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.

A smart watch and a method for measuring a pulse information are provided in the present disclosure. The smart watch includes a dial, a watchband, a blood vessel information collecting apparatus, and a processing apparatus. The watchband is connected with the dial. The blood vessel information collecting apparatus is disposed in the watchband and is configured to collect a blood vessel information from an inner side of a wrist of a user. The processing apparatus is connected with the blood vessel information collecting apparatus and is configured to receive and process the blood vessel information to obtain the pulse information of the user.

Systems and methods to create a customized watch face and retrieve the watch face to be displayed are disclosed. Exemplary implementations may effectuate presentation of a selection interface; receive a mint request to mint the watch face in accordance with a watch face design; effectuate a transfer of consideration from a user wallet to an administrative wallet; mint the watch face; transfer a non-fungible token to the user wallet; receive a display request to display the watch face on a watch screen; determine whether the user wallet holds a non-fungible token associated with the watch face; responsive to the user wallet holding the non-fungible token, facilitate display of the watch face on the watch screen; responsive to the user wallet not holding the non-fungible token, take no action to facilitate display of the watch face on the watch screen; and/or perform other operations.

A method controls access to at least one confidential data access to which by a function of a watch requires an identification of its wearer. The method includes authenticating the wearer of the watch to authorise access to the functions of this watch, selecting one of the functions of the watch requiring the use of at least one of the confidential or general data archived in the memory element, determining the category to which the at least one data required by the function belongs, verifying the identity of the wearer of the watch from at least one biometric information element comprised within a portion of the skin of this wearer when the at least one data is the confidential data, and authorizing use of the at least one confidential data by the function as soon as the identity of the wearer of the watch is verified.

A method controls access to at least one confidential datum archived in a memory element of a watch. The memory element includes general data and confidential data, the access to which by a function of the watch requires the wearer of the watch to be identified. The method includes authenticating the wearer to grant access to the functions of the watch, selecting one of the functions of the watch requiring the use of at least one of the confidential data or general data archived in the memory element, determining the category to which the at least one datum required by the function belongs, verifying the identity of the wearer based on an interaction between the wearer and a graphical representation included in the watch, and authorizing use of the at least one confidential datum by the function when the identity of the wearer has been verified.

A timepiece including a case; pivotably mounted display hands; a movement to drive the display hands while defining a sweeping surface; a display screen, a first part of the sweeping surface being superimposed on the screen and a second part of the sweeping surface not being superimposed on the screen; a control circuit configured to sequentially switch between first and second operating modes, with: a first operating mode wherein the display hands are driven in the first and second parts of the sweeping surface; a second operating mode wherein the display hands are driven only in the second part of the sweeping surface with display of a piece of information by the display screen.

Systems and methods for modifying display unit operations based on orientation are provided. A controller receives orientation data from an orientation detection device and commands operations of a thermal management system based, at least in part, on the received orientation data. A solar angle relative to the electronic display may be determined based on a location, a date, a time, and the orientation data. Cooling may be modified based on solar angle relative to the electronic display. The orientation data may be used to check installation, determine damage, or position of display unit components.

The invention relates to a method for managing a display interface formed of a plurality of display screens (3) of smartwatches (1) worn on parts of the body of users, which parts are capable of moving or are moving, said watches (1) being located in proximity of one another, the method comprising the following steps: estimating (10) at least one broadcasting property of each display screen (3) in said display interface which they form together, and managing the display (15) of a visual message on said display interface comprising a substep (18) of generating portions of said visual message as a function of measurement data relating to at least one broadcasting property, each portion being intended to be displayed on the screen (3) of each smartwatch (1); broadcasting (19) portions of said message on each screen (3) constituting this display interface.

The invention relates to a timepiece including, in addition to a crystal (34), the following external elements: a back (2), a middle (1), a dial (3) and two bracelet strands (30), at least one of these external elements comprising at least one part made of an at least partially transparent or translucent ceramic material, the timepiece further including at least two point light sources (10) releasing heat, each light source (10) being capable of being separately switched on/off and being disposed in or directly beneath said at least one external element comprising the ceramic material, each light source (10) producing light that passes through the ceramic material of said external element, and wherein each light source (10) is configured to produce localised light on a point or quasi-point area (40) of the ceramic material of the external element concerned, so as to produce localised illumination on said external element.

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.