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TCP FTAT (Fast Transmit Adaptive Transmission): A New End-To- End Congestion Control AlgorithmAfifi, Mohammed Ahmed Melegy Mohammed 06 November 2014 (has links)
No description available.
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API development for persistent data sessions supportPailom, Chayutra 03 1900 (has links)
Approved for public release, distribution is unlimited / This thesis studies and discusses the development of the API, called the persistency API, for supporting the persistent data sessions. Without persistent session support, network applications often need to be restarted from the beginning when intermittent physical connection loss happens. Application programmers can use the persistency API to achieve the service continuity. The persistency API provides the interface that allows a program to continue retrieve data from the point the connection is lost after the physical connection is restored. The focus of this thesis is to develop a generalized persistency API that supports various types of applications. This thesis studies the persistent session support for two types of transport protocols, TCP and UDP, which are used by major network applications. An application that performs text file and video file transfer is implemented to demonstrate the persistent data transfer sessions for TCP and UDP, respectively. The study shows that the proposed APIs can support the data transfer continuity in the reconnection process. / Captain, Royal Thai Army
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IP Protocols in Telemetry SystemsWeaver, Robert Jr., Snyder, Ed 10 1900 (has links)
ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / This paper is intended to provide background into networking and IP protocols for non-IT
personnel. It is not a study of networking and related protocols, as each of these topics would
require a much longer period of time to explain. Addressed are considerations that should be
required prior to locking a network design into a specific architecture.
The systems available today, for the same cost as a good home PC, are becoming capable of
performing critical tasks. It is highly recommended that the personnel who know the most about
the data and how it will be used communicate with the personnel that know the network. Failing
to explain or understand the networking nomenclature causes considerable wasted time and
money.
This paper is intended to encourage communications between the data creators and the data
movers. We also want to demonstrate how new systems, hardware and software, designed to
work with existing network devices used in non–telemetry applications, can make implementing
IP in telemetry networks easier.
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Network Design Considerations in Telemetry SystemsGrebe, Andy, Klein, Wayne 10 1900 (has links)
ITC/USA 2007 Conference Proceedings / The Forty-Third Annual International Telemetering Conference and Technical Exhibition / October 22-25, 2007 / Riviera Hotel & Convention Center, Las Vegas, Nevada / In today’s world, computer networking has become common place both in industry as well as
home, however all networks are not the same! The Telemetry world, like with many industries,
has critical design considerations that need to be evaluated when you begin a new system or just
adding on to a current infrastructure.
This paper is intended to outline needed considerations when planning or implementing a
network design in Telemetry Systems. These applications can range from sensor data transport
through High Definition/High Speed Video applications.
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PACKET-BASED TELEMETRY NETWORKS OVER LEGACY SYSTEMSO’Connell, Tim 10 1900 (has links)
ITC/USA 2005 Conference Proceedings / The Forty-First Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2005 / Riviera Hotel & Convention Center, Las Vegas, Nevada / The telemetry industry anticipates the tremendous potential value of adding full networking
capability to telemetry systems. However, much of this potential can be realized while working
with legacy equipment. By adding modules that interface transparently to existing equipment,
continuous telemetry data can be encapsulated in discrete packets for over the air transmission.
Packet fields can include header, sequence number and bytes for error detection and correction.
The RF packet is transmitted without gaps through a standard serial interface and rate adjusted
for the packet overhead – effectively making packetization transparent to a legacy system. The
receiver unit performs packet synchronization, error correction, extraction of stream quality
metrics and re-encapsulation of the payload data into an internet protocol (IP) packet. These
standard packets can then be sent over the existing network transport system to the range control
center. At the range control center, the extracted stream quality metrics are used to select the best
telemetry source in real-time. This paper provides a general discussion of the path to a fully
realized, packet-based telemetry network and a brief but comprehensive overview of the
Hypernet system architecture as a case study.
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Standardize Your IP Traffic with TMOIPGrebe, Andy 10 1900 (has links)
ITC/USA 2009 Conference Proceedings / The Forty-Fifth Annual International Telemetering Conference and Technical Exhibition / October 26-29, 2009 / Riviera Hotel & Convention Center, Las Vegas, Nevada / With the emergence of higher bandwidth Ethernet networks on ranges, many ranges are converting their data transport from ATM(Asynchronous Transfer Mode) networks to Ethernet networks. Both networks have their respective advantages and disadvantages, however one reoccurring issue is product interoperability. The RCC (Range Commanders Council) TTG (Telecommunications and Timing Group) created the Telemetry over IP (TMoIP 218-07) solution with input from various ranges and vendors to solve this issue. This specification allows ranges to use different vendors together for Telemetry over Ethernet, based on specific needs at each site. This paper targets those who are thinking about converting from ATM to Ethernet networks.
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TRANSPARENT SATELLITE BANDWIDTH ACCELERATIONGudmundson, Stephan 10 1900 (has links)
International Telemetering Conference Proceedings / October 20-23, 2003 / Riviera Hotel and Convention Center, Las Vegas, Nevada / While the transition to IP internetworking in space-based applications has a tremendous upside, there are significant challenges of communications efficiency and compatibility to overcome. This paper describes a very high efficiency, low-risk, incremental architecture for migrating to IP internetworking based on the use of proxies. In addition to impressive gains in communications bandwidth, the architecture provides encapsulation of potentially volatile decisions such as particular vendors and network technologies. The specific benchmarking architecture is a NetAcquire Corporation COTS telemetry system that includes built-in TCP-Tranquility (also known as SCPS-TP) and Reed-Solomon Forward Error Correction capabilities as well as a specialized proxy-capable network stack. Depending on network conditions, we will show that the effective bandwidth for satellite transmissions can be increased as much as a factor of one hundred with no external changes to existing internetworking equipment.
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COMPARISON OF FILE TRANSFER USING SCPS FP AND TCP/IP FTP OVER A SIMULATED SATELLITE CHANNELHoran, Stephen, Wang, Ru-hai 10 1900 (has links)
International Telemetering Conference Proceedings / October 25-28, 1999 / Riviera Hotel and Convention Center, Las Vegas, Nevada / The CCSDS SCPS FP file transfer performance is compared with that of TCP/IP FTP in
a simulated satellite channel environment. The comparison is made as a function of
channel bit error rate and forward/return data rates. From these simulations, we see that
both protocols work well when the channel error rate is low (below 10^-6) and the SCPS
FP generally performs better when the error rate is higher. We also noticed a strong effect
on the SCPS FP throughput as a function of forward transmission rate when running
unbalanced channel tests.
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SMART SENSORS VS DISTRIBUTED DATA ACQUISITIONMyers, Robert L. 10 1900 (has links)
International Telemetering Conference Proceedings / October 22-25, 2001 / Riviera Hotel and Convention Center, Las Vegas, Nevada / Distributed processing is coming to data acquisition. The desire for smart sensors that can preprocess
data, is growing. Making sensors themselves intelligent will reverse the historic trend toward
smaller and cheaper sensors. Incorporating current sensor technology into data acquisition nodes in a
network will create a distributed data acquisition, DAQ, environment that can acquire data from
around the world over the Internet. The future is now.
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Improving TCP performance over heterogeneous networks : the investigation and design of End to End techniques for improving TCP performance for transmission errors over heterogeneous data networksAlnuem, M. A. January 2009 (has links)
Transmission Control Protocol (TCP) is considered one of the most important protocols in the Internet. An important mechanism in TCP is the congestion control mechanism which controls TCP sending rate and makes TCP react to congestion signals. Nowadays in heterogeneous networks, TCP may work in networks with some links that have lossy nature (wireless networks for example). TCP treats all packet loss as if they were due to congestion. Consequently, when used in networks that have lossy links, TCP reduces sending rate aggressively when there are transmission (non-congestion) errors in an uncongested network. One solution to the problem is to discriminate between errors; to deal with congestion errors by reducing TCP sending rate and use other actions for transmission errors. In this work we investigate the problem and propose a solution using an end-to-end error discriminator. The error discriminator will improve the current congestion window mechanism in TCP and decide when to cut and how much to cut the congestion window. We have identified three areas where TCP interacts with drops: congestion window update mechanism, retransmission mechanism and timeout mechanism. All of these mechanisms are part of the TCP congestion control mechanism. We propose changes to each of these mechanisms in order to allow TCP to cope with transmission errors. We propose a new TCP congestion window action (CWA) for transmission errors by delaying the window cut decision until TCP receives all duplicate acknowledgments for a given window of data (packets in flight). This will give TCP a clear image about the number of drops from this window. The congestion window size is then reduced only by number of dropped packets. Also, we propose a safety mechanism to prevent this algorithm from causing congestion to the network by using an extra congestion window threshold (tthresh) in order to save the safe area where there are no drops of any kind. The second algorithm is a new retransmission action to deal with multiple drops from the same window. This multiple drops action (MDA) will prevent TCP from falling into consecutive timeout events by resending all dropped packets from the same window. A third algorithm is used to calculate a new back-off policy for TCP retransmission timeout based on the network's available bandwidth. This new retransmission timeout action (RTA) helps relating the length of the timeout event with current network conditions, especially with heavy transmission error rates. The three algorithms have been combined and incorporated into a delay based error discriminator. The improvement of the new algorithm is measured along with the impact on the network in terms of congestion drop rate, end-to-end delay, average queue size and fairness of sharing the bottleneck bandwidth. The results show that the proposed error discriminator along with the new actions toward transmission errors has increased the performance of TCP. At the same time it has reduced the load on the network compared to existing error discriminators. Also, the proposed error discriminator has managed to deliver excellent fairness values for sharing the bottleneck bandwidth. Finally improvements to the basic error discriminator have been proposed by using the multiple drops action (MDA) for both transmission and congestion errors. The results showed improvements in the performance as well as decreases in the congestion loss rates when compared to a similar error discriminator.
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