Systems and methods for creating personalized exercise programs are disclosed. An image capture device and a computer device are used to capture images of a user while the user performs athletic movements. The images may then be evaluated to create a human movement screen score. The human movement screen score, goal and time commitment information may then be used to create a personalized exercise program tailored to the specific user.

An multi-dimensional game comprises a physical component including a game board and game pieces and a virtual component including a virtual environment displayed on a display device. A user is able to play the game by interacting with the virtual or physical component, wherein in order to complete tasks in the game the user must transition between interacting with the virtual component and the physical component. The physical component comprises game blocks, which are able to couple to each other and form objects that are then represented in the virtual component.

One embodiment is directed to a system for enabling two or more users to interact within a virtual world comprising virtual world data, comprising a computer network comprising one or more computing devices, the one or more computing devices comprising memory, processing circuitry, and software stored at least in part in the memory and executable by the processing circuitry to process at least a portion of the virtual world data; wherein at least a first portion of the virtual world data originates from a first user virtual world local to a first user, and wherein the computer network is operable to transmit the first portion to a user device for presentation to a second user, such that the second user may experience the first portion from the location of the second user, such that aspects of the first user virtual world are effectively passed to the second user.

Using a camera or other tracking hardware, the attention of a player of a computer game (based on gaze direction, for instance) is tracked at key/predetermined points during game play. For example, when the player enters a new area in the game such as a simulated room, town, etc., it is determined what the player's gaze focuses on more, e.g., a dog huddled in the corner, a nobleman with obvious signs of wealth, or a shifty appearing figure in the shadows. Based on this input, one or more factors of future gameplay are determined, such as an order in which to present encounters/challenges, adjusting a character's “morality” score/flag, adjusting bonuses/penalties to non-player character (NPC) interactions, etc.

A method to identify positions of fingers of a hand is described. The method includes capturing images of a first hand using a plurality of cameras that are part of a wearable device. The wearable device is attached to a wrist of a second hand and the plurality of cameras of the wearable device is disposed around the wearable device. The method includes repeating capturing of additional images of the first hand, the images and the additional images captured to produce a stream of captured image data during a session of presenting the virtual environment in a head mounted display (HMD). The method includes sending the stream of captured image data to a computing device that is interfaced with the HMD. The computing device is configured to process the captured image data to identify changes in positions of the fingers of the first hand.

Embodiments of the present invention are directed to a gaming device configured to record gaming activity, a method of processing the recorded gaming activity to analyze player behavior, and a system including the gaming device. The gaming device may include a gaming display to display gaming events played on the gaming device by a player during a gaming session, a player interface panel including a plurality of gaming buttons and a game initiating button configured to initiate the gaming events, and a game processor configured to record each activity between the player and the gaming device, wherein each recorded activity is associated with a time stamp.

Virtual entities are displayed alongside real world entities in a wearable reality overlay device worn by the user. Information related to an environment proximate to the wearable device is determined. For example, a position of the wearable device may be determined, a camera may capture an image of the environment, etc. Virtual entity image information representative of an entity desired to be virtually displayed is processed based on the determined information. An image of the entity is generated based on the processed image information as a non-transparent region of a lens of the wearable device, enabling the entity to appear to be present in the environment to the user. The image of the entity may conceal a real world entity that would otherwise be visible to the user through the wearable device. Other real world entities may be visible to the user through the wearable device.

A method for controlling movement of a virtual character in a virtual reality environment provided by a virtual reality device is disclosed. The virtual reality device comprising a motion tracker, wherein positions of the virtual character in the virtual reality environment correlate to positions of a user of the virtual reality device in a physical movement area. The method comprises obtaining positions of the virtual reality device in the physical movement area from the motion tracker, determining positions of the virtual character in the virtual reality environment based on the obtained positions of the virtual reality device in the physical movement area, and controlling movement of the virtual character in the virtual reality environment by applying the determined positions in a movement of the virtual character in relation to a position C in the physical movement area. Corresponding computer program product, apparatus, and virtual reality headset are also disclosed.

One embodiment is directed to a system for enabling two or more users to interact within a virtual world comprising virtual world data, comprising a computer network comprising one or more computing devices, the one or more computing devices comprising memory, processing circuitry, and software stored at least in part in the memory and executable by the processing circuitry to process at least a portion of the virtual world data; wherein at least a first portion of the virtual world data originates from a first user virtual world local to a first user, and wherein the computer network is operable to transmit the first portion to a user device for presentation to a second user, such that the second user may experience the first portion from the location of the second user, such that aspects of the first user virtual world are effectively passed to the second user.

A method to identify positions of fingers of a hand is described. The method includes capturing images of a first hand using a plurality of cameras that are part of a wearable device. The wearable device is attached to a wrist of a second hand and the plurality of cameras of the wearable device is disposed around the wearable device. The method includes repeating capturing of additional images of the first hand, the images and the additional images captured to produce a stream of captured image data during a session of presenting the virtual environment in a head mounted display (HMD). The method includes sending the stream of captured image data to a computing device that is interfaced with the HMD. The computing device is configured to process the captured image data to identify changes in positions of the fingers of the first hand.