A toy vehicle track system of the present application includes electrical connections between the track pieces that allow a central hub, referred to herein as a portal piece, to communicate with any track pieces included in the track system. In order to ensure that the portal piece can quickly and accurately identify track configurations that are built, the toy vehicle track system implements a communications protocol that supports communications between any two pieces of track. Based on these communications, the portal piece can determine an orientation, a track type, and a position of any track pieces attached, whether directly or indirectly, to the portal piece. The portal piece can then transmit this information to an electronic device executing an application associated with the track system to allow for digital play on a digital version of the track configuration (among other digital play modes).

Systems and methods for verifying an advertisement impression in a digital environment are provided. In some aspects, methods of the subject technology include operations for defining a portion of the digital environment as an impression area, wherein the impression area is associated with a tagged advertisement area, providing a stream of an advertisement to the tagged advertisement area, and updating advertising impression information stored in memory regarding the advertisement, wherein an advertising impression is based on the identification of the character within the impression area and the availability of an unobstructed line-of-sight between the character and the tagged advertisement area. In some aspects, computer readable media are also provided.

Navigation systems and associated methods for providing navigation services are provided. Information associated with a desired route for a vehicle, such as a route between a current location and a desired destination, may be determined. Additionally, contextual information associated with the vehicle may be identified. Based upon the desired route and the contextual information, a direction may be generated for presentation to one or more users, and the generated direction may be output for presentation.

A system and method for full body movement control of dual joystick operated devices. The system uses two motion sensors: a first motion sensor for body lean and tilt, and a second motion sensor for head rotation and tilt. The output from the first motion sensor is converted into a virtual joystick output signal corresponding to a first standard joystick which controls one aspect of movement, and the output from the second motion sensor is converted into a virtual joystick output signal corresponding to a second standard joystick which controls a different aspect of movement.

Device linking is described. In one or more implementations, data is maintained at a network service that describes characteristics of a plurality of devices that are associated with a user account of the network service. A communication is formed to be received by one of the plurality of devices that includes a portion of the data that pertains to another one of the plurality of devices and that is suitable by the receiving device to discover the other one of the plurality of devices to initiate a local network connection between the devices.

The invention has for object a game controller having an actuator (2, 102) mobile in rotation in relation to a fixed part (3, 103), in such a way as to simulate a control of the rotation of a steering column of a simulated vehicle. According to the invention, the game controller implements means for detecting the displacement in rotation of the actuator (2, 102) comprising at least one Hall effect or magnetoresistive effect detecting unit, constituted of at least two elements, of which a permanent magnet and a magnetic sensor (24, 124). At least during the rotation of the actuator (2, 102), a first element is integral in rotation with the actuator (2, 102) and a second element is integral in rotation with said fixed part (3, 103).

A handheld controller includes a three-axis, linear acceleration sensor that can detect linear acceleration in three directions, i.e., the up/down direction (Y-axis), the left/right direction (Z-axis), and the forward/backward direction (X-axis). A programmed object adjustment process adjusts a falling object to decrease the velocity v at which the object is moving in response to detected tilt changes in a first direction, and to increase the velocity v at which the object is moving in response to detected tilt changes in a second direction different from the first direction.

A reusable video game camera rig framework is described herein. The framework may include instruction sets for controlling a virtual camera rig, which is used to set a position and orientation of a virtual camera within a virtual area of a video game. The instruction sets may be reusable in a variety of different camera contexts, such as a first person camera, a third person camera, a top-down camera, and many others. The instruction sets may also be reusable in a variety of different video game contexts, such as combat games, sports games, fantasy games, racing games, and many others. The instruction sets may be both modifiable and extendible to different camera and game contexts, for example allowing developers to easily generate new camera behaviors for their games and also to modify existing available camera behaviors to better match their particular camera and game contexts.

A system and method for full body movement control of dual joystick operated devices. The system uses two motion sensors: a first motion sensor for body lean and tilt, and a second motion sensor for head rotation and tilt. The output from the first motion sensor is converted into a virtual joystick output signal corresponding to a first standard joystick which controls one aspect of movement, and the output from the second motion sensor is converted into a virtual joystick output signal corresponding to a second standard joystick which controls a different aspect of movement.

Each of a first information processing apparatus and a second information processing apparatus includes a display, an operation portion, and a radio communication unit. The second apparatus transmits operation information accepted by the operation portion of the second apparatus to the first apparatus through the radio communication unit. The first apparatus performs application processing based on operation information accepted by the operation portion of the first apparatus and the operation information from the second apparatus, generates an application image including a result of execution of the application processing, shows the application image on the display of the first apparatus, and transmits the application image to the second apparatus through the radio communication unit of the first apparatus. The second apparatus shows the application image from the first apparatus on the display of the second apparatus.