300 wordsThanks to the analysis conducted in the previous un…
300 words Thanks to the analysis conducted in the previous unit, the system integrators are now ready to perform the responsibility of assembling the subsystems and components. Before the integrators can proceed with the component integration, they must reduce all risks related to the integration. Therefore, the next step of integration, known as will allow the integrators to decide how the components should be integrated so that the entire system can function as a complete entity. Thus, this entire design will be a combination of subsystems, which, when integrated, can operate as an entire functioning system. In this week’s Discussion Board please discuss of the following topics as related to your current project: Purchase the answer to view it
The topic of this week’s discussion is related to the integration process of subsystems and components in a project. Specifically, we will focus on the concept of risk reduction and the importance of decision-making in the integration process.
Risk reduction plays a critical role in the integration phase as it ensures that the assembled subsystems and components will function properly and meet the project’s objectives. Before integration can take place, it is vital for system integrators to identify and assess potential risks that may arise during the integration process. These risks can include technical, operational, or even financial issues that may impede the successful integration of the components.
To effectively reduce these risks, the system integrators should have a thorough understanding of the project’s requirements and objectives. This understanding will allow them to make informed decisions about how the subsystems and components should be integrated to ensure the overall functionality of the system. The integration decision-making process involves evaluating various factors such as compatibility, interdependencies, and potential bottlenecks that may arise during integration. By considering these factors, integrators can develop a plan that minimizes risks and optimizes the performance of the integrated system.
Additionally, the design of the entire system should be seen as a combination of subsystems that work together as a cohesive unit. The successful integration of these subsystems is crucial for the overall functioning of the system. Each subsystem serves a specific purpose and must be properly integrated to achieve the desired results. Integrators should consider the compatibility between the subsystems, ensuring that they can efficiently communicate and work together. Moreover, they should also consider the physical integration, making sure that the components are properly connected and can operate collectively.
In conclusion, the integration phase of a project requires the system integrators to carefully consider risk reduction and decision-making. By identifying and assessing potential risks, integrators can develop strategies to mitigate them and ensure the successful integration of subsystems and components. The decision-making process involves considering various factors such as compatibility and interdependencies to develop a plan that optimizes the performance of the integrated system. Ultimately, the goal is to create a cohesive system where each subsystem works together to achieve the project’s objectives.