Indicators of a Good Internetwork That Is Ready for Enhancements
There is a number of indicators that can certify the possibility to introduce new enhancements. The first one is agility. This is necessary to reduce the complexity of the network and make the best use of automated processes and the creation of a responsive infrastructure. This particular aspect pivotally impacts the notion of resource management due to its dynamic nature. The concept of agility of the internetwork should be in line with the agility of the whole organization (White 22).
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This is required to ensure that all the connections are in place and the network functions correctly. The second indicator is scalability. Taking into consideration the dynamic nature of an efficient internetwork, we should realize that the more scalable a network is, the more resourceful the whole IT department is (Wu and Irwin 63). One of the challenges that are associated with this indicator is that future deployments cannot be predicted.
Consequently, the scalability cannot be foreseen either. The bigger the internetwork becomes, the more nodes it has to interconnect so scalability should always be seen as one of the essential notions that have to be addressed by network designers. The most important thing about scalability is that we have to develop the deployment path instead of simply defining the absolute scale. The last indicator that can help us define an efficient internetwork is the security of the latter. Due to the modern trends, there is a necessity to make the network as secure as possible. We have to protect the data and the infrastructure.
The Difference Between Relative Network and Absolute Network
There is a slight difference between the concepts of absolute and relative networks. In relative network usage, the bandwidth that is utilized by the protocol is aligned with the bandwidth that is currently used within any given segment (Conklin et al. 104). Absolute network utilization, in turn, can be characterized as the ultimate bandwidth that is aligned with the overall dimensions of the segment (Conklin et al. 104).
The Importance of the Logical Structure of an Internetwork
The logical model is important because it helps you to see if there are critical mistakes in the physical model. Its stability correlates to the dynamics of the physical model. The problem, though, is in the fact that one model cannot fully exist without another (Mir 14). Consequently, the logical structure is responsible for ensuring the independence of the physical environment (that can be expanded further by the concepts of compactness and flexibility). Overall, it is safe to say that the development of a logical model accelerates the deployment of the physical structure (Nikolaidis and Iniewski 97). Nonetheless, the problem with logical models consists in the fact that these network outlines have to be designed by individuals that are proficient not only in technology but business as well.
Architectural and Environmental Factors Connected to Wireless Technology
There is a number of important architectural factors that should be taken into account when deploying a network. It is pivotal to make sure that there are no physical obstructions and the distance between devices is accurate and does not affect the signal in any way (Yang 45). Second, when it comes to architectural factors, it is critical to make sure that different types of signals do not interfere with each other.
Conklin, Arthur, et al. Principles of Computer Security. 4th ed., McGraw Hill, 2016.
Mir, Nader. Computer and Communication Networks. Prentice Hall, 2015.
Nikolaidis, Ioanis, and Krzysztof Iniewski. Building Sensor Networks: From Design to Applications. CRC Press, 2017.
White, Curt M. Data Communications and Computer Networks: A Business Users Approach. Course Technology, 2015.
Wu, Chwan-Hwa John, and David Irwin. Introduction to Computer Networks and Cybersecurity. CRC Press, 2016.
Yang, Shuang-Hua. Wireless Sensor Networks: Principles, Design and Applications. Springer, 2014.