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Permanent URI for this communityhttps://hdl.handle.net/20.500.12416/6
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Browsing Tezler by Department "Çankaya Üniveristesi, Fen Bilimleri Enstitüsü, Elektronik ve Haberleşme Mühendisliği Ana Bilim Dalı"
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Master Thesis Analysis and performance measurements of MIMO OFDM techniques for LTE(Çankaya Üniversitesi, 2018) İbişoğlu, İsmailNowadays, the demand towards mobile phones that require high data rates applications has rapidly increased. In mobile networks, the Third Generation Partnership Project (3GPP) to meet the increasing demand developed long-term evolution (LTE) standard. Today, on February 28th, 2017[1], 790 operators have commercially launched LTE in 201 countries, according to data released this week by GSA (Global mobile Suppliers Association) in its latest update of the Evolution to LTE report. This study has analyzed LTE network structure which is based 3GPP standards, Version 7, 8, 9, 10, 11 and 12, and defined LTE technology properties. Afterwards, information is offered about different methods for capacity and coverage area calculations. This study also tested whether Shannon Capacity Equality or using software (like ATOLL) tools are preferred by today operators on sample.Master Thesis Effect of sliding windows techniques over a performance of TCP/IP networks(Çankaya Üniversitesi, 2018) Abedi, Abbas Fadhil AbdulabbasThe communication channels have a variety of features in the communication system and networks, particularly wireless channels. It is used in transmissions between two nodes and deals with high error rates. Such errors that occur frequently which are not easy to be avoided, have the greatest effect on the performance of a network. So, it must be concluded that error rates are for different network conditions with use of different types of sliding windows techniques. In this thesis, error correcting techniques have been investigated based on a retransmission technique they used. One of the famous retransmission techniques is sliding windows technique, which it has three sub-algorithms called: stop and wait, selective repeat, and go back N. In this work, selective repeat and go back N algorithms were taken into account, but a stop and wait algorithm was not considered since it doesn't use any window structure in their retransmissions. Also, it always has a high delay amount with less performance compared to the selective repeat and go back N techniques. For this purpose, sliding window techniques have been implemented on Multi-Protocol Label Switching (MPLS) network platform which is simulated in MATLAB with all its details. In the simulation, all nodes running over a TCP/IP on MPLS network and nodes randomly send a number of data packets to any random node over the same network, which uses a path determined by the shortest path routing algorithm. Finally, the sliding window techniques have been studied and analyzed for their performances on the MPLS for the different traffic conditions, in terms of delay, throughput and packet loss rates. Indeed, the best sliding window technique was determined and suggested for different traffic types of the MPLS networks.Master Thesis Spectral analysis of ECG signals for pre-diagnosis of heart diseases(Çankaya Üniversitesi, 2018) Al-Jada, Omar Saad AbdulqaderIn this thesis we used the three cases for diagnosis of the heart attacks. The first case is healthy persons, second case is non healthy persons and the last one is unknown persons. For detection of them we used the correlation and auto correlation between the cases. For the simulation results we used the MATLAB programming languages. For diagnosis we used two statistical method. The first one is to take only one dice (assuming that this selected dice is a perfect representative of the remaining dice) and throw it many times (multiplying the time axis, to get time average). The second is to throw all dice or some of the dice at the same time (multiplying the event axis, to get ensemble average). The question is how many times should the experiment be repeated along time axis in the first case and how many dice thrown at a time in the second case so that we arrive at a result well approximated to the ones to get a result within 98 % confidence interval the minimum number that an experiment should be performed