Kunnath
Ajay Kunnath, Bangalore IN
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20130148609 | HYBRID VIRTUAL CELL AND VIRTUAL PORT WIRELESS NETWORK ARCHITECTURE - A controller directing access points to default to a virtual cell service mode which allows seamless mobility for stations in motion around a wireless network is disclosed. Responsive to identifying a first station, the controller logic may dictate tighter controls for the first station by selecting a virtual port service mode. Some embodiments can also select a native cell service mode for devices due to a connection history of the station or a MAC OUI that is incompatible with virtual cell service mode. An initial service mode can be changed due to a condition. Also, the controller provides multiple BSSIDs to each access point. | 06-13-2013 |
Dana Louise Kunnath, Bloomfield Hills, MI US
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20100146737 | REMOVABLE HANDLE - A handle for opening and closing a cabinet door, a cabinet drawer or an entry/exit door of a commercial or residential building. The handle includes a first wall member joined to a second wall member that is attached to a third wall member to form a removable handle for opening and closing a door or drawer. The first wall member is flexible and resilient such that when the handle is attached to a door or drawer, the first wall member flexibly and resiliently moves to form a self-tensioning, self-grip in conjunction with the second and third wall members on the door or drawer allowing the handle to be used to open and/or close a door or drawer. | 06-17-2010 |
20100146738 | REMOVABLE HANDLE - A handle for opening and closing any door or drawer of a commercial or residential building is disclosed. The handle includes a first wall member joined to a second wall member that is attached to a third wall member to form a removable handle for opening and closing a door or drawer. At least one wall member is flexible and resilient such that when the handle is attached to a door or drawer, the first wall member flexibly and resiliently moves to form a self-tensioning, self-grip in conjunction with the remaining wall members on the door or drawer allowing the handle to be used to open and/or close a door or drawer. | 06-17-2010 |
Glenn Kunnath, Bloomfield Hills, MI US
Patent application number | Description | Published |
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20100146737 | REMOVABLE HANDLE - A handle for opening and closing a cabinet door, a cabinet drawer or an entry/exit door of a commercial or residential building. The handle includes a first wall member joined to a second wall member that is attached to a third wall member to form a removable handle for opening and closing a door or drawer. The first wall member is flexible and resilient such that when the handle is attached to a door or drawer, the first wall member flexibly and resiliently moves to form a self-tensioning, self-grip in conjunction with the second and third wall members on the door or drawer allowing the handle to be used to open and/or close a door or drawer. | 06-17-2010 |
20100146738 | REMOVABLE HANDLE - A handle for opening and closing any door or drawer of a commercial or residential building is disclosed. The handle includes a first wall member joined to a second wall member that is attached to a third wall member to form a removable handle for opening and closing a door or drawer. At least one wall member is flexible and resilient such that when the handle is attached to a door or drawer, the first wall member flexibly and resiliently moves to form a self-tensioning, self-grip in conjunction with the remaining wall members on the door or drawer allowing the handle to be used to open and/or close a door or drawer. | 06-17-2010 |
Maria Lorna Kunnath, Davis, CA US
Patent application number | Description | Published |
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20130262319 | Do it yourself elearning personal learning environment (PLErify) business model - The PLErify Tool is a major step in simplifying what was once a tedious process in helping professionals be self-reliant in curating, mashing and spreading digital content. The PLErify Tool also removes the barriers to understanding and harnessing the enormous power of being creative yet be completely in control of information sacred to their professions. Not only does the PLErify environment allows professionals to have complete ownership of what they create, it also allows this group of professionals to develop the skill of refining their ability to select tools that best allow them to express themselves so critical to making decisions on what to disseminate and, at what level of confidentiality vis a vis the course objectives deemed most comfortable to both the disseminator and the audience. This aspect is so important to preserving and keeping specifics to an appropriate level particularly where level of confidentiality and self expression sometimes collide. Through the constant use of these tools, a faculty managing and preserving their areas of specialization eventually develops their own way digital teaching style as if they were in traditional classrooms. | 10-03-2013 |
Nalinakshan Kunnath, Camarillo, CA US
Patent application number | Description | Published |
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20100329110 | Method for reconvergence after failure in a dual-homing network environment - A manner of providing for re-convergence in a dual homing network following the failure of one of the dual homing links. When such a failure is detected, the port roles are recomputed using an xSTP protocol. Prior to the completion of the computation, the operEdge variable is set to true, typically resulting in a more rapid re-convergence that may achieve sub 50 ms performance. When the computation is complete, the operEdge variable is reset to “false. The xSTP protocol may be, for example, RSTP or MSTP. The invention may be implemented in a CE device attached to a VPLS core or other network, and may be used in a LAG environment. | 12-30-2010 |
20130064102 | VIRTUAL CHASSIS SYSTEM CONTROL PROTOCOLS - A virtual chassis system includes a plurality of network nodes configured with a master virtual chassis address. The network nodes are connected by virtual fabric link (VFLs) that provide a connection for exchange of data packets between the network nodes. The data packets include source MAC addresses and associated hardware device information, such as source chassis ID, source network interface identifier and source port identifier information. The network nodes use this information to maintain synchronized MAC address tables for forwarding of data packets in the virtual chassis system. One or more control protocols in the network node are used for topology discovery, master network node election, generation of routing tables, health monitoring and other functions. | 03-14-2013 |
20130064137 | SYSTEM AND METHOD FOR A PASS THRU MODE IN A VIRTUAL CHASSIS SYSTEM - A virtual chassis system includes a plurality of network nodes connected by virtual fabric link (VFLs) that provide a connection for exchange of packets between the network nodes. A network node in the virtual chassis system is operable in a pass thru mode. In pass thru mode, the network node receives packets over a VFL and transparently forwards the packet over another VFL to another network node in the virtual chassis system. However, the network node | 03-14-2013 |
20130077621 | SYSTEM AND METHOD FOR A VIRTUAL CHASSIS SYSTEM - A virtual chassis system includes a plurality of network nodes configured with a master virtual chassis address. The network nodes are connected by virtual fabric link (VFLs) that provide a connection for exchange of packets between the network nodes. The packets include source MAC addresses and associated hardware device information, such as source chassis ID, source network interface identifier and source port identifier information. The network nodes use this information to maintain synchronized MAC address tables for forwarding of packets in the virtual chassis system. | 03-28-2013 |
Ramakrishnan Kunnath, Santa Clara, CA US
Patent application number | Description | Published |
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20110246749 | DYNAMIC ENERGY SAVINGS FOR A DIGITAL SIGNAL PROCESSOR MODULE - In an example embodiment, there is described herein an apparatus comprising an interface for communicating with a plurality of digital signal processors and logic operable to send and receive data via the interface. The logic is configured to determine a first set of digital signal processors to be maintained in a ready state, a second set of digital signal processors to be maintained in a first energy saving state, and a third set of digital signal processors to be maintained in a second energy saving state. | 10-06-2011 |
Ramakrishnan Kunnath, Milpitas, CA US
Patent application number | Description | Published |
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20150253843 | DYNAMIC ENERGY SAVINGS FOR DIGITAL SIGNAL PROCESSOR MODULES USING PLURAL ENERGY SAVINGS STATES - Embodiments include a method of managing operating states of a plurality of digital signal processors (DSPs). The method generally includes determining a first number of the plurality of DSPs to operate in a ready state, determining a second number of the plurality of DSPs to operate in a first energy-saving state, and determining a third number of the plurality of DSPs to operate in a second energy-saving state. In some embodiments, the first energy-saving state corresponds to a dormant mode of the DSPs, and the second energy-saving state corresponds to a reset mode of the DSPs. | 09-10-2015 |