Theses and Dissertations
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Item Open Access Multi band fractal antenna for satellite application(Dhirubhai Ambani Institute of Information and Communication Technology, 2008) Kalariya, Vishalkumar Rameshbhai; Gupta, SanjeevFractal Antenna is the current topic for the research engineering because Fractal Technology allow us to design miniature antennas and integrate multiple band in single device. This antenna is a type of Micro strip antenna so it can be mount on the same PCB on which other RF components are mounted. There is not exact method to predict the resonance frequency of the Fractal antenna. Current research work tell that the prediction of resonance frequency of the Antenna is made from the simulation result. But in this work we try to predict the resonance frequency by mean of Network connection method. In this method each small segment of fractal shape antenna is treated as the single square patch and by analysis the separate patch and combing the total impedance by mean of Network connection method and the prediction of the resonant frequency is done by this thesis work. By using the Cavity model approach we find the impedance of the separate patch and by the Network connection model approach we can combine the total resistance and find the input impedance of the fractal antenna and we are trying to design the Multi band Fractal antenna for the L band(1.4GHz), C band(5.35GHz) and last is X band(9.65GHz) which is resonating at three band of frequency by this method.Item Open Access Optimum network utilization using fortz-thorup method(Dhirubhai Ambani Institute of Information and Communication Technology, 2005) Thomas, Shabu; Jotwani, Naresh D.Internet traffic has increased over the previous years and there has been a change in traffic requirements due to the emergence of new applications and services. This makes it more challenging for the network service providers to handle congestion and provide Quality of Service guarantees. Therefore, a good management and control over the functioning of a network becomes necessary. A network service provider’s objective is then to have appropriate policies and mechanisms in place that ensures optimum functioning and utilization of the network such that the guaranteed service agreement with the users of the network is not violated. This thesis work specifically focuses on increasing the utilization of a network by making use of existing capacity to carry more traffic. In this regard we propose a simple admission control scheme within the model of Fortz Thorup Method (FT Method), which avoids congestion while accommodating a new demand request. This admission control scheme tries to admit the new demand without requiring any reconfiguration of the OSPF weights thus speeding up the decision time to admit a new demand. It was found that when the network was operating in a state close to congestion as defined by the FT Method, many links were still operating below their existing capacities. New demands were created between pair of nodes, which were 1-hop, 2-hop, 3-hop and 4-hop apart and tests were conducted to check whether their admission caused congestion or not. We found out that as the hop distance between the node-pair increased, less and less number of admission request satisfied the admission control criteria. It was also observed that, in almost all test cases, admission requests were rejected not because their acceptance caused the congestion criteria to be violated but that there was already a link in the path followed by the new request which was violating the criteria.