modify visual characteristics of digital objects appearing in a user interface of a mobile device based on orientation of the computing device, itself. A user interaction, for instance, is detected in a user interface of a device. Responsive to the detected user interaction, a multiaxial orientation of the device is determined. In some examples, the orientation is translated into tilt data such as in the form of altitude and azimuth values. A relative amount is calculated based on the orientation. The relative amount is applied to a visual characteristic of an edit to a digital object. Once the relative amount is applied, the digital object having the relative amount applied is displayed in the user interface.

A wearable Haptic Human Machine Interface (HHMI) receives electrical activity from muscles and nerves of a user. An electrical signal is determined having characteristics based on the received electrical activity. The electrical signal is generated and applied to an object to cause an action dependent on the received electrical activity. The object can be a biological component of the user, such as a muscle, another user, or a remotely located machine such as a drone. Exemplary uses include mitigating tremor, accelerated learning, cognitive therapy, remote robotic, drone and probe control and sensing, virtual and augmented reality, stroke, brain and spinal cord rehabilitation, gaming, education, pain relief, entertainment, remote surgery, remote participation in and/or observation of an event such as a sporting event, biofeedback and remotality. Remotality is the perception of a reality occurring remote from the user. The reality may be remote in time, location and/or physical form. The reality may be consistent with the natural world, comprised of an alternative, fictional world or a mixture of natural and fictional constituents.

An example user terminal apparatus includes communication circuitry configured to be connected to a home network comprising a plurality of devices; a display configured to display a UI screen for managing the home network; a sensor configured to sense a user manipulation of the UI screen; and processing circuitry configured to change the UI screen displayed on the display according to the user manipulation. The UI screen is one of a plurality of service pages that are changeable according to a user manipulation in a first direction, the plurality of service pages being pages for respectively providing different home network management services. At least one of the plurality of service pages comprises an area that is displayable on the display according to a user manipulation in a second direction.

An apparatus, method, and computer-readable storage medium for processing image data are provided. The apparatus includes an output unit configured to project a first image on a projection surface, a detection unit configured to detect movement of the apparatus, and a processor configured to change the first image to a second image based on the detected movement.

Provided is a method for adjusting a screen display direction and a terminal. The method includes the follows. At least one authority fingerprint is acquired, and the authority fingerprint is a fingerprint having the authority of changing a screen display direction. A first fingerprint is acquired. When the first fingerprint is the authority fingerprint, an input direction of the first fingerprint is acquired. The screen display direction is adjusted according to the input direction of the first fingerprint. If the first fingerprint is acquired again, a time period for acquiring the first fingerprint is recorded. The size of the screen display area is adjusted according to the recorded time period of the first fingerprint.

A wearable device and a controlling method thereof, and a system for controlling a smart home. The wearable device comprises: a hand gesture identifying module, for by characteristic data to be identified of a wearer that is collected by a sensor, identifying out a current hand gesture action of the wearer; an appliance configuring module, for according to acquired information of each of household electrical appliances, establishing and saving correspondence relations between controlling commands of each of the household electrical appliances and corresponding hand gesture actions; and upon receiving the hand gesture action, looking up the household electrical appliance and the controlling command that match the hand gesture action by using the correspondence relations, generating a controlling message according to the matched information; a wirelessly connecting module, for receiving the controlling message and wirelessly sending the controlling message to a smart home controlling server.

Embodiments of the present disclosure disclose a method for scaling down an effective display area of a screen, and a mobile terminal, to continuously scale down an effective display area of a screen according to a user's requirement. The method in the embodiments of the present disclosure includes: displaying, by a mobile terminal, first content; when an obtained first operation satisfies a preset condition, sensing a second operation; determining, according to a preset correspondence, a scale-down proportion corresponding to the second operation; and continuously scaling down an effective display area of a screen of the mobile terminal according to the scale-down proportion such that the first content is displayed on a scaled-down effective display area.