Wednesday, September 25, 2019
The Evolution of Legacy Acknowledged System of Systems to Directed Research Paper
The Evolution of Legacy Acknowledged System of Systems to Directed - Research Paper Example However, managing emergent behavior of SoS is also necessary since it is capable of generating exclusive benefits. On the contrary, this behavior opens new horizons for engineers to experiment with in order to support the needs of users. This behavior contributes to the deciding factors regarding the methodologies and approach that users will adopt in future to conduct the business. Moreover, they enable engineers to identify those weaker areas of system which are source of hindrance for users to meet their needs and where further nurturing resources must be deployed. It enables the system to combat threats demonstrated by interoperation and attain traits such as flexibility, scalability and cost leadership. Emergence is mostly unavoidable; therefore it is pivotal that engineers learn how to coexist with it, effectively using this phenomenon to establish an invulnerable and highly elastic SoS that can easily respond to changing environment. If emergent behavior is managed effectively , systems forming SoS interact with each other, creating a synergetic effect that enables the entire network to fulfill its essential purposes that cannot be possibly attained in isolation as a standalone system. Therefore, it is only fair to state that the evolutionary process of SoS is a direct product of effective management of its emergent behavior. Figure 2: Simple example of emergent behavior of SoS (Thwink.org) Emergent behavior has largely been researched into and many experiments have revealed different definitions and characteristics to it. Dyson and George claimed that it is a behavior shown by SoS which is not easy to foresee and analyse through evaluation of its components; instead, it must be seen as a single system on the whole. They... This paper stresses that SoS is a complex network of systems that individually have different characteristics but collectively display entirely distinct behavior. This behavior emerges due to synergetic effect of interaction between these systems and components of SoS. This behavior is so strong that it is capable of ripping the entire system apart through cascade effects. High coordination among stakeholders and components and distributed control are required by system engineers to manage it. Researching and harnessing on this issue is vital for SoS to be successful in achieving its primary purposes. This report makes a conclusion that agent modeling devices and simulation settings are prime tools that can be used to mitigate consequences connected with emergent behavior by speculating it beforehand and developing strategies to undermine its effects. If controlled effectively through these engineering tactics, the SoS has high potential to achieve levels of flexibility, cost leadership and scalability that cannot be possibly attained via conventional systems. This paper shall be a source of great contribution towards SoSE Body of Knowledge since it addresses the most crucial obstacle faced by SoS and due to its highly radical and dynamic nature, still to date the researchers and engineers have not been able to fully attain grip and certainty over projecting behavioral patterns and interactive process. Since it is a replication technique and small scale research, only limited assurance can be assumed on results achieved. Nonetheless, further research is required in this field to b e in a better position to draw conclusions.
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