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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

PROPOSAL OF POLLED-CSMA PROTOCOL FOR AN AD HOC SCADA SYSTEM

Yuxiang, Yang, Xiaoyu, Dang, Tingxian, Zhou 10 1900 (has links)
International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California / In this paper we introduce an ad hoc distributed supervisory control and data acquisition (SCADA) system, which covers two types of traffic, a small number of slave stations with stream traffic and much larger number of slave stations with burst traffic. To improve the system’s real-time transmission and channel allocation efficiency, a MAC scheme, named Polled-CSMA, is designed by integrating the merits of polling and CSMA protocols. Extensive analysis shows that this MAC protocol meets the system’s QOS requirements.
2

SQ-CSMA : universally lowering the delay of queue-based CSMA/CA

Ganesh, Rajaganesh 1987- 14 October 2014 (has links)
Recent works show that, by incorporating queue length information, CSMA/CA multiple access protocols can achieve maximum throughput in general ad-hoc wireless networks. In all of these protocols, the aggressiveness with which a link attempts to grab the channel is governed solely by its own queue, and is independent of the queues of other interfering links. While this independence allows for minimal control signaling, it results in schedules that change very slowly. This causes starvation and delays - especially at moderate to high loads. In this work we add a very small amount of signaling - an occasional few bits between interfering links. These bits allow us a new functionality: switching - a link can now turn off its interfering links with a certain probability. The challenge is ensuring maximum throughput and lower delay via the use of this new functionality. We develop a new protocol - Switch-enabled Queue-based CSMA (SQ-CSMA) - that uses switching to achieve both of these objectives. This simple additional functionality, and our protocol to leverage it, can be “added on'' to every existing CSMA/CA protocol that uses queue lengths. Interestingly, we see that in every case it has a significant positive impact on delay, universally furthering the performance of existing protocols. / text
3

Real-Time Communication over Broadcast Networks

Forss, Jonas January 1999 (has links)
<p>Today the utilization of all kind of multimedia services in networks increases and due to this demand for real-time communication gets higher for every day. One of the most common protocols used today is Ethernet. It is of interest to find real-time protocols that are useful together with already existing protocols since it is expensive to rebuild the network infrastructure. Several new protocols have been proposed to solve the upcoming problems.</p><p>The objective of this project is to make an inventory and a comparison between Ethernet and these new protocols. During this project four different protocols capability to fulfill the demands for real-time communication have been studied and compared with Ethernet. Three of the protocols are built on the same basic technique as Ethernet and these are PCSMA, CSMA-DCR and DOD-CSMA-CD. The fourth protocol is ATM and it transmits in a different way over communication networks.</p><p>The analysis of this project is pointing out advantages, similarities and differences between the protocols from a real-time perspective. All four protocols are more suitable for real-time requirements than Ethernet.</p>
4

Real-Time Communication over Broadcast Networks

Forss, Jonas January 1999 (has links)
Today the utilization of all kind of multimedia services in networks increases and due to this demand for real-time communication gets higher for every day. One of the most common protocols used today is Ethernet. It is of interest to find real-time protocols that are useful together with already existing protocols since it is expensive to rebuild the network infrastructure. Several new protocols have been proposed to solve the upcoming problems. The objective of this project is to make an inventory and a comparison between Ethernet and these new protocols. During this project four different protocols capability to fulfill the demands for real-time communication have been studied and compared with Ethernet. Three of the protocols are built on the same basic technique as Ethernet and these are PCSMA, CSMA-DCR and DOD-CSMA-CD. The fourth protocol is ATM and it transmits in a different way over communication networks. The analysis of this project is pointing out advantages, similarities and differences between the protocols from a real-time perspective. All four protocols are more suitable for real-time requirements than Ethernet.
5

Distributed Digital Radios for Land Mobile Radio Applications

Navalekar, Abhijit C 04 January 2010 (has links)
The main objective of this dissertation is to develop the second generation of Distributed Digital Radio (DDR) technology. A DDR II modem provides an integrated voice/data service platform, higher data rates and better throughput performance as compared to a DDR I modem. In order to improve the physical layer performance of DDR modems an analytical framework is first developed to model the Bit Error Rate (BER) performance of Orthogonal Frequency Division Multiplexing over Frequency Modulation (OFDM/FM) systems. The use of OFDM provides a spectrally efficient method of transmitting data over LMR channels. However, the high Peak-to-Average (PAR) of OFDM signals results in either a low Signal-to-Noise Ratio (SNR) at FM receiver or a high non-linear distortion of baseband signal in the FM transmitter. This dissertation presents an analytical framework to highlight the impact of high PAR of OFDM signal on OFDM/FM systems. A novel technique for reduction of PAR of OFDM called Linear Scaling Technique (LST) is developed. The use of LST mitigates the signal distortion occurring in OFDM over FM systems. Another important factor which affects the throughput of LMR networks is the Push-to-Talk (PTT) delay. A PTT delay refers to the delay between the instant when a PTT switch on a conventional LMR radio is keyed/unkeyed and a response is observed at the radio output. It can be separated into a Receive-To-Transmit Switch Interval (RTSI) or a Transmit-To-Receive Switch Interval (TRSI). This dissertation presents the typical RTSI delay values, distributions and their impact on throughput performance of LMR networks. An analytical model is developed to highlight the asymmetric throughput problem and the unintentional denial of service (UDOS) occurring in heterogeneous LMR networks consisting of radios with different PTT delay profiles. This information will be useful in performance and capacity planning of LMR networks in future.
6

A Performance Analysis of a CSMA Multihop Packet Radio Network

Mulligan, Jeanette 20 June 1997 (has links)
In a packet radio network, multiple terminals broadcast information over a shared communications medium. Messages are transmitted from a source terminal to a destination terminal over multiple relays or hops. The actions of one terminal in the network directly affect the actions of other terminals within its range. The analysis of packet radio networks is complex because system performance depends on the topology of the terminals in the network along with the random access protocol used. Researchers have been unable to model a packet radio network in its most general form. In this project, a model is developed for specific topologies of a packet radio network with a given random access protocol. The sponsor of this project has developed a packet radio network for an indoor wireless alarm system. At the start of the project, the effect of message collisions on system performance was unknown. As a result of this research, a collision model for the network has been developed for topologies of four, five, and six alarm units. The model has been validated with actual system testing. Furthermore, the effects of indoor propagation on system performance have been studied. The results of this work have led to the development of an installation plan for the indoor wireless alarm system. / Master of Science
7

Estimação de vazão baseada em modelagem e simulação do controle de acesso ao meio em redes PLC / Throughput estimation based on modeling and simulation of medium access control in PLC networks

VASQUES, Thiago Lara 18 August 2010 (has links)
Made available in DSpace on 2014-07-29T15:08:15Z (GMT). No. of bitstreams: 1 Dissertacao Thiago Lara Vasques.pdf: 2258919 bytes, checksum: bdbbde461e7636388d4795c9556eb77f (MD5) Previous issue date: 2010-08-18 / We carried out a study on throughput estimation based on analysis and modeling of the medium access control in HomePlug 1.0 standard based PLC networks. The data communication using electrical energy wires has advantages such as presenting characteristics of ubiquity due to the existent infrastructure, but faces significant obstacles as fading and noise. The main standard of this kind of home network is the HomePlug, which defines a protocol based on the method of multiple access with collision avoidance (CSMA/CA). The HomePlug adds to the CSMA/CA a technique called deferral counter (DC) that adapts the contention of the nodes in accessing the medium according to network load. The objective of this work is todo a comparative study of the throughput, which is the ratio of the packet payload, i.e., the amount of data that is inserted into the body of the datagram, and the frame transmission time. To this end, we evaluate what is the theoretical maximum throughput of the PLC channel, we developed a simulator for the CSMA/CA and we propose a simple probabilistic model to describe the throughput on the network PLC. Finally, we make a comparison between the results obtained with the simulator and the probabilistic model to those observed from a real PLC network, proving that the results of the theoretical maximum throughput and the simulation results are close and that the probability model becomes a tool for calculating throughput in PLC networks. / Neste trabalho, realizou-se um estudo sobre estimação da vazão baseada na análise e modelagem do controle de acesso ao meio em redes PLC padrão HomePlug 1.0. A comunicação de dados através do canal elétrico tem vantagens como apresentar as características de ubiquidade e da infra-estrutura pré-existente, porém enfrenta obstáculos importantes como a atenuação e o ruído. O principal padrão desse tipo de rede domiciliar é o HomePlug, que define um protocolo baseado no método de acesso múltiplo com prevenção de colisões (CSMA/CA). O HomePlug associa ao CSMA/CA uma técnica chamada de contador de adiamentos (DC) que adapta a contenção dos nós no acesso ao meio de acordo com a carga da rede. O objetivo deste trabalho é realizar um estudo comparativo da vazão, que é a razão entre carga útil do pacote, ou seja, a quantidade de dados que preenchem o corpo do datagrama, e o tempo de transmissão do quadro. Para isso, avaliou-se qual é a vazão máxima teórica do canal PLC, desenvolveu-se um simulador para o protocolo CSMA/CA e foi proposto um modelo probabilístico simples para descrever a vazão na rede PLC. Foi realizada uma comparação entre os resultados obtidos com o simulador e o modelo probabilístico com os dados observados em uma rede PLC real, comprovando que os resultados da vazão máxima teórica e os resultados da simulação são próximos e que o modelo probabilístico passa a ser uma ferramenta para cálculo de vazão em redes PLC.
8

Performance Study for Co-existing Wi-Fi and ZigBee Systems and Design of Interoperability Techniques

Tang, Yong 21 August 2012 (has links)
Wireless local area networks (WLANs) and wireless sensor networks (WSNs) technologies have been comprehensively developed and deployed during recent years. Since commercial WLAN and WSN products share the same free of license frequency band, the low power, low rate ZigBee based WSNs are vulnerable to the interference from Wi-Fi WLANs. Therefore, it is important to evaluate the performance of ZigBee WSNs that are subjected to interference generated by collocated Wi-Fi WLANs and to design effective counter-measuring techniques should performance improvement is needed. In this research, a versatile testbed for conducting various experiments is established and the ZigBee system’s performance with different clear channel assessment (CCA) modes and energy detection (ED) thresholds are evaluated through extensive experimental measurements in the testbed. It can be concluded from the results that CCA has significant impact on ZigBee’s performance. An existing theoretical analysis approach that is based on the collision time model between ZigBee and Wi-Fi packets is suitably modified to provide analytical evaluation means of the cases we examined. In order to mitigate the interference from the collocated Wi-Fi system, a novel and effective interference-aware adaptive CCA (IAACCA) scheme is proposed and implemented as firmware flashed into Crossbow motes. Experiments confirmed the ability of IAACCA to countermeasure effectively interference generated by Wi-Fi and thus improve the performance of ZigBee WSNs. Finally, a thorough statistical analysis is performed to understand the factors impacting the performance of ZigBee system and is used to further verify our experimental methods.
9

Cooperative Jamming in Wireless Networks - Turning Attacks into Privacy Protection

Wu, Jingqi 19 December 2008 (has links)
Generally, collisions between packets are undesired in wireless networks. We design this scheme, Cooperative Jamming in Wireless Networks (CJWN), to make use of collision to protect secret DATA packets from being sniffed by a nearby eavesdropper. We are intending to greatly increase the Packet Error Rate (PER) at the eavesdropper when the PER at the receiver is maintained at an acceptable level. This scheme is not intended to completely take the place of various encryption/decryption schemes which are working based on successfully received packets. Adding CJWN to the popular CSMA/CA adopted in IEEE 802.11 will add more security even the key for encryption/decryption is already exposed. Because the overhead of CJWN is very big, we do not suggest using it on every transmission. When some secret packets have a high requirement of confidentiality, CJWN is worth trying at the cost of throughput performance and power.
10

Performance Study for Co-existing Wi-Fi and ZigBee Systems and Design of Interoperability Techniques

Tang, Yong 21 August 2012 (has links)
Wireless local area networks (WLANs) and wireless sensor networks (WSNs) technologies have been comprehensively developed and deployed during recent years. Since commercial WLAN and WSN products share the same free of license frequency band, the low power, low rate ZigBee based WSNs are vulnerable to the interference from Wi-Fi WLANs. Therefore, it is important to evaluate the performance of ZigBee WSNs that are subjected to interference generated by collocated Wi-Fi WLANs and to design effective counter-measuring techniques should performance improvement is needed. In this research, a versatile testbed for conducting various experiments is established and the ZigBee system’s performance with different clear channel assessment (CCA) modes and energy detection (ED) thresholds are evaluated through extensive experimental measurements in the testbed. It can be concluded from the results that CCA has significant impact on ZigBee’s performance. An existing theoretical analysis approach that is based on the collision time model between ZigBee and Wi-Fi packets is suitably modified to provide analytical evaluation means of the cases we examined. In order to mitigate the interference from the collocated Wi-Fi system, a novel and effective interference-aware adaptive CCA (IAACCA) scheme is proposed and implemented as firmware flashed into Crossbow motes. Experiments confirmed the ability of IAACCA to countermeasure effectively interference generated by Wi-Fi and thus improve the performance of ZigBee WSNs. Finally, a thorough statistical analysis is performed to understand the factors impacting the performance of ZigBee system and is used to further verify our experimental methods.

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