The Experts below are selected from a list of 15489 Experts worldwide ranked by ideXlab platform
Nishith Goel - One of the best experts on this subject based on the ideXlab platform.
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design and analysis of split and aggregated transport control protocol sa tcp for smart metering infrastructure
International Conference on Smart Grid Communications, 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
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SmartGridComm - Design and analysis of Split- and Aggregated-transport control protocol (SA-TCP) for Smart Metering Infrastructure
2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm), 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
Dennis A. Tribble - One of the best experts on this subject based on the ideXlab platform.
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Overview of transport control protocol/Internet protocol communications
American journal of health-system pharmacy : AJHP : official journal of the American Society of Health-System Pharmacists, 2009Co-Authors: Dennis A. TribbleAbstract:The network communications protocol that is most widely used and forms the basis of Internet communications is transport control protocol/Internet protocol (TCP/IP). TCP/IP communications form the foundation of most modern hospital networks. While most pharmacists do not need to understand how TCP/
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overview of transport control protocol internet protocol communications
American Journal of Health-system Pharmacy, 2009Co-Authors: Dennis A. TribbleAbstract:The network communications protocol that is most widely used and forms the basis of Internet communications is transport control protocol/Internet protocol (TCP/IP). TCP/IP communications form the foundation of most modern hospital networks. While most pharmacists do not need to understand how TCP/
Tarek Khalifa - One of the best experts on this subject based on the ideXlab platform.
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design and analysis of split and aggregated transport control protocol sa tcp for smart metering infrastructure
International Conference on Smart Grid Communications, 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
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SmartGridComm - Design and analysis of Split- and Aggregated-transport control protocol (SA-TCP) for Smart Metering Infrastructure
2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm), 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
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A transport control protocol suite for smart metering infrastructure
2011 International Conference on Electronic Devices Systems and Applications (ICEDSA), 2011Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya NayakAbstract:transport protocol design for supporting smart metering applications poses certain challenges because of unique issues. The issues stem from the need to deploy a significantly large number of meters (e.g., hundreds of thousands). Each meter generates small reports at a fixed low rate. All meters' reports are destined to the same data collection center and require reliable end-to-end delivery. Although individual data rates are low, aggregation creates large traffic that can disrupt the network functionality. Our experiments show that for this type of application, the Internet transport control protocol (TCP) results in the following drawbacks: (i) Meters' data suffer from excessive packet retransmission rate. (ii) Other applications suffer from high packet drop rate at shared bottleneck links. In this paper, we propose a solution through the addition of a TCP aggregator device and the use of an application level protocol called Session Initiation protocol (SIP). At the TCP aggregator device, meters' TCP connections get combined into one TCP connection with the utility collection server. The SIP protocol acts as the signaling protocol to provide the different network parties with proper transport control information. The proposed strategy provides better response to traffic conditions and, most importantly, makes congestion control and flow control viable. Using the simulator NS-2, we show the effectiveness of our approach in mitigating the problems in terms of throughput and packet drop rate performance measures.
Preben Elgaard Mogensen - One of the best experts on this subject based on the ideXlab platform.
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Impact of transport control protocol on Full Duplex Performance in 5G Networks
2016 IEEE 83rd Vehicular Technology Conference (VTC Spring), 2016Co-Authors: Marta Gatnau Sarret, Nurul Huda Mahmood, Gilberto Berardinelli, Preben Elgaard MogensenAbstract:Full duplex (FD) communication has attracted the attention of the industry and the academia as an important feature in the design of the future 5th generation (5G) wireless communication system. Such technology allows a device to simultaneously transmit and receive in the same frequency band, with the potential of providing higher throughput and lower latency compared to traditional half duplex (HD) systems. In this paper, the interaction between transport control protocol (TCP) and FD in 5G ultra- dense small cell networks is studied. TCP is a well- known transport layer protocol for providing reliability, which comes at the price of increased delay and reduced system throughput. FD is expected to accelerate the TCP congestion control mechanism and hence mitigate such consequences. System level results show that FD can outperform HD and alleviate the TCP drawbacks when the inter-cell interference is not the main limiting factor. On the other hand, under strong inter-cell interference, results show that the capabilities of the system to cope with such interference dictates the gain that FD may provide over HD.
Amiya Nayak - One of the best experts on this subject based on the ideXlab platform.
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design and analysis of split and aggregated transport control protocol sa tcp for smart metering infrastructure
International Conference on Smart Grid Communications, 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
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SmartGridComm - Design and analysis of Split- and Aggregated-transport control protocol (SA-TCP) for Smart Metering Infrastructure
2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm), 2012Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya Nayak, Atef Abdrabou, Nishith GoelAbstract:This paper investigates the TCP's congestion control mechanism effectiveness for smart meters. We show that the classic congestion control causes a high loss rate for metered data and disrupts competing traffic flows in a shared network.
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A transport control protocol suite for smart metering infrastructure
2011 International Conference on Electronic Devices Systems and Applications (ICEDSA), 2011Co-Authors: Tarek Khalifa, Kshirasagar Naik, Maazen Alsabaan, Amiya NayakAbstract:transport protocol design for supporting smart metering applications poses certain challenges because of unique issues. The issues stem from the need to deploy a significantly large number of meters (e.g., hundreds of thousands). Each meter generates small reports at a fixed low rate. All meters' reports are destined to the same data collection center and require reliable end-to-end delivery. Although individual data rates are low, aggregation creates large traffic that can disrupt the network functionality. Our experiments show that for this type of application, the Internet transport control protocol (TCP) results in the following drawbacks: (i) Meters' data suffer from excessive packet retransmission rate. (ii) Other applications suffer from high packet drop rate at shared bottleneck links. In this paper, we propose a solution through the addition of a TCP aggregator device and the use of an application level protocol called Session Initiation protocol (SIP). At the TCP aggregator device, meters' TCP connections get combined into one TCP connection with the utility collection server. The SIP protocol acts as the signaling protocol to provide the different network parties with proper transport control information. The proposed strategy provides better response to traffic conditions and, most importantly, makes congestion control and flow control viable. Using the simulator NS-2, we show the effectiveness of our approach in mitigating the problems in terms of throughput and packet drop rate performance measures.
