Compare both recommendations to mitigate technical risks early in the system development for design engineers who have never developed the subsystem required.

Recommendation 1 -

As a manager of a new system development effort of a team who has never developed the subsystems and components required for this new system, the key is enabling the team to succeed. This might mean presenting the team with the right information or tools.

One way I can see we mitigate this risk is by being able to teach the design engineers more about the system they are creating. This could mean offering training courses on the technical knowledge of the system or even how to properly use the system. This could also be done by bringing the subject matter experts in to teach the design engineers how to operate and use the system. This would help mitigate risk because the team will have a strong foundation on the system.

We could so create a prototype system that can be presented to the customer of the system to get input and ideas from the customers. That allows an agile style which is great for brainstorming and updating the system based on feedback. This would mitigate the risk because you can help grow the team.

Recommendation 2 -

As a manager of a team who has not yet developed a subsystem/components for a new system, I would perform a series of 7 steps.

1. Risk Management Plan: This plan would identify possible hazards and propose mitigation techniques.

2. Conduct a Design Analyze: Request that the design engineers review the design specifications and offer input on any possible problems.

3. Hire an Expert: Hire an expert/experienced engineer who has worked on comparable systems and can provide advice/insight.

4. Establish a Prototype Testing Program: Create a prototype of the new system and test it to verify if it satisfies the original design specifications.

5. Conduct Regular System Assessments: We must perform regular system assessments to detect any areas of risks or possible difficulties.

6. Monitor System Performance: We will have to keep an eye on the system's performance and take action as appropriate.

7. Quality Assurance Method: This process guarantees that the system satisfies the design criteria and is defect-free.