| Patent application number | Description | Published |
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| 20080271053 | Proteins, Pools, and Slawx in Processing Environments - Embodiments described herein include mechanisms for encapsulating data that needs to be shared between or across processes. These mechanisms include slawx (plural of “slaw”), proteins, and pools. Generally, slawx provide the lowest-level of data definition for inter-process exchange, proteins provide mid-level structure and hooks for querying and filtering, and pools provide for high-level organization and access semantics. Slawx includes a mechanism for efficient, platform-independent data representation and access. Proteins provide a data encapsulation and transport scheme using slawx as the payload. Pools provide structured and flexible aggregation, ordering, filtering, and distribution of proteins within a process, among local processes, across a network between remote or distributed processes, and via longer term (e.g. on-disk, etc.) storage. | 10-30-2008 |
| 20090231278 | Gesture Based Control Using Three-Dimensional Information Extracted Over an Extended Depth of Field - Systems and methods are described for gesture-based control using three-dimensional information extracted over an extended depth of field. The system comprises a plurality of optical detectors coupled to at least one processor. The optical detectors image a body. At least two optical detectors of the plurality of optical detectors comprise wavefront coding cameras. The processor automatically detects a gesture of the body, wherein the gesture comprises an instantaneous state of the body. The detecting comprises aggregating gesture data of the gesture at an instant in time. The gesture data includes focus-resolved data of the body within a depth of field of the imaging system. The processor translates the gesture to a gesture signal, and uses the gesture signal to control a component coupled to the processor. | 09-17-2009 |
| 20090237763 | User Interaction with Holographic Images - User input is facilitated through gestural inputs with displayed two and three-dimensional objects using a holographic device and film that displays a static, digitally generated, three-dimensional, autostereoscopic, full-parallax, real image and a digital projector that displays dynamic images. A system includes computer-detectable tags mounted on a user-wearable glove, and on a base plate that holds the holographic device. The system determines the locations of the tags, and calculates a location of a feature of the image based on the locations of the tags. The system also determines the location, pose, and gestural motion of the input device based on the location of the tags. The system further calculates a distance and direction between the input device and the feature of the image. | 09-24-2009 |
| 20090278915 | Gesture-Based Control System For Vehicle Interfaces - Systems and method for controlling vehicle subsystems using gestures are described. The controlling comprises receiving an image of an object via sensors in a vehicle and outputting gesture data representing a gesture made by the object. The object comprises at least one hand and/or finger of a user. The gesture data is an instantaneous state of the object at a point in time in space. The controlling comprises automatically detecting the gesture of the object from the gesture data by extracting positions of the object, recovering quantized poses and orientation vectors of the object, and translating the gesture data to a gesture signal. The controlling comprises managing user interactions with the vehicle subsystems in response to the gesture signal. | 11-12-2009 |
| 20100053304 | Control System for Navigating a Principal Dimension of a Data Space - Systems and methods are described for navigating through a data space. The navigating comprises detecting a gesture of a body from gesture data received via a detector. The gesture data is absolute three-space location data of an instantaneous state of the body at a point in time and physical space. The detecting comprises identifying the gesture using the gesture data. The navigating comprises translating the gesture to a gesture signal, and navigating through the data space in response to the gesture signal. The data space is a data-representational space comprising a dataset represented in the physical space. | 03-04-2010 |
| 20100060570 | Control System for Navigating a Principal Dimension of a Data Space - Systems and methods are described for navigating through a data space. The navigating comprises detecting a gesture of a body from gesture data received via a detector. The gesture data is absolute three-space location data of an instantaneous state of the body at a point in time and physical space. The detecting comprises identifying the gesture using the gesture data. The navigating comprises translating the gesture to a gesture signal, and navigating through the data space in response to the gesture signal. The data space is a data-representational space comprising a dataset represented in the physical space. | 03-11-2010 |
| 20100060576 | Control System for Navigating a Principal Dimension of a Data Space - Systems and methods are described for navigating through a data space. The navigating comprises detecting a gesture of a body from gesture data received via a detector. The gesture data is absolute three-space location data of an instantaneous state of the body at a point in time and physical space. The detecting comprises identifying the gesture using the gesture data. The navigating comprises translating the gesture to a gesture signal, and navigating through the data space in response to the gesture signal. The data space is a data-representational space comprising a dataset represented in the physical space. | 03-11-2010 |
| 20100090946 | System and Method for Gesture Based Control System - The system provides a gestural interface to various visually presented elements, presented on a display screen or screens. A gestural vocabulary includes ‘instantaneous’ commands, in which forming one or both hands into the appropriate ‘pose’ results in an immediate, one-time action; and ‘spatial’ commands, in which the operator either refers directly to elements on the screen by way of literal ‘pointing’ gestures or performs navigational maneuvers by way of relative or “offset” gestures. The system contemplates the ability to identify the users hands in the form of a glove or gloves with certain indicia provided thereon, or any suitable means for providing recognizable indicia on a user's hands or body parts. A system of cameras can detect the position, orientation, and movement of the user's hands and translate that information into executable commands. | 04-15-2010 |
| 20100090947 | System and Method for Gesture Based Control System - The system provides a gestural interface to various visually presented elements, presented on a display screen or screens. A gestural vocabulary includes ‘instantaneous’ commands, in which forming one or both hands into the appropriate ‘pose’ results in an immediate, one-time action; and ‘spatial’ commands, in which the operator either refers directly to elements on the screen by way of literal ‘pointing’ gestures or performs navigational maneuvers by way of relative or “offset” gestures. The system contemplates the ability to identify the users hands in the form of a glove or gloves with certain indicia provided thereon, or any suitable means for providing recognizable indicia on a user's hands or body parts. A system of cameras can detect the position, orientation, and movement of the user's hands and translate that information into executable commands. | 04-15-2010 |
| 20100127968 | MULTI-PROCESS INTERACTIVE SYSTEMS AND METHODS - A multi-process interactive system is described. The system includes numerous processes running on a processing device. The processes include separable program execution contexts of application programs, such that each application program comprises at least one process. The system translates events of each process into data capsules. A data capsule includes an application-independent representation of event data of an event and state information of the process originating the content of the data capsule. The system transfers the data messages into pools or repositories. Each process operates as a recognizing process, where the recognizing process recognizes in the pools data capsules comprising content that corresponds to an interactive function of the recognizing process and/or an identification of the recognizing process. The recognizing process retrieves recognized data capsules from the pools and executes processing appropriate to contents of the recognized data capsules. | 05-27-2010 |
| 20100128062 | MULTI-PROCESS INTERACTIVE SYSTEMS AND METHODS - A multi-process interactive system is described. The system includes numerous processes running on a processing device. The processes include separable program execution contexts of application programs, such that each application program comprises at least one process. The system translates events of each process into data capsules. A data capsule includes an application-independent representation of event data of an event and state information of the process originating the content of the data capsule. The system transfers the data messages into pools or repositories. Each process operates as a recognizing process, where the recognizing process recognizes in the pools data capsules comprising content that corresponds to an interactive function of the recognizing process and/or an identification of the recognizing process. The recognizing process retrieves recognized data capsules from the pools and executes processing appropriate to contents of the recognized data capsules. | 05-27-2010 |
| 20100131549 | MULTI-PROCESS INTERACTIVE SYSTEMS AND METHODS - A multi-process interactive system is described. The system includes numerous processes running on a processing device. The processes include separable program execution contexts of application programs, such that each application program comprises at least one process. The system translates events of each process into data capsules. A data capsule includes an application-independent representation of event data of an event and state information of the process originating the content of the data capsule. The system transfers the data messages into pools or repositories. Each process operates as a recognizing process, where the recognizing process recognizes in the pools data capsules comprising content that corresponds to an interactive function of the recognizing process and/or an identification of the recognizing process. The recognizing process retrieves recognized data capsules from the pools and executes processing appropriate to contents of the recognized data capsules. | 05-27-2010 |
| 20100280988 | Detecting, Representing, and Interpreting Three-Space Input: Gestural Continuum Subsuming Freespace, Proximal, and Surface-Contact Modes - Systems and methods for detecting, representing, and interpreting three-space input are described. Embodiments of the system, in the context of an SOE, process low-level data from a plurality of sources of spatial tracking data and analyze these semantically uncorrelated spatiotemporal data and generate high-level gestural events according to dynamically configurable implicit and explicit gesture descriptions. The events produced are suitable for consumption by interactive systems, and the embodiments provide one or more mechanisms for controlling and effecting event distribution to these consumers. The embodiments further provide to the consumers of its events a facility for transforming gestural events among arbitrary spatial and semantic frames of reference. | 11-04-2010 |
| 20100281440 | Detecting, Representing, and Interpreting Three-Space Input: Gestural Continuum Subsuming Freespace, Proximal, and Surface-Contact Modes - Systems and methods for detecting, representing, and interpreting three-space input are described. Embodiments of the system, in the context of an SOE, process low-level data from a plurality of sources of spatial tracking data and analyze these semantically uncorrelated spatiotemporal data and generate high-level gestural events according to dynamically configurable implicit and explicit gesture descriptions. The events produced are suitable for consumption by interactive systems, and the embodiments provide one or more mechanisms for controlling and effecting event distribution to these consumers. The embodiments further provide to the consumers of its events a facility for transforming gestural events among arbitrary spatial and semantic frames of reference. | 11-04-2010 |
| 20110018803 | Spatial, Multi-Modal Control Device For Use With Spatial Operating System - A system comprising an input device includes a detector coupled to a processor. The detector detects an orientation of the input device. The input device has multiple modal orientations corresponding to the orientation. The modal orientations correspond to multiple input modes of a gestural control system. The detector is coupled to the gestural control system and automatically controls selection of an input mode in response to the orientation. | 01-27-2011 |
| 20110025598 | Spatial, Multi-Modal Control Device For Use With Spatial Operating System - A system comprising an input device includes a detector coupled to a processor. The detector detects an orientation of the input device. The input device has multiple modal orientations corresponding to the orientation. The modal orientations correspond to multiple input modes of a gestural control system. The detector is coupled to the gestural control system and automatically controls selection of an input mode in response to the orientation. | 02-03-2011 |
| 20110025603 | Spatial, Multi-Modal Control Device For Use With Spatial Operating System - A system comprising an input device includes a detector coupled to a processor. The detector detects an orientation of the input device. The input device has multiple modal orientations corresponding to the orientation. The modal orientations correspond to multiple input modes of a gestural control system. The detector is coupled to the gestural control system and automatically controls selection of an input mode in response to the orientation. | 02-03-2011 |
