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Title: | Study of SNR variation for capacity analysis of orthogonal access networks |
Authors: | Guendouz, Abdelkader Cherif Mohamed, Cherif Meradi, Abdelhafid |
Issue Date: | 2024 |
Abstract: | Wireless networks are crucial in today's interconnected world, offering flexible and seamless communication by eliminating the need for physical cables. Mobile networks have evolved from 1G to 5G, significantly enhancing data transfer speeds, efficiency, and global connectivity. 5G technology aims to support numerous devices, optimize network architecture, and integrate new wireless technologies, enabling advancements in various sectors like transport, smart cities, and healthcare. Despite the benefits, challenges in security and resource management persist, requiring ongoing research and innovation. Overall, wireless networks symbolize the digital progression of society, transforming how we work, communicate, and interact. Wireless networks are pivotal in the digital age, providing seamless connectivity without physical cables. Bandwidth, a critical measure of network quality, is often confused with speed, but it specifically refers to the maximum data transfer capacity. Interference, from physical objects to electrical devices, can affect wireless performance, while signal strength, measured in decibels, impacts connection quality. Techniques like modulation and multiplexing enhance network efficiency, and the signal-to-noise ratio (SNR) is crucial for maintaining high data rates and low error rates. Quality of Service (QoS) ensures reliable performance for sensitive applications, making mobile networks essential for future innovations like 5G, IoT, and augmented reality. Orthogonal and non-orthogonal access techniques are pivotal in telecommunications, governing efficient data transmission and spectrum utilization. Orthogonal multiple access methods, like FDMA, TDMA, CDMA, SC FDMA, and OFDMA, enable simultaneous transmission without interference, ensuring reliable communication in wireless networks. FDMA assigns distinct frequency bands to each user, while TDMA allocates specific time slots, and CDMA uses unique codes for each channel. SC-FDMA and OFDMA address power efficiency and spectral efficiency challenges, making them vital for modern wireless communication systems. Overall, these techniques optimize bandwidth usage, increase capacity, and reduce interference, crucial for seamless connectivity in today's digital landscape. Our simulation explores orthogonal multiple access (OMA) systems' evaluation through MATLAB simulations, focusing on SNR's impact on capacity optimization in wireless communication. OMA model parameters, mathematical equations linking SNR and transmission rate, and system capacity assessment methods are detailed. Simulations reveal how SNR affects achievable capacity, demonstrating its critical role in transmission |
URI: | http://dspace.univ-temouchent.edu.dz/handle/123456789/4400 |
Appears in Collections: | Télécommunication |
Files in This Item:
File | Description | Size | Format | |
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Study of SNR variation for capacity analysis of orthogonal access networks. (3) - Cherif Mouhamed (1).pdf | 1,59 MB | Adobe PDF | View/Open |
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