Hypothesized Surface: Robotic Explorer – Florida State University, Panama City

INSTITUTION

Florida State University, Panama City

CLASS

Nickel Class (2020 – 2021)

STUDENT TEAM

Jessica Brown-Bosch, Mechanical Engineering
Leila Abdul Hadi, Mechanical Engineering
Colin Jones, Mechanical Engineering
Asia Russel, Mechanical Engineering

ACADEMIC GUIDANCE

Dr. Damion Dunlap, Assistant Teaching Professor, Mechanical Engineering, FSU-Panama City

PROJECT DESCRIPTION

The NASA Psyche Mission is set to launch in 2022 and arrive at the asteroid in 2026. It is an orbiter mission and will not land on the surface. It is possible to imagine, however, that after learning about Psyche from orbit, there may be scientists and engineers interested in proposing a subsequent mission to actually land on the asteroid to explore its surface. The capstone team will design to the range of hypothesized surfaces that might be found at Psyche (and keeping in mind other constraints such as its gravity), design (and, if your capstone supports/allows, create a prototype of) a robotic explorer capable of efficiently traversing each of the hypothesized surfaces and, ideally, able to adapt to each of them mid-traverse. Hypothesized surfaces may include: mostly flat metallic surface, flat metallic with metal and/or rocky debris, rough/high-relief metallic and/or rocky terrain, high-relief metallic crater walls.

This work was created in partial fulfillment of Northern Arizona University Capstone Courses. The work is a result of the Psyche Student Collaborations component of NASA’s Psyche Mission (https://psyche.asu.edu). “Psyche: A Journey to a Metal World” [Contract number NNM16AA09C] is part of the NASA Discovery Program mission to solar system targets. Trade names and trademarks of ASU and NASA are used in this work for identification only. Their usage does not constitute an official endorsement, either expressed or implied, by Arizona State University or National Aeronautics and Space Administration. The content is solely the responsibility of the authors and does not necessarily represent the official views of ASU or NASA.