A head mounted display (HMD) is provided. The HMD includes a housing and a view port of the housing. The view port has a screen for rendering an augmented reality scene. Included is a communications device for exchanging streaming data over a network. A depth camera integrated in the housing and oriented to capture depth data of an environment in front of the housing is included. A processor is configured to use the depth data captured by the depth camera to identify spatial positioning of real objects in the environment. A real object is rendered into the augmented reality scene, and the real object is tracked such that insertion of augmented reality objects are placed in coordination with movements of the real object shown in the augmented reality scene. The real object captured by the depth camera is the environment where a user wearing the HMD is located.

A head mounted display (HMD) is provided. The HMD includes a housing and a view port of the housing. The view port has a screen for rendering an augmented reality scene. Included is a communications device for exchanging streaming data over a network. A depth camera integrated in the housing and oriented to capture depth data of an environment in front of the housing is included. A processor is configured to use the depth data captured by the depth camera to identify spatial positioning of real objects in the environment. A real object is rendered into the augmented reality scene, and the real object is tracked such that insertion of augmented reality objects are placed in coordination with movements of the real object shown in the augmented reality scene. The real object captured by the depth camera is the environment where a user wearing the HMD is located.

Aspects of the present disclosure involve a system comprising a computer-readable storage medium storing a program and a method for detecting a pose of a user. The program and method include operations comprising receiving a monocular image that includes a depiction of a body of a user; detecting a plurality of skeletal joints of the body based on the monocular image; accessing a video feed comprising a plurality of monocular images received prior to the monocular image; filtering, using the video feed, the plurality of skeletal joints of the body detected based on the monocular image; and determining a pose represented by the body depicted in the monocular image based on the filtered plurality of skeletal joints of the body.

A computing system is provided. The computing system includes a server having one or more processors configured to receive from a user computing device run-time telemetry data, the run-time telemetry data being recorded during execution of a target program of a plurality of programs by the user computing device and being indicative of communication between the user computing device and a user input device. The one or more processors are further configured to determine a performance metric based on the run-time telemetry data, determine an updated driver parameter for the target program based on the determined performance metric, send the updated driver parameter to the user computing device, and apply the updated driver parameter for use during a subsequent execution of the target program.

This application discloses a method and apparatus for selecting an accessory in a virtual environment. The method includes: displaying a first virtual environment interface; receiving a trigger operation on an accessory switching control; displaying a candidate accessory zone in a local peripheral region of the accessory switching control according to the trigger operation; receiving a selection operation on a target gun accessory in n gun accessories; and displaying a second virtual environment interface according to the selection operation. The accessory switching control is displayed superimposed on a picture. When the trigger operation on the accessory switching control is received, the candidate accessory zone is displayed in the peripheral region of the accessory switching control, and the n gun accessories of the same accessory type are displayed in the candidate accessory zone.

Methods for controlling an aspect of an application in a mobile or wearable device and a mobile or wearable device user's representation in real time are described, where the user is performing a gait activity with a gait cadence, and the gait cadence is used for control. Additional user's mobility characteristics leveraged for control may include velocity and stride length, and the sensors utilized to obtain any contextual information may be accelerometers.

Systems and methods for facilitating streaming interfaces for games are disclosed. Exemplary implementations may: obtain first view information based on an instance of a game for a first presentation of the game to a first user on a first client computing platform; effectuate a first presentation of the game to the first user via the first client computing platform; obtain second view information that includes a second graphical user interface; and effectuate a second presentation of the first user playing the game to a second user.

Systems and methods for facilitating streaming interfaces for games are disclosed. Exemplary implementations may: obtain first view information based on an instance of a game for a first presentation of the game to a first user on a first client computing platform; effectuate a first presentation of the game to the first user via the first client computing platform; obtain second view information that includes a second graphical user interface; and effectuate a second presentation of the first user playing the game to a second user.

The present disclosure provides a terminal vibration evaluation method performed by an electronic device. The method includes: acquiring an actual vibration curve of a target terminal when a target game scenario is displayed; acquiring a predefined vibration description file associated with the target game scenario, and determining a predefined vibration curve according to the predefined vibration description file; determining target deviation data between the actual vibration curve and the predefined vibration curve; and determining, according to the target deviation data, whether vibration of the target terminal matches the target game scenario. The present disclosure provides a measurement solution used for determining whether terminal vibration matches a game scenario (for example, a game sound and a game picture), which helps improve a matching degree between terminal vibration and the game scenario, thereby improving a sense of substitution of the game and a sense of immersion of a player.

A play system, comprising: one or more toys comprising one or more electrically conductive parts, the one or more conductive parts defining a spatial pattern, the one or more toys having a physical configuration that is modifiable by a user, the spatial pattern being dependent on the physical configuration of the one or more toys, the one or more toys including a first toy; a magnetic field generating device arranged to generate a magnetic field for inducing an eddy current in one or more of the electrically conductive parts; a sensor configured to detect the induced eddy current; and a data processor; wherein the first toy and at least one of the magnetic field generating device and the sensor are movable relative to each other; wherein the sensor is configured to detect the induced eddy current during relative movement between the first toy and at least one of the magnetic field generating device and the sensor, and wherein the data processor is configured to: receive sensor data from the sensor, the sensor data being indicative of the eddy current detected during relative movement between the first toy and at least one of the magnetic field generating device and the sensor, detect the spatial pattern of the electrically conductive parts based at least in part on the received sensor data, determine the physical configuration of the one or more toys based on the detected spatial pattern.