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"This book features selected papers presented at Third International Conference on Nanoelectronics, Circuits and Communication Systems (NCCS 2017). Covering topics such as MEMS and nanoelectronics, wireless communications, optical communication, instrumentation, signal processing, Internet of Things, image processing, bioengineering, green energy, hybrid vehicles, environmental science, weather forecasting, cloud computing, renewable energy, RFID, CMOS sensors, actuators, transducers, telemetry systems, embedded systems, and sensor network applications in mines, it is a valuable resource for young scholars, researchers, and academics."

"This book gathers selected papers presented at the 7th International Conference on Innovations in Electronics and Communication Engineering, held at Guru Nanak Institutions in Hyderabad, India. It highlights contributions by researchers, technocrats and experts regarding the latest technologies in electronic and communication engineering, and addresses various aspects of communication engineering, including signal processing, VLSI design, embedded systems, wireless communications, and electronics and communications in general. Covering cutting-edge technologies, the book offers a valuable resource, especially for young researchers. "

"This book enables readers to achieve ultra-low energy digital system performance. The authors main focus is the energy consumption of microcontroller architectures in digital (sub)systems. The book covers a broad range of topics extensively: from circuits through design strategy to system architectures. The result is a set of techniques and a context to realize minimum energy digital systems. Several prototype silicon implementations are discussed, which put the proposed techniques to the test. The achieved results demonstrate an extraordinary combination of variation-resilience, high speed performance and ultra-low energy.Presents a full bottom-up micro-electronics approach: circuit-level, design strategy and CAD automation, architecture optimizationMotivates discussion with simulation results and/or measurements in an advanced nanometer CMOS processCompares traditional circuit/design/architecture techniques and state-of-the-art, setting the landscape of current best performance and how it can be improved"

"Sistem komunikasi yang fleksibel, cepat dan reliable sangat dibutuhkan untuk mendukung teknologi informasi dan multimedia yang semakin berkembang. Oleh karena itu, diperlukan perkembangan dalam sistem komunikasi yang ada untuk memenuhi kebutuhan tersebut. Peningkatan data rate dan ke-reliable<.i>-an sistem dapat dipenuhi penurunan nilai BER (Bit Error Rate) dan memaksimalkan efisiensi spectrum frekuensi. Salah satu teknologi yang paling sesuai untuk memenuhi kebutuhan tersebut adalah teknologi spatial diversity MIMO-OFDM. Pada skripsi ini, simulasi dan analisis dilakukan pada sistem spatial diversity MIMO-OFDM dengan menggunakan alamouti encoder. Dalam aplikasinya, sistem ini didukung oleh teknik AMC untuk memaksimalkan kapasitas kanal dan menjaga keefektifan modulasi dan ECC (error control coding) yang digunakan. Teknik modulasi QPSK, 16-QAM dan 64-QAM serta convolutional encoding dengan coderate 2/3, ½ dan 1/3 menjadi pilihan modulasi dan ECC dalam teknik AMC. BER, throughput dan kapasitas kanal menjadi parameter unjuk kerja sistem dalam simulasi pada kondisi penerima diam (fixed) dan bergerak (mobile). Hasil simulasi menunjukkan bahwa pada semua parameter, spatial diversity MIMO-OFDM memiliki unjuk kerja yang lebih baik dari pada SISOOFDM. Kemudian, BER dan throughput pada sistem spatial diversity MIMOOFDM untuk kondisi fixed jauh lebih baik dari pada kondisi mobile. Dengan menggunakan AMC, throughput dapat ditingkatkan baik pada kondisi kanal yang buruk maupun pada kondisi kanal yang bagus.

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Flexibility, reliability and rapidity of communcation system are strongly needed by the rapidly development of information technology and multimedia system. Thus, communication technology must be developed to be matched with the needed. The increasing data rate and reliability of system can be reached by decreasing BER value and maximalize the efficiency of frequency spectrum. The reomended technology which can appoint to this needed is spatial diversity MIMO-OFDM system.

In this final assignment, simulation and analysis is done to spatial diversity MIMO-OFDM system which used alamouti encoder. In the application, this system is supported by adapative modulation and coding (AMC) technique to maximalize channel capacity by choosing the appropriate modulation and error control coding due to the channel condition. QPSK, 16-QAM and 64-QAM modulation technique and convoluitonal encoding with coderate 2/3, ½ and 1/3 are the choices in the modulation and error control coding. BER, throughput and channel capacity are the parameters to evaluate the performance of the system in fixed and mobile condition in the simulation.

Simulation results show that the spatial diversity MIMO-OFDM system has a better performance than SISO-OFDM at all of the parameters. BER and throughput in the spatial diversity MIMO-OFDM system has a better performance in fixed than mobile condidtion. By using AMC, throughput can be increased both in the bad and good channel condition."