A method for selectively cloning computer display monitors from a first one or more monitors associated with an operator, to a second one or more monitors associated with a surgeon includes: obtaining at least one configuration, such as a configuration file, that includes one or more Graphical User Interface (GUI) elements, such as windows, which are to be rendered to the second one or more monitors or not rendered to the second one or more monitors; analyzing the GUI elements displayed by the first one or more monitors against the at least one configuration for corresponding GUI elements; cloning corresponding GUI elements; and sending data representative of the cloned corresponding GUI elements to the second one or more monitors for display on the second one or more monitors. The method may also include displaying on the second one or more monitors the cloned corresponding GUI elements.

There is provided a system for monitoring a package. The system comprises a scanning device and a dynamic display connected to the package and comprising a display. The scanning device scans the dynamic display and sends the scanned results to a server, which processes the results and sends the scanning device an update for the dynamic display. The scanning device then sends the update to the dynamic display and the dynamic display changes the display to show the update. There is also provided a system for monitoring compliance of a user with health related activities, assisting a user with compliance, encouraging a user to comply and detecting compliance.

Efficiency of a surgery-related service can be further improved. An information processing system according to an embodiment includes a surgery information acquisition unit (511) that acquires information regarding a surgery, and a display control unit (512, 513, and 514) that displays a surgery process area (620) indicating an entire process of the surgery and a progress of the entire process, and a work process area (630) indicating a work content of a part of the entire process and a progress of the work content. The display control unit calculates at least one of the progress of the entire process and the progress of the work content according to information regarding a surgery different from the surgery.

Described are various embodiments of process, system and device to automatically adjust user perception of an input, whereby and adjusted image perception value is variably defined for different input locations to create at least one of a multi-focal effect, a progressive perception adjustment, or the like.

The embodiments of the disclosure provide a method for mitigating dizziness, an electronic device, and a computer readable medium. The method includes: providing a first visual content of a first reality mode in a field of view; and adding a specific mask to the first visual content, wherein the specific mask shows a specific part of a second visual content of a second reality mode, and a location of the specific mask in the first visual content is fixed.

An electronic device and method are disclosed. The electronic device includes a display, a first sensor, a communication module and a processor. The processor implements the method, including calculating a first impedance via the first biometric information, calculating a first body composition based on the first impedance, receiving second biometric information from an external electronic device, calculating a second impedance using the second biometric information, calculating a second body composition based the second impedance, calculating a total body composition based on at least one of the first impedance and the second impedance, calculating a third body composition for a third part of the body of the user, based on the total body composition, the first body composition, and the second body composition, and displaying at least one of the total body composition, the first body composition, and the second body composition, and the third body composition on the display

A biomagnetic field measurement processing apparatus includes circuitry; and a memory storing computer-executable instructions that cause the circuitry to execute reconfiguring a current signal from a biomagnetic field signal; extracting a current component from the current signal; and based on the extracted current component, adding to each other at least two current waveforms among current waveforms of a plurality of inward currents that are current components directed toward a nerve axon from around the nerve axon, or adding to each other at least two current waveforms among current waveforms of a plurality of inward currents that are current components directed toward a muscle fiber from around the muscle fiber, and generating a current waveform to be displayed on a display device, according to the at least two current waveforms added to each other.

A visualization system provides graphics for presentation on displays of multiple users who may be wearing head-mounted displays (HMDs). In an embodiment, the system determines that a first gaze direction of a first user is directed toward a first display. The system determines user inputs performed by the first user. The user inputs may be hands-free such as gestures of a hand or finger or voice commands. The system generates a graphical annotation using the user inputs. The system provides the graphical annotation to a first HMD for presentation to the first user. The system determines a second display paired to the first display. The system provides the graphical annotation to a second HMD for presentation to a second user looking at the second display. The displays may include a physical display or a virtual display, for example, in an augmented reality environment.

A method and system for color mapping digital visual content for improved viewing by a color vision deficient observer includes receiving the digital visual content to be color mapped, clustering color values of the digital visual content into a plurality of color clusters, assigning each color cluster to a respective one of a set of target color values in which the set of target color values have increased visual distinguishability for the color vision deficient observer; and for each color cluster, mapping the color values of the color cluster to the target color value, thereby generating a color-mapped digital visual content. One or more regions of interest of the content can be identified and the color mapping may be applied onto to those regions of interest.

A handheld imaging device has a data receiver that is configured to receive reference encoded image data. The data includes reference code values, which are encoded by an external coding system. The reference code values represent reference gray levels, which are being selected using a reference grayscale display function that is based on perceptual non-linearity of human vision adapted at different light levels to spatial frequencies. The imaging device also has a data converter that is configured to access a code mapping between the reference code values and device-specific code values of the imaging device. The device-specific code values are configured to produce gray levels that are specific to the imaging device. Based on the code mapping, the data converter is configured to transcode the reference encoded image data into device-specific image data, which is encoded with the device-specific code values.