DYNAMICS

Protect:

This subteam prevents the occurrence of critical failure modes by…

• … designing the chassis and bodywork such that structural integrity is ensured in all foreseen environmental conditions.

• … designing vehicle shape ensuring rover balance in non-ideal/extreme conditions.

• … ensuring redundancy

 

Rescue:

This subteam will guarantee that the vehicle can be recovered by the protect statement by…

• … designing a chassis that can passively preserve itself against weather conditions.

• … putting thermally sensitive components in the center of the vehicle to insulate them.

• Regulate:

• This subteam will ensure the vehicle will remain within internal operating conditions by…

• … optimizing and modeling the internal layout of components in such a way that it becomes possible for all systems to remain within their operating conditions.

 

Maintain:

This subteam will guarantee that the rover can be sufficiently kept in a functional state during its expected lifetime by…

• … choosing an optimal internal/external layout enabling accessibility and troubleshooting with minimal effort during repairs.

 

Power:

This subteam will guarantee that the systems are sufficiently provided with the energy required for operation by…

• … designing bodywork and frame compatible with chosen tech for energy generation.

• … designing a vehicle shape that optimizes the aerodynamic drag.

 

Move:

This subteam guarantees that the vehicle can drive itself by…

• … choosing the drivetrain type most optimal and sufficiently versatile against terrain types and obstacles encountered in the mission environment.

• … calculating/modeling the energy required given environmental conditions and energy conversion efficiency.