Patent application number | Description | Published |
20110185286 | WEB BROWSER INTERFACE FOR SPATIAL COMMUNICATION ENVIRONMENTS - A web browser interface for visualizing realtime network communications in spatial communication environments allows communicants to interact with other communicants in an immersive spatial communication environment without having to install any specialized communication software and without requiring special proxies or firewall additions or exceptions. | 07-28-2011 |
20120207290 | TELEPHONY INTERFACE FOR VIRTUAL COMMUNICATION ENVIRONMENTS - A telephony interface for realtime network communications in virtual communication environments allows telephony communicants to interact with other communicants in an immersive communication environment. | 08-16-2012 |
20120215900 | PERSISTENT NETWORK RESOURCE AND VIRTUAL AREA ASSOCIATIONS FOR REALTIME COLLABORATION - Apparatus and methods relating to persistent network resource and virtual area associations for realtime collaboration include managing and displaying an object associated with a virtual area that supports establishment of respective presences of communicants operating respective client network nodes. Examples of the object include an object that has one or more user-modifiable property fields and an object that is associated with screen sharing functionality of the client network node. | 08-23-2012 |
20120216131 | PERSISTENT NETWORK RESOURCE AND VIRTUAL AREA ASSOCIATIONS FOR REALTIME COLLABORATION - Apparatus and methods relating to persistent network resource and virtual area associations for realtime collaboration include managing and displaying an object associated with a virtual area that supports establishment of respective presences of communicants operating respective client network nodes. Examples of the object include an object that has one or more user-modifiable property fields and an object that is associated with screen sharing functionality of the client network node. | 08-23-2012 |
20120254858 | CREATING VIRTUAL AREAS FOR REALTIME COMMUNICATIONS - Examples that are described herein provide systems and methods for creating virtual areas for realtime communications. Some examples provide a quick and easy process for creating a virtual area for a set of communicants and provisioning those communicants for realtime communications in the virtual area. Some examples provide a quick and easy way for a user to wrap a realtime communications framework around a network service. Through seamless integration of realtime communications (e.g., realtime audio, video, chat, screen sharing, and file transfer) in persistent virtual areas, these examples are able to enhance and improve communicants' experiences with a network service relative to traditional browser based methods of collaborating on network service based projects. | 10-04-2012 |
20130263017 | ENCAPSULATING VIRTUAL AREA BASED COMMUNICANT ASSEMBLIES - Realtime communications between communicants in a virtual area are administered. Assemblies of copresent communicants in the virtual area are detected. For each of respective ones of the detected assemblies, a respective meeting object linked to information relating to communicant interactions in the assembly is generated. Respective meeting summary data is determined based on the information linked to selected ones of the meeting objects meeting objects. The determined meeting summary data is transmitted to a network node for display. A visualization of summaries of respective assemblies of copresent communicants in the virtual area is presented on a display. | 10-03-2013 |
20140047027 | CONTEXT BASED VIRTUAL AREA CREATION - Examples of systems and methods for context based virtual area creation are described. Some examples provide a quick and easy way for users to wrap virtual areas around contexts of interest. Examples of such contexts may be defined in terms of one or more of content, people, and real-world location. The virtual areas support realtime communications between communicants (e.g., one or more of text chat, voice, video, application sharing, and file sharing) and provide a persistent historical repository for interactions in the virtual area. Summaries of activities and other events in virtual areas typically are published in realtime so that other communicants can readily obtain a quick summary of the activities occurring in a particular context and decide whether or not to join or otherwise participate in those activities. | 02-13-2014 |
Patent application number | Description | Published |
20080240350 | METHOD AND DEVICE FOR DELIVERING RADIOTHERAPY | 10-02-2008 |
20090067577 | PATIENT ALIGNMENT SYSTEM WITH EXTERNAL MEASUREMENT AND OBJECT COORDINATION FOR RADIATION THERAPY SYSTEM - A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems. | 03-12-2009 |
20100192303 | MODULAR PATIENT SUPPORT SYSTEM - A radiation treatment system ( | 08-05-2010 |
20100292847 | PATH PLANNING AND COLLISION AVOIDANCE FOR MOVEMENT OF INSTRUMENTS IN A RADIATION THERAPY ENVIRONMENT - A patient positioning system for use with a radiation therapy system that monitors the location of fixed and movable components and pre-plans movement of the movable components so as to inhibit movement if a collision would be indicated. The positioning system can also coordinate movement of multiple movable components for reduced overall latency in registering a patient. The positioning system includes external measurement devices which measure the location and orientation of objects, including components of the radiation therapy system, in space and can also monitor for intrusion into the active area of the therapy system by personnel or foreign objects to improve operational safety of the radiation therapy system. | 11-18-2010 |
20110057122 | METHOD AND DEVICE FOR DELIVERING RADIOTHERAPY | 03-10-2011 |
20110218679 | PATH PLANNING AND COLLISION AVOIDANCE FOR MOVEMENT OF INSTRUMENTS IN A RADIATION THERAPY ENVIRONMENT - Apparatus and methods for therapy delivery are disclosed. In one embodiment, a therapy delivery system includes a plurality of movable components including a radiation therapy nozzle and a patient pod for holding a patient, a patient registration module for determining a desired position of at least one of the plurality of movable components, and a motion control module for coordinating the movement of the least one of the plurality of movable components from a current position to the desired position. The motion control module includes a path planning module for simulating at least one projected trajectory of movement of the least one of the plurality of moveable components from the current position to the desired position. | 09-08-2011 |
20120045038 | METHOD AND DEVICE FOR DELIVERING RADIOTHERAPY | 02-23-2012 |
20120104276 | MODULAR PATIENT SUPPORT SYSTEM - A radiation treatment system ( | 05-03-2012 |
20120224667 | PATH PLANNING AND COLLISION AVOIDANCE FOR MOVEMENT OF INSTRUMENTS IN A RADIATION THERAPY ENVIRONMENT - Apparatus and methods for therapy delivery are disclosed. In one embodiment, a therapy delivery system includes a plurality of movable components including a radiation therapy nozzle and a patient pod for holding a patient, a patient registration module for determining a desired position of at least one of the plurality of movable components, and a motion control module for coordinating the movement of the least one of the plurality of movable components from a current position to the desired position. The motion control module includes a path planning module for simulating at least one projected trajectory of movement of the least one of the plurality of moveable components from the current position to the desired position. | 09-06-2012 |
20120323516 | PATIENT ALIGNMENT SYSTEM WITH EXTERNAL MEASUREMENT AND OBJECT COORDINATION FOR RADIATION THERAPY SYSTEM - A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems. | 12-20-2012 |
20130150645 | METHOD AND DEVICE FOR REGISTRATION AND IMMOBILIZATION - Support devices and pods for the head and neck region of patients undergoing radiation therapy are provided herein. The pod generally includes a support shell shaped to generally conform to the shape of the head and neck region of the patient, a foam insert that conforms to the head and neck region of the patient, and an immobilization facemask attached directly to the shell, thereby facilitating close placement of the radiation beam delivery device to the patient and reducing any attenuation and perturbation of radiation doses directed at the patient. The components of the pod are made from materials having properties that reduce any attenuation and perturbation of prescribed radiation doses. | 06-13-2013 |
20140163300 | PATIENT ALIGNMENT SYSTEM WITH EXTERNAL MEASUREMENT AND OBJECT COORDINATION FOR RADIATION THERAPY SYSTEM - A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems. | 06-12-2014 |
20140316183 | METHOD AND DEVICE FOR REGISTRATION AND IMMOBILIZATION - Support devices and pods for the head and neck region of patients undergoing radiation therapy are provided herein. The pod generally includes a support shell shaped to generally conform to the shape of the head and neck region of the patient, a foam insert that conforms to the head and neck region of the patient, and an immobilization facemask attached directly to the shell, thereby facilitating close placement of the radiation beam delivery device to the patient and reducing any attenuation and perturbation of radiation doses directed at the patient. The components of the pod are made from materials having properties that reduce any attenuation and perturbation of prescribed radiation doses. | 10-23-2014 |
20150032233 | PATH PLANNING AND COLLISION AVOIDANCE FOR MOVEMENT OF INSTRUMENTS IN A RADIATION THERAPY ENVIRONMENT - Apparatus and methods for therapy delivery are disclosed. In one embodiment, a therapy delivery system includes a plurality of movable components including a radiation therapy nozzle and a patient pod for holding a patient, a patient registration module for determining a desired position of at least one of the plurality of movable components, and a motion control module for coordinating the movement of the least one of the plurality of movable components from a current position to the desired position. The motion control module includes a path planning module for simulating at least one projected trajectory of movement of the least one of the plurality of moveable components from the current position to the desired position | 01-29-2015 |
Patent application number | Description | Published |
20080314017 | System and Method for Maintaining the Location of a Fiber Doff Inner-Diameter-Tow at the Point of Payout Within a Constant Inertial Reference Frame - A method of maintaining the location of a fiber doff inner-diameter-tow at a point of payout within a constant inertial reference frame includes providing a flat fiber tow payout system with a center-pull doff of flat fiber tow that pays out at a point of payout along an inner diameter of the center-pull doff with rotation of the center-pull doff about a vertically oriented axis of rotation, the flat fiber tow payout system including a constant inertial reference frame for payout of the flat fiber tow along the inner diameter of the center-pull doff without twisting the flat fiber tow; and accelerating and stopping rotation of the center-pull doff with the flat fiber tow payout system so as to maintain payout of the flat fiber tow along the inner diameter of the center-pull doff in the constant inertial reference frame, preventing twisting of the flat fiber tow. | 12-25-2008 |
20090071594 | Method of Inserting Z-Axis Reinforcing Fibers into a Composite Laminate - A method of inserting z-axis reinforcing fibers into a multi-layer composite laminate. Layers of material made up of z-axis fiber and y-axis fibers are automatically transported into a z-fiber deposition machine having a housing with upper and lower surfaces. Z-axis apertures are formed in the respective upper and lower surfaces. An elongated solid rod having a tapered front tip is aligned in close proximity to the aperture in the bottom surface. The rod is first rotated by a motor and then actuated upwardly completely through the thickness of the layer of x-y material by an actuator. A first hollow tube having a z-axis is axially aligned with the aperture in the top surface and a fiber bundle is threaded downwardly through a first hollow tube to a position adjacent its bottom end. The z-fiber deposition machine has structure to feed a predetermined length of the fiber bundle downwardly through the first hollow tube so that it follows the pathway in the x-y material formed by the rod which is now withdrawn downwardly through the aperture in the bottom wall. The z-axis fiber is thus deposited into the x-y material. The top end of the z-axis fiber is then severed and the x-y material is then advanced a predetermined distance to complete the cycle and is, thus, set to be repeated. | 03-19-2009 |
20090214849 | Composite Laminate Structure - A composite laminate structure includes a first skin; a second skin; a core between the first skin and the second skin, the core including adjacent core sections and a Z-Y partition separating the adjacent core sections; and a plurality of distinct groupings of Z-axis fibers that extend from the first skin to the second skin through the adjacent core sections and the Z-Y partition separating the adjacent core sections. | 08-27-2009 |
20100173118 | Composite Laminate Structure - A method and apparatus for forming an improved pultruded and clinched Z-axis fiber reinforced composite laminate structure. The upper and lower skins and the core are pulled automatically through tooling where the skin material is wetted-out with resin and the entire composite laminate is preformed in nearly its final thickness. The preformed composite laminate continues to be pulled into an automatic 3-dimensional Z-axis fiber deposition machine that deposits “groupings of fiber filaments” at multiple locations normal to the plane of the composite laminate structure and cuts each individual grouping such that an extension of each “grouping of fiber filaments” remains above the upper skin and below the lower skin. The preformed composite laminate then continues to be pulled into a secondary wet-out station. Next the preformed composite laminate travels into a pultrusion die where the extended “groupings of fiber filaments” are all bent over above the top skin and below the bottom skin producing a superior clinched Z-axis fiber reinforcement as the composite laminate continues to be pulled, catalyzed, and cured at the back section of the pultrusion die. The composite laminate continues to be pulled by grippers that then feed it into a gantry CNC machine that is synchronous with the pull speed of the grippers and where computerized machining, drilling, and cutting operations take place. This entire method is accomplished automatically without the need for human operators. | 07-08-2010 |
20110104433 | Composite Laminate Structure - A composite laminate structure includes a first skin; a second skin; and a plurality of distinct groupings of Z-axis fibers that extend from the first skin to the second skin, wherein the Z-axis fibers include opposite ends respectively terminating at and integrated into the first skin and the second skin. | 05-05-2011 |
20150022423 | ADVANCED COMPOSITE RADOME AND METHOD OF MANUFACTURING - A radome for housing a radar system comprises a plurality of interconnected curved radome thermoplastic composite material panels, each curved radome thermoplastic composite material panel having a plurality of interconnecting edges, a foam core, an inner skin, an outer skin, and a plurality of three-dimensional fiber bundles tying the inner skin and the outer skin to each other through the foam core, inhibiting delamination. The radome includes a hydrophobic exterior surface that is self-cleaning and requires zero maintenance for 25 years. | 01-22-2015 |