NASA SBIR 2007 Solicitation

SMALL BUSINESS CONCERN (Firm Name, Mail Address, City/State/Zip, Phone)
Honeybee Robotics Ltd.
460 W 34th Street
New York, NY 10001 - 2320
(212) 966-0661

PRINCIPAL INVESTIGATOR/PROJECT MANAGER (Name, E-mail, Mail Address, City/State/Zip, Phone)
Kiel Davis
davis@honeybeerobotics.com
460 West 34th Street
New York, NY 10001 - 2320
(646) 459-7809

Expected Technology Readiness Level (TRL) upon completion of contract: 3

TECHNICAL ABSTRACT (Limit 2000 characters, approximately 200 words)
Future robotic planetary exploration missions will benefit greatly from the ability to capture rock and/or regolith core samples that deliver the stratigraphy of the target formation intact to the in situ analysis suite. Obtaining and delivering consolidated/unconsolidated material is a much more complex engineering problem than drilling. This process requires additional mechanisms to capture as well as eject the core to the sample processing and analysis chain. To accommodate future missions, these core handling technologies must be developed to meet a broad range of potential requirements.
Previous coring tool development philosophies have focused on integration and far-horizon proof of concept, resulting in complete systems designed around limited requirements. Lessons have been learned from these efforts, but these "point designs" do not span the space of potential coring tool requirements for future missions.
The way forward in coring tool development, therefore, lies in maturing specific aspects of design quickly. As a leader in the development of planetary surface/subsurface access and sample acquisition/handling systems for NASA, Honeybee Robotics Spacecraft Mechanisms Corporation is uniquely suited to perform this task.
Specifically, the purpose of this SBIR effort is to mature a set of core handling designs for consolidated and/or unconsolidated material and prove their relative utility under a variety of potential mission scenarios. In Phase I, this will include studying sample handling approaches developed to date and applying the lessons learned from previous design and test programs to the development of revised and/or novel new core handling approaches. In Phase II, the approaches from Phase I will be implemented and refined through multiple design-build-test iterations until the designs reach a high TRL. These designs will collectively be able to meet the requirements of future missions, whatever they may be.

POTENTIAL NASA COMMERCIAL APPLICATIONS (Limit 1500 characters, approximately 150 words)
The products of the proposed effort will be applicable to automated surface and subsurface sampling. More specifically, the products will be suitable for use on Mars missions such as Astrobiology Field Laboratory (AFL), Mars Sample Return, Lunar missions, and other extraterrestrial planetary sampling missions. A robust capability to obtain and deliver intact samples will be crucial for analysis instrumentation.

POTENTIAL NON-NASA COMMERCIAL APPLICATIONS (Limit 1500 characters, approximately 150 words)
The products of the proposed effort will be applicable to automated surface and subsurface sampling. Non-NASA commercial applications include remote sampling of potentially dangerous geological areas such as volcanoes. Other industries that have shown interest in automated sampling include the mining and petroleum industries.

NASA's technology taxonomy has been developed by the SBIR-STTR program to disseminate awareness of proposed and awarded R/R&D in the agency. It is a listing of over 100 technologies, sorted into broad categories, of interest to NASA.

TECHNOLOGY TAXONOMY MAPPING

Integrated Robotic Concepts and Systems Manipulation