Patents by Inventor Addepalli Sateesh Kumar

Addepalli Sateesh Kumar has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 8503457
    Abstract: To more fully utilize the available bandwidth of a network link, network nodes in accordance with the present invention allow TDM data to be combined with packet data. A Packet/TDM cross connect switch, having both a TDM switch and a packet switch, is used in these embodiments. Data packets are transformed into TDM packet columns. The TDM packet columns are combined with standard TDM data columns in the payload of a TDM data frame. Data packets may be sorted based on a priority scheme, in which high priority data packets are given precedence over lower priority data. However, both high priority and low priority may be combined in a TDM packet column.
    Type: Grant
    Filed: January 15, 2008
    Date of Patent: August 6, 2013
    Assignee: NetLogic Microsystems, Inc.
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Publication number: 20080130689
    Abstract: To more fully utilize the available bandwidth of a network link, network nodes in accordance with the present invention allow TDM data to be combined with packet data. A Packet/TDM cross connect switch, having both a TDM switch and a packet switch, is used in these embodiments. Data packets are transformed into TDM packet columns. The TDM packet columns are combined with standard TDM data columns in the payload of a TDM data frame. Data packets may be sorted based on a priority scheme, in which high priority data packets are given precedence over lower priority data.
    Type: Application
    Filed: January 15, 2008
    Publication date: June 5, 2008
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Patent number: 7333512
    Abstract: To more fully utilize the available bandwidth of a network link, network nodes in accordance with the present invention allow TDM data to be combined with packet data. A Packet/TDM cross connect switch, having both a TDM switch and a packet switch, is used in these embodiments. Data packets are transformed into TDM packet columns. The TDM packet columns are combined with standard TDM data columns in the payload of a TDM data frame. Data packets may be sorted based on a priority scheme, in which high priority data packets are given precedence over lower priority data. However, both high priority and low priority may be combined in a TDM packet column.
    Type: Grant
    Filed: December 17, 2001
    Date of Patent: February 19, 2008
    Assignee: RMI Corporation
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Seikh, Jai Prakash Agrawal
  • Patent number: 7327758
    Abstract: To better utilize the variable bandwidth of wireless links, a network node in accordance with the present invention escapes rigid bandwidth hierarchy of conventional TDM protocols, which is not suited for fully using the available bandwidth of a wireless link. Specifically, many embodiments of the present invention use TDM frames that have payloads, which do not strictly conform to the bandwidth hierarchy of conventional TDM protocols. For example, many embodiments of the present invention form TDM frames having a payload that is a non-integer multiple of a base bandwidth, such as OC-1/STS-1.
    Type: Grant
    Filed: December 17, 2001
    Date of Patent: February 5, 2008
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Seikh, Jai Prakash Agrawal
  • Patent number: 7173927
    Abstract: The versatility provided by network nodes in accordance with the present invention allows the formation of networks using different types of links, links with differing bandwidth, data rates, and bit error rates, as well as both asymmetric and symmetric links. For example, a network can include a first network node coupled to a second network node with a wireless link. The network can include a third network node coupled to the second network node an optical link and coupled to the first network node by a wireless link. A fourth network node can be easily inserted between the third network node and the third network node using wireless links. The optical link between the second and third network nodes can operate at one bandwidth and the various wireless links would operate at other bandwidths depending on the environmental conditions between each pair of nodes.
    Type: Grant
    Filed: December 17, 2001
    Date of Patent: February 6, 2007
    Assignee: Raza Microelectronics, Inc.
    Inventors: Addepalli Sateesh Kumar, Tushar Ramanlal Shah, Chandrasekaran Nageswara Gupta, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Seikh, Jai Prakash Agrawal
  • Patent number: 7165102
    Abstract: To provide the quality and reliability of a fiber optic link over a wireless link, network nodes in accordance with the present invention include a link quality management unit, which controls multiple transmission parameters of a wireless interface in response variable link conditions. For example, the link quality management unit of one embodiment of the present invention controls transmission power, modulation, and error correction. In general, a receiving network node provides feedback to a transmitting network node. Thus, in many embodiments of the present invention, the link quality management unit includes a signal quality detector, which measures a signal quality value, such as bit error rate, signal to noise ratio, or error vector magnitude. The measured signal quality is transmitted back to the transmitting node so that appropriate changes can be made to the transmission parameters.
    Type: Grant
    Filed: December 17, 2001
    Date of Patent: January 16, 2007
    Assignee: Raza Microelectronics, Inc.
    Inventors: Tushar Ramanlal Shah, Chandrasekaran Nageswara Gupta, Addepalli Sateesh Kumar, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Seikh, Hari Sarvotham Nallan Chakravarthula, Jai Prakash Agrawal
  • Publication number: 20020075834
    Abstract: To provide the quality and reliability of a fiber optic link over a wireless link, network nodes in accordance with the present invention include a link quality management unit, which controls multiple transmission parameters of a wireless interface in response variable link conditions. For example, the link quality management unit of one embodiment of the present invention controls transmission power, modulation, and error correction. In general, a receiving network node provides feedback to a transmitting network node. Thus, in many embodiments of the present invention, the link quality management unit includes a signal quality detector, which measures a signal quality value, such as bit error rate, signal to noise ratio, or error vector magnitude. The measured signal quality is transmitted back to the transmitting node so that appropriate changes can be made to the transmission parameters.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Tushar Ramanlal Shah, Chandrasekaran Nageswara, Addepalli Sateesh Kumar, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Hari Sarvotham Nallan Chakravarthula, Jai Prakash Agrawal
  • Publication number: 20020075819
    Abstract: To better utilize the variable bandwidth of wireless links, a network node in accordance with the present invention escapes rigid bandwidth hierarchy of conventional TDM protocols, which is not suited for fully using the available bandwidth of a wireless link. Specifically, many embodiments of the present invention use TDM frames that have payloads, which do not strictly conform to the bandwidth hierarchy of conventional TDM protocols. For example, many embodiments of the present invention form TDM frames having a payload that is a non-integer multiple of a base bandwidth, such as OC-1/STS-1.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Publication number: 20020075868
    Abstract: A network node includes a network interface, a cross connect switch coupled to the network interface, and a multi-medium network interface coupled to the cross connect switch. The multi-medium network interface includes multiple network interfaces, such as an optical interface and a wireless interface. The wireless interface could be for example an RF wireless interface or a free-space optics interface. Some embodiments of the present invention may include both an RF wireless interface and a free-space optics interface. A TDM user interface is also coupled to the cross connect switch. In some embodiments, the network interface is also a multi-medium network interface. Furthermore, some embodiments can include additional multi-medium network interfaces.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Chandrasekaran Nageswara Gupta, Addepalli Sateesh Kumar, Tushar Ramanlal, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Publication number: 20020075542
    Abstract: To more fully utilize the available bandwidth of a network link, network nodes in accordance with the present invention allow TDM data to be combined with packet data. A Packet/TDM cross connect switch, having both a TDM switch and a packet switch, is used in these embodiments. Data packets are transformed into TDM packet columns. The TDM packet columns are combined with standard TDM data columns in the payload of a TDM data frame. Data packets may be sorted based on a priority scheme, in which high priority data packets are given precedence over lower priority data.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Tushar Ramanlal Shah, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Publication number: 20020075869
    Abstract: To provide better quality of service, Network nodes in accordance with the present invention use a media abstraction unit to integrate link-layer management with network layer traffic management. Various transmission parameters are modified in response to changing environmental factors. The modification of the transmission parameters changes the available bandwidth of the wireless link. In accordance with some embodiments of the present invention, the available bandwidth of the wireless link is used at network layer traffic management. Specifically in one embodiment of the present invention, the amount low priority data packet within a TDM data frame is altered to use the available bandwidth.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Tushar Ramanlal Shah, Addepalli Sateesh Kumar, Chandrasekaran Nageswara Gupta, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal
  • Publication number: 20020075854
    Abstract: The versatility provided by network nodes in accordance with the present invention allows the formation of networks using different types of links, links with differing bandwidth, data rates, and bit error rates, as well as both asymmetric and symmetric links. For example, a network can include a first network node coupled to a second network node with a wireless link. The network can include a third network node coupled to the second network node an optical link and coupled to the first network node by a wireless link. A fourth network node can be easily inserted between the third network node and the third network node using wireless links. The optical link between the second and third network nodes can operate at one bandwidth and the various wireless links would operate at other bandwidths depending on the environmental conditions between each pair of nodes.
    Type: Application
    Filed: December 17, 2001
    Publication date: June 20, 2002
    Inventors: Addepalli Sateesh Kumar, Tushar Ramanlal Shah, Chandrasekaran Nageswara Gupta, Debaditya Mukherjee, Thomas Yat Chung Woo, Khalid Sheikh, Jai Prakash Agrawal