DETAILED DESCRIPTION (excerpts)



[0095] The display may be the display of a head mounted display (HMD), a display of a second screen, a display of a portable device, a computer display, a display panel, a display of a remotely connected users (e.g., whom may be viewing content or sharing in an interactive experience), or the like. In some embodiments, the captured positions of the user's hand, the pressures sensed, the fingers touched, and/or the hand/finger gestures are used to interact in a video game, in a virtual world scene, a shared virtual space, a video game character, a character that is an extension of the real-world user, or simply provide a way of touching, holding, playing, interfacing or contacting virtual objects shown on a display screen or objects associated with documents, text, images, and the like.



[0096] In still other embodiments, virtual gloves may be worn by multiple users in a multi-user game. In such examples, each user may use one or two gloves. The users may be co-located or interfacing in a shared space or shared game from remote locations using a cloud gaming system, networked device and/or social networked collaboration space. In some embodiments, a glove may be used by one or more remote users to interact in a collaborative way to examine documents, screens, applications, diagrams, business information, or the like. In such an implementation, users collaborating may use their gloves to touch objects, move objects, interface with surfaces, press on objects, squeeze objects, toss objects, make gesture actions or motions, or the like.



[0097] During collaboration, movements made by one user's hand can appear to the other user as if a real user hand is moving things, objects, or making actions in the collaboration space. Still in a collaboration environment, if two remote users are examining documents, users wearing gloves can point at things on a virtual page, point and draw on a virtual whiteboard, lift and move virtual papers, shake hands, move items, etc. In some collaborative environments, one or more of the users may be wearing an HMD. When the HMD is used in conjunction with the glove or gloves (e.g., worn by one or more users), the users may see a virtual environment in which they can collaborate using their hands, such as moving objects, pages, objects, typing on virtual keyboards, moving virtual pages, tapping on things, pressing on things, etc.



[0098] Therefore, it should be understood that the uses of a glove that includes one or more sensors, and/or can detect pressure, and/or can detect bending position of fingers, and/or can detect orientation, and/or can detect inertial movement, etc., can provide for a broad scope of uses. Example uses, without limitation, may include video gaming, entertainment activities, sport related activities, travel and exploring related activities, human-to-human contact (e.g., shaking hands of a remote user), business activities, etc. In one implementation, this type of interactivity provided by a glove interface may be extended to additional sensors that may be attached or associated with other parts of the human body (e.g., an arm, a leg, a foot, etc.). In addition to gloves, different types of clothes are envisioned, e.g., jackets, pants, shoes, hats, etc.



[0106] The bracelet 120 can include various electronics for communicating with other devices of the glove interface object 104, such as various sensors as are described in the present disclosure. In one embodiment, the bracelet 120 includes a sensor data processor 126 for processing data received from various sensors of the glove interface object, such as flex sensors, pressure sensors, contact switches, index thumb touchpad, biometric sensors, etc. Furthermore, the bracelet 120 may include a communications module 128 that is configured to transmit and/or receive data from other devices, such as the computing device 106 and/or the headmounted display 102.