International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 11 Issue: 07 | July 2024
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p-ISSN: 2395-0072
Navigating the Evolution of High-Speed Networks Aditi Parvati1, Prajwal Angadi2, Shreya E3, Shreejith Kinnal4, Satwika S5 Department of Electronics and Communication Engineering, Dayananda Sagar College of Engineering, Karnataka, India ---------------------------------------------------------------------***---------------------------------------------------------------------
Abstract – High-speed networks have evolved into a vital
and protocols to enable noticeably quicker data transmission rates, high-speed networks overcome this restriction.
component of our linked society in an era driven by datadriven innovation. High-speed networks are cutting-edge communication systems created to speed up data transfer and enable effective connectivity. This overview piece sets out on an intriguing journey across the always-changing high-speed network landscape, charting the development from wireless networks, Ethernet networks, and fiber optic networks to our current level of connectedness. Here we explore the most recent developments, applications, and comparative studies in various fields, from the lightning-fast worlds of 5G networks and 10 Gigabit Ethernet (10GbE) to the enlightening potential of Li-Fi and Quantum Networks. The survey report decides by highlighting future guidance’s and challenges engaged of speedy networks. It also discusses issues relating to the link between mathematical separation, range allocation, safety, and interoperability.
There are various types of high-speed networks, each with its own unique characteristics and applications. Some prominent examples include wireless networks, fiber optic networks, and Ethernet networks.
2. CURRENT NETWORK
Today's wireless networks can be seen in many different forms. Wi-Fi (Wireless Fidelity) networks are widely used in homes, workplaces, cafés, and public places and offer a variety of devices wireless internet access. Bluetooth technology enables wireless short-range communications between gadgets like speakers, headphones, and smartphones. Mobile communication and data transfer are made possible by cellular networks like 3G, 4G, and 5G across vast region [5].
1.INTRODUCTION High-speed networks are communication systems that facilitate high-speed data transfer. To attain high bandwidth capacity, minimal latency, and quick data transfer rates, these networks use modern technologies and protocols. In many fields, including telecommunications, internet connection, cloud computing, and new technologies like the Internet of Things (IoT) and artificial intelligence, high-speed networks are essential. High-speed networks make it possible for people, companies, and organizations to access and share information, collaborate in real time, and take advantage of data-intensive applications by allowing quick and dependable data transfer. These networks, which enable us to move around the digital environment with unmatched speed and efficiency, are the foundation of our linked world, whether through wired connections like fiber optics or wireless technologies like 5G
The simplicity and portability of wireless networks is one of its main benefits. Users may browse the internet and chat with others from anywhere they have wireless connectivity.
3. KEY MILESTONGES AND ADVANCEMENTS IN NETWORKS TECHNOLOGIES 3.1 1969: ARPANET: In 1969, the ARPANET algorithm was created. It could be summed up like this: Each packet is sent along a path with an anticipated total transit time to its destination is the smallest. This course is not predetermined. Instead, while sending a packet to a different destination, each Interface Message Processor (IMP) chooses on their own which line to utilize [1]. This choice is made via a straightforward
High-speed networks have completely changed how people interact with one another, work together, and access information. Traditional networks were unable to handle the growing data demands of modern applications because of their constrained bandwidth and slower transmission speeds. By utilizing cutting-edge technology
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Impact Factor value: 8.226
HIGH-SPEED
Networks have become an integral part of our modern digital ecosystem, enabling seamless communication and connectivity without the need for physical wires or cables. Wireless networks are simply systems that use various wireless technologies to transmit data and information over the air. The way we engage with technology, communicate, and work has been revolutionized by these networks [6].
Key Words: Ethernet Networks, wireless networks, fiber optic network, network scalability, network performance, network security, SDN, Gigabit Ethernet
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