posted on 2003-01-01, 00:00authored byDimitrios Apostolopoulos, Michael D. Wagner, Stuart Heys, James Teza
Inflatable robotic rovers (IRRs) are a promising concept for long-range
exploration and access to high-risk areas on planetary surfaces. Through
inflation or expansion of their locomotion elements, inflatable rovers can achieve
extraordinary terrainability not possible by other conventional mobility systems
while maintaining respectable travel speeds. Early work by NASA's Jet
Propulsion Laboratory has identified key mobility advantages, but design
optimality and limitations relative to mission requirements are currently not
known. This paper describes CMU's experimental studies that characterize single
robotic wheel performance in terms of rolling resistance, drawbar pull, drive
torque, drive power and tire wear. These studies were performed with a testbed
apparatus that allowed variation of tire design, wheel speed / acceleration, tire
pressure, soil / obstacle properties and traverse length.