A wearable computing device generates a volumetric visualization at a first position that is located in a three-dimensional space. The wearable computing device includes a volumetric source configured to create the volumetric visualization. The wearable computing device includes one or more sensors configured to determine movement of the wearable computing device. A movement of the wearable computing device is identified by the wearable computing device. Based on the movement the wearable computing device adjusts the volumetric source.

Aspects of the present disclosure relate to playback devices having a non-flat surface and comprising a flexible electronic assembly conforming to that surface. The flexible electronic assembly may include (i) a flexible substrate having a first portion and a second portion, (ii) an array of capacitive touch sensor electrodes arranged on the first portion, and (iii) a plurality of conductors that are electrically coupled to the array of capacitive touch sensor electrodes and that extend onto the second portion. The first portion may include a plurality of cutouts. Each cutout of a first subset of the plurality of cutouts may be positioned between a respective set of two or more electrodes in the array of capacitive touch sensor electrodes. Each cutout of a second subset of the plurality of cutouts may be configured to reduce a wrinkling of the first portion when conforming the first portion to the non-flat surface.

The present disclosure generally relates to methods and user interfaces for recording the execution duration of functions. In some embodiments, methods and user interfaces for recording the execution duration of functions are described. In some embodiments, methods and user interfaces for recording the execution duration of two or more related functions, wherein execution of the two or more functions can be initiated from a single user interface, are described. In some embodiments, methods and user interfaces for recording the execution duration of functions, wherein the related functions are associated with mindfulness, are described.

This invention is a smart watch with variable-configuration displays which combine to provide a larger combined display when needed. When a person does not need a large display area, then a plurality of displays on the watch fit around the person's wrist and/or arm in a relatively compact first configuration. When the person needs a larger display area, then the plurality of displays are moved into a second configuration which creates a large, coplanar, combined display.

A wearable device (100) includes a body (1) and a detection electrode (21). The body (1) includes an electrocardiosignal collection circuit (11), and an inner electrode (12) and an outer electrode (13) that are electrically connected to the electrocardiosignal collection circuit (11). The inner electrode (12) is configured to collect an electric potential signal of a first wearing position (200), and the outer electrode (13) is configured to collect an electric potential signal of a non-wearing position (300). The detection electrode (21) can move relative to the body (1), and the detection electrode (21) is configured to electrically connect to the electrocardiosignal collection circuit (11) and collect an electric potential signal of a second wearing position (400). The non-wearing position (300) and the second wearing position (400) are different from the first wearing position (200). The wearable device (100) can measure electrocardiosignal data in time.

Disclosed are techniques for automatically aligning a wrist-mounted display device to a primary display device to facilitate simultaneous use of both display devices. Historical usage information corresponding to a user using both devices is leveraged to determine usage patterns for the devices together. Subsequently, when the primary display device is used by the user, the usage patterns are used to determine when the wrist-mounted display device can be used together with the primary display device. Position information from each device is used to determine a position for the wrist-mounted display device to automatically relocate to for aligning the wrist-mounted display device and the primary display device to have similar viewing directions. The wrist-mounted display device is automatically aligned to the position, and a usage of the aligned wrist-mounted display device is initiated based on the historical usage patterns.

A unique method and a device to generate free space “pop-out” & “sink-in” holograms is disclosed herein. The hologram disclosed herein does not use any special medium, mirrors, reflective screens or wearables such as headgear & special glasses. The hologram disclosed herein can be created in free space, outer space or in air, without any other optical components except for the special display screen of the hologram device. This device demonstrates a free space hologram and the hologram Augmented Reality & hologram Virtual Reality. A camera capable of hologram quality images equipped with a smart lens which mimics the human eye by changing it's lens aperture according to the light intensity as the pupil of the human eye and focus & capture “pop-out” & “sink-in” hologram images is disclosed herein. The audio which is incorporated with the device provide multi dimensional multi directional audio effects.

An object includes an electro-optic display device provided with an optically active element, the optical properties thereof can be modified by applying an electric voltage or current between at least one electrode and one corresponding auxiliary electrode, between which the optically active element is disposed. The object further includes a middle part which delimits an opening closed by a crystal including a bottom surface beneath which the electro-optic display device is arranged. The crystal is provided with an opaque frame which is made remotely from the edges of the opening and which covers the contour of the electro-optic display device so as to conceal electrical connection elements. The electro-optic display device defines an active display area which is confined by the opaque frame, such that, when the electro-optic display device is activated and displaying information, a transparent area remains between the opaque frame and the edges of the opening.

A management server serving as an information processing apparatus includes ROM or RAM that stores programs, and at least one processor executing the stored programs. The processor is configured to execute processing including: acquiring the component information comprising at least one selected from the 24-hour meter or the small clock or the 24-hour meter or the date window or the function display board provided on the board surface of the timepiece, which points a symbol indicating certain information or displays the certain information, and the component image such as the 24-hour meter image or the small clock image or the 24-hour meter image or the date window image or the function display board image corresponding to the component information; and setting the component image which is common to a plurality of types of timepieces by associating the component information with the plurality of types of the timepieces.

The smart watch with a control dial includes a watch body having a display on a top side and a control circuit inside the watch body, and a control dial electrically connected to the control circuit. The control dial has a portion of its circumference exposed from a lateral side of the watch body, and, when the control dial is turned, the control circuit detects the movement of the control dial and adjusts correspondingly the content shown on the display. The physical movement provided by the control dial effectively prevents the problem of operating the touch screen of the smart watch when the touch screen is stained.