Patent application number | Description | Published |
20090025135 | Folding spa cover - A retractable, folding, insulating spa cover assembly with interconnected, plural, elongated, generally rectangular, panel members, the panel members being connected to each other along their longitudinal edges or sides by hinge members that act as gaskets to close the entire gap between adjoining panel members, wherein the hinge members alternate between the upper and lower surface of the panel members, such that the panel members are foldable into a vertical stack. Track members may be provided on opposing upper walls of the spa, with pins or roller members disposed on each end of the panel members such that the panel members slide laterally within the track members. The track members may each have a horizontal leg and a vertical leg, such the panel members remain in the track members when vertically stacked as well. In an alternative embodiment, vertically oriented roller conveyor members may be positioned beside the spa. | 01-29-2009 |
20140220266 | Synthetic Roofing Shingle - A monolayer synthetic or artificial thatch shingle comprising a plurality of tapering extensions extending from a base flange member, the thatch shingle having been formed from a thin sheet of stiff plastic, and the extensions having been formed by removing material from the thin sheet. The base flange member presents a solid surface, such that when shingles are overlaid in successive rows advancing up the pitched roof, the combination of overlapping base flange members provides a water barrier such that all rain water is directed from the slanted roof. | 08-07-2014 |
Patent application number | Description | Published |
20080202123 | System and method for oxygen separation in an integrated gasification combined cycle system - An integrated gasification combined cycle power generation system ( | 08-28-2008 |
20110283702 | GENERATING ENERGY FROM FLUID EXPANSION - A turbine wheel is rotatable in response to expansion of a working fluid flowing from near an inlet side towards an outlet side of the turbine wheel. The turbine wheel may receive the working fluid radially into the inlet side of the turbine wheel and output the working fluid axially from its outlet side. A generator has a stator and a rotor. The rotor may be coupled to the turbine wheel and may rotate at the same speed as the turbine wheel when the turbine wheel rotates. In certain instances, the generator is adjacent the inlet side of the turbine wheel. | 11-24-2011 |
20110289922 | GENERATING ENERGY FROM FLUID EXPANSION - An apparatus includes an electric generator having a stator and a rotor. A first turbine wheel is coupled to a first end of the rotor to rotate at the same speed as the rotor. A second turbine wheel is coupled to a second end of the rotor opposite the first end, and configured to rotate at the same speed as the rotor. The first and second turbine wheels may rotate in response to expansion of a working fluid flowing from an inlet side to an outlet side of the turbine wheels. | 12-01-2011 |
20120013125 | GENERATING ENERGY FROM FLUID EXPANSION - An apparatus includes an electric generator having a stator and a rotor. A turbine is coupled to an end of the rotor to rotate at the same speed as the rotor. The turbine may rotate in response to expansion of a working fluid flowing from an inlet side to an outlet side of the turbine. The apparatus also includes a housing assembly with an inwardly oriented shroud, which is located at close proximity to the turbine. The proximity of the shroud to the turbine establishes the pressure ratio of the turbine, allowing the system to operate without seals. Magnetic bearings and position sensors are used to maintain the distance between the shroud and the wheel. In certain implementations, the positioning of the turbine can be controlled to optimize machine performance. | 01-19-2012 |
Patent application number | Description | Published |
20100253855 | CONTINUOUS EXTENDED RANGE IMAGE PROCESSING - Methods and systems for image processing are provided. A method for processing images of a scene includes receiving image data of a reference and a current frame; generating N motion vectors that describe motion of the image data within the scene by computing a correlation function on the reference and current frames at each of N registration points; registering the current frame based on the N motion vectors to produce a registered current frame; and updating the image data of the scene based on the registered current frame. Optionally, registered frames may be oversampled. Techniques for generating the N motion vectors according to roll, zoom, shift and optical flow calculations, updating image data of the scene according to switched and intermediate integration approaches, re-introducing smoothed motion into image data of the scene, re-initializing the process, and processing images of a scene and moving target within the scene are provided. | 10-07-2010 |
20100254572 | CONTINUOUS EXTENDED RANGE IMAGE PROCESSING - Methods and systems for image processing are provided. A method for processing images of a scene includes receiving image data of a reference and a current frame; generating N motion vectors that describe motion of the image data within the scene by computing a correlation function on the reference and current frames at each of N registration points; registering the current frame based on the N motion vectors to produce a registered current frame; and updating the image data of the scene based on the registered current frame. Optionally, registered frames may be oversampled. Techniques for generating the N motion vectors according to roll, zoom, shift and optical flow calculations, updating image data of the scene according to switched and intermediate integration approaches, re-introducing smoothed motion into image data of the scene, re-initializing the process, and processing images of a scene and moving target within the scene are provided. | 10-07-2010 |
Patent application number | Description | Published |
20100128677 | SERVICE CONTINUITY DURING LOCAL BREAKOUT IN A FEMTOCELL - A system and methodology that facilitates service continuity when a user equipment (UE), employing local breakout mechanisms at a femto access point (FAP) for a communication session, moves out of the femto coverage area is provided. In particular, a network change detection component can be employed to detect when the UE, attached to the FAP, changes its connection from the femto network to the macro network. Further, an active communication session can exist between the UE and a device/service/application on a local Area network (LAN) connected to a FAP, and/or the Internet, which utilizes local breakout at the FAP. When the UE moves out of the femto network, a context management component can be employed to seamlessly resume the communication session, via the macro network. | 05-27-2010 |
20100128708 | FEMTOCELL LOCAL BREAKOUT MECHANISMS - A system and methodology that employs local breakout mechanisms at a femto access point (FAP) to facilitate efficient utilization of backhaul and/or macro networks is provided. In particular, a slave Gateway GPRS Support Node (GGSN) can be integrated within the FAP to directly route the incoming traffic from a user equipment (UE) at the FAP. In one example, Internet bound traffic can be directly routed to the Internet, without employing macro network resources. Further, the system can avoid hairpinning by routing traffic between the UE and a home Local Area Network (LAN) by a anchoring a call or a session in the slave GGSN and facilitate integration of UEs with home applications by employing a UE Digital Home Agent. In addition, the FAP can perform UE-to-UE CS media breakout to facilitate communication between UEs attached to the FAP, without routing the traffic through the core macro network. | 05-27-2010 |
20100128709 | HOME SERVICE INTEGRATION AND MANAGEMENT BY EMPLOYING LOCAL BREAKOUT MECHANISMS IN A FEMTOCELL - A system and methodology that facilitates home services integration by employing a local breakout mechanism at a femto access point (AP) is provided. In particular, the system can perform mapping to provide home functions to an authorized user equipment (UE) attached to the femto AP and provide integration with one or more home services. Further, a monitoring component is employed for home monitoring and facilitates monitoring and/or controlling devices on the home Local Area Network (LAN) via the UE. Furthermore, an access management component is utilized to set, manage and implement access privileges associated with UEs authorized to access the DH LAN. In addition, shared location data is determined and utilized for location based management and/or location assistance services. | 05-27-2010 |
20100130170 | FEMTOCELL LOCAL BREAKOUT MANAGEMENT SERVICES - A system and methodology that provides management services during local breakout at a femto access point (FAP) is provided. In particular, the FAP facilitates policy management and employs a policy component to perform an analysis and enforce a set of policies for dynamically selecting an optimal route for traffic received at the FAP based on a decision-making process. Typically, the set of policies can specify different routes based on various factors, such as, but not limited to, type of traffic, current and/or future network resource availability, current time, day and/or date, location of the FAP, location of a UE sending/receiving the traffic, a lowest cost route, and/or route based on cost-benefit, etc. Further, a monitoring component is employed to observe the route employed by that traffic, which can be utilized by various services, such as, billing, Quality of Service, security management, address management, failure management and/or provisioning. | 05-27-2010 |
20120020307 | AUTOMATED WIRELESS ACCESS POINT RESOURCE ALLOCATION AND OPTIMIZATION - Systems, methods, and apparatus for facilitating automated wireless access point resource allocation and optimization are presented herein. An external data store (EDS) component can automatically select, based on spatial data of at least one polygon including at least one wireless access point, one or more parameters associated with wireless communications of the at least one wireless access point. Further, an access point provisioning gateway (APPG) can remotely initiate the at least one wireless access point to automatically configure equipment of the at least one wireless access point to service the wireless communications using at least one of the one or more parameters. Furthermore, a boundary generation component can automatically generate the spatial data by at least one of: combining spatial data of two or more polygons; splitting a polygon into at least two polygons; or expanding a boundary of the polygon. | 01-26-2012 |
20140295854 | FEMTOCELL LOCAL BREAKOUT MECHANISMS - Local breakout mechanisms can be performed by a femto access point (FAP) to facilitate efficient utilization of backhaul and/or macro networks. In particular, a slave Gateway GPRS Support Node (GGSN) can be integrated within the FAP to directly route the incoming traffic from a user equipment (UE) at the FAP. In one example, Internet bound traffic can be directly routed to the Internet, without employing macro network resources. Further, the system can avoid hairpinning by routing traffic between the UE and a home Local Area Network (LAN) by a anchoring a call or a session in the slave GGSN and facilitate integration of UEs with home applications by employing a UE Digital Home Agent. In addition, the FAP can perform UE-to-UE CS media breakout to facilitate communication between UEs attached to the FAP, without routing the traffic through the core macro network. | 10-02-2014 |
20140329531 | SERVICE CONTINUITY DURING LOCAL BREAKOUT IN A FEMTOCELL - Service continuity is provided when a user equipment (UE), employing local breakout mechanisms at a femto access point (FAP) for a communication session, moves out of the femto coverage area. In particular, a network change detection component can be employed to detect when the UE, attached to the FAP, changes its connection from the femto network to the macro network. Further, an active communication session can exist between the UE and a device/service/application on a local Area network (LAN) connected to a FAP, and/or the Internet, which utilizes local breakout at the FAP. When the UE moves out of the femto network, a context management component can be employed to seamlessly resume the communication session, via the macro network. | 11-06-2014 |