This Is First Questiondo You Feel That The Tcpip Model Is More Or Les This is first question Do you feel that the TCP/IP model is more or less complicated than the OSI model? Why? Complete the main portion of this assignment as outlined below. When applicable, adhere to APA formatting and reference guidelines. Consider the TCP/IP model and how it differs from the OSI model for this Discussion Board. What reasons can you find to account for why TCP/IP has become the de facto standard for communication on the Internet? For example, Cisco networking equipment is designed using the TCP/IP model?
Paper For Above instruction The evolution of network models has significantly impacted the development and operation of the Internet, with the TCP/IP model emerging as the predominant framework for network communication globally. Comparing the TCP/IP model to the OSI (Open Systems Interconnection) model reveals differences in complexity, design philosophy, and practical application, which have contributed to TCP/IP’s widespread adoption. The OSI model, developed by the International Organization for Standardization (ISO), consists of seven layers that categorize different functions involved in network communication. Its architecture promotes modularity, standardization, and clarity, making it a valuable theoretical framework for understanding networking concepts (Seifert & Seifert, 2019). However, its complexity and extensive standardization process have rendered it less practical for everyday networking implementation, especially during the early years of network development. In contrast, the TCP/IP model, developed by the Department of Defense (DoD), comprises four layers—Link, Internet, Transport, and Application—and was designed primarily for real-world interoperability and efficiency over the burgeoning internet infrastructure (Leon-Garcia & Widjaja, 2017). Its simplicity and focus on essential functionalities have made it easier to implement, troubleshoot, and scale, especially in diverse environments with varied hardware and protocols. From a complexity perspective, many argue that the TCP/IP model is less complicated than the OSI model because it consolidates functions into broader layers and minimizes standardization barriers. The OSI model’s layered approach, while theoretically elegant, introduces additional steps and interfaces that can complicate implementation and troubleshooting (Kurose & Ross, 2020). TCP/IP’s design, therefore, lends itself to more straightforward deployment, which has been a key advantage in the rapid growth of the