Super Ball Bot - Structures for Planetary Landing and Exploration

OurPhaseIstudyexplored:1)Feasibility of applying tensegrities to a low-cost ,high science return mission to Saturn's moon Titan. 2) Ability to control these structures that exhibit oscillatory and non-linear behavior through evolutionary and central pattern generator based algorithms. 3) Effectiveness of tensegrities as a landing and mobility platform.These studies resulted in three important conclusions: 1.Having analyzed the mission design from trajectory planning, to science instrument election, deployment ,and mass estimation, we showed that tensegrities can be an effective landing and mobility platform for a Titan mission. A tensegrity mission can have a high-mass fraction between science payload and overall weight (as measured at atmosphericentry) due to its dual use as a landing system (like an airbag) and as a system for surface mobility. As a result, tensegrity-based missions can be cheaper and open up new forms of surface exploration that take advantage of their natural tolerance to impacts. 2.We demonstrated in our physics-based simulator that tensegrity probes can be controlled effectively with evolutionary and dynamical algorithms resulting in robust smooth rolling motion over a variety of terrains. 3. Using multiple analysis and simulation tools we showed that tensegrities are a very robust landing platform ,and can protect delicate payloads from a landing impact of 15m/s (and possibly beyond). This was further confirmed by performing droptests on multiple physical prototypes.