Follow this link to skip to the main content
  NASA Logo
Jet Propulsion Laboratory
California Institute of Technology
+ View the NASA Portal
Search JPL
JPL Home Earth Solar System Stars and Galaxies Technology
JPL Robotics
Search Robotics
Home Page
Image Gallery
Video Gallery
Task Page Publications Image Gallery Videos
Phoenix Gecko Gripper

Task Image Right Shadow
Bottom Shadow
Click here for a larger image
Today, when a communication satellite fails, it usually means the expensive prospect of having to launch a brand new replacement communication satellite. Many of the satellites which are obsolete or have failed still have usable antennas, solar arrays and other components which are expected to last much longer than the life of the satellite, but currently there is no way to re-use them. The goal of the Phoenix program is to develop and demonstrate technologies to cooperatively harvest and re-use valuable components from retired, nonworking satellites in GEO and demonstrate the ability to make new space systems at greatly reduced cost. While the basic mission scenario posed by the Phoenix program seems amenable to preplanned operations, encounters with unmodeled or unmodelable operational targets are inevitable. Obvious examples are bent/cut structure and softgoods such as thermal blankets. A tool that can react to these situations by gripping a variety of surfaces, both rigid and soft, without the need for careful planning, is needed to assure success. The ability of that tool to grip satellite elements in non-conventional configurations during planned operations makes Gecko Gripper an essential tool for robotic servicing missions.
The JPL approach to this challenging problem is to team with Altius Space Machines to introduce the Gecko Gripper Tool by integrating largely pre-existing technology, giving the project high technological and programmatic flexibility while keeping costs constrained. The Gecko Gripper, illustrated in Figure 1, is an evolution of Altius’ patent-pending StickyBoom enabled by JPL’s space-rated gecko adhesive. Because the adhesive relies on van der Waals forces to adhere to surfaces, it is fundamentally insensitive to temperature, pressure, and radiation. Like the gecko, the directional asymmetry of the synthetic adhesive allows the sticking power to be turned ON and OFF using a shear force. Such an adhesive combined with StickyBoom’s arbitrary geometry mechanism should revolutionize the meaning of grasp for the Phoenix concept of operations. Gecko Gripper can grip objects that are difficult or impossible to manipulate with conventional grippers. Virtually anything it can touch, it can grip.
This work is in collaboration with Altius Space Machines, and is funded by DARPA.

Completion Date:  09/30/2014

Point of Contact:  Brett Kennedy - Jet Propulsion Laboratory

Sponsored by:  DARPA

Privacy/Copyright Image Policy Glossary Sitemap Feedback Contact Us
  National Aeronautics and Space Administration website.