AILIVE, INC. Patent applications |
Patent application number | Title | Published |
20140092009 | Methods and Systems for Dynamic Calibration of Movable Game Controllers - A video gaming system includes a wireless controller that senses linear and angular acceleration to calculate paths of controller movement over a broad range of controller motion. The system also includes an electromagnetic alignment element, such as a set of LEDS. The controller includes an additional sensor to sense light from the LEDs over a relatively restricted range of controller motion, and use this sensed light to dynamically calibrate the controller when the controller passes through the restricted range of motion over which the sensor senses the light. | 04-03-2014 |
20120256835 | Motion control used as controlling device - Techniques for using a motion sensitive device as a controller are disclosed. A motion controller as an input/control device is used to control an existing electronic device (a.k.a., controlled device) previously configured for taking inputs from a pre-defined controlling device. The signals from the input device are in a different form from the pre-defined controlling device. According to one aspect of the present invention, the controlled device was designed to respond to signals from a pre-defined controlling device (e.g., a touch-screen device). The inputs from the motion controller are converted into touch-screen like signals that are then sent to the controlled device or programs being executed in the controlled device to cause the behavior of the controlled device to change or respond thereto, without reconfiguration of the applications running on the controlled device. | 10-11-2012 |
20120208639 | Remote control with motion sensitive devices - Techniques for using a variety of motion sensitive signals to remotely control an existing electronic device or system are described. Output signals from a motion sensitive device may be in a different form from those of a pre-defined controlling device. According to one aspect of the present invention, a controlled device is designed to respond to signals from a touch screen or touch screen-like signals. The output signals from a motion sensitive device include motion sensitive inputs to a controlled device and converted into touch-screen like signals that are coupled to the controlled device or programs being executed in the controlled device, subsequently causing the behavior of the controlled device to change or respond thereto, without reconfiguration of the applications running on the controlled device. | 08-16-2012 |
20120169887 | Method and system for head tracking and pose estimation - Techniques for performing accurate and automatic head pose estimation are disclosed. According to one aspect of the techniques, head pose estimation is integrated with a scale-invariant head tracking method along with facial features detected from a located head in images. Thus the head pose estimation works efficiently even when there are large translational movements resulting from the head motion. Various computation techniques are used to optimize the process of estimation so that the head pose estimation can be applied to control one or more objects in a virtual environment and virtual character gaze control. | 07-05-2012 |
20100113153 | Self-Contained Inertial Navigation System for Interactive Control Using Movable Controllers - A movable game controller for controlling aspects of a computer controlled game display with apparatus for determining the linear and angular motion of that movable controller. The apparatus includes a plurality of self-contained inertial sensors for sensing the tri-axial linear and tri-axial angular motion of the moving controller. Each sensor is mounted at a fixed linear position and orientation with respect to the others. The linear and angular motion of the controller is computed from the correlated motion sensor readings of each of the plurality of self-contained inertial sensors. | 05-06-2010 |
20100004896 | Method and apparatus for interpreting orientation invariant motion - Techniques for interpreting orientation invariant motion are disclosed. Unlike a prior art controller (e.g., a WII game controller) that has a specific physical design to induce or force a user to grip the controller in a consistent way, a disclosed controller does not have such a physical design and allow a user to grip the controller in any way that is comfortable to the user (e.g., around an axis z), one or more transformation or rotations are designed to transform or rotate readings from inertial sensors housed in the controller to readings independent from how the controller is being gripped by a user. | 01-07-2010 |
20090288064 | Method and apparatus for non-disruptive embedding of specialized elements - Techniques for non-disruptive embedding of specialized elements are disclosed. In one aspect of the techniques, ontology is defined to specify an application domain. A program interface (API) is also provided for creating raw features by a developer. Thus a module is provided for at least one form of statistical analysis within the ontology. The module is configured automatically in a computing device with the API in response to a system consistent with the ontology, wherein the system has no substantial requirement for specialized knowledge of that form of statistical analysis, and the module has no substantial requirement for specialized knowledge of particular functions provided by the system. | 11-19-2009 |
20090221374 | Method and system for controlling movements of objects in a videogame - Techniques for controlling movements of an object in a videogame are disclosed. At least one video camera is used at a location where at least a player plays the videogame, the video camera captures various movements of the player. A designated device (e.g., a game console or computer) is configured to the video data to derive the movements of the player from the video data, and cause the object to respond to the movements of the player. When the designated device receives video data from more than one locations, players at the respective locations can play a networked videogame that may be built upon a shared space representing some or all of the real-world spaces of the locations. The video game is embedded with objects, some of which respond to the movements of the players and interact with other objects in accordance with rules of the video games. | 09-03-2009 |
20090221368 | Method and system for creating a shared game space for a networked game - Techniques for creating a shared virtual space based on one or more real-world spaces are disclosed. Representations of the real-world spaces are combined in different ways to create a shared virtual game space within which each person's real-world movements are interpreted to create a shared feeling of physical proximity and physical interaction with other people on the network. One or more video cameras in one real-world area are provided to generate video data capturing the users as well as the environment of the users. The shared virtual space is created in reference to the respective real-world spaces that may be combined in various ways. Depending on a particular application, the shared virtual space will be embedded with various virtual objects and representative objects. Together with various rules and scoring mechanisms, such a shared virtual space may be used in a videogame that can be played by multiple players in a game space within which player's movements are interpreted to create a shared feeling of physical proximity and physical interaction with other players on the network. | 09-03-2009 |