SBIR-STTR Award

Novel Power Supply for Microrobots
Award last edited on: 6/11/2009

Sponsored Program
SBIR
Awarding Agency
DOD : AF
Total Award Amount
$1,502,702
Award Phase
2
Solicitation Topic Code
AF03-143
Principal Investigator
Theodore S Sumrall

Company Information

Novel Engineering Solutions Inc

Po Box 1085
Fort Walton Beach, FL 32549
   (850) 496-3749
   tssumrall@aol.com
   N/A
Location: Single
Congr. District: 01
County: Okaloosa

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2003
Phase I Amount
$99,901
AFRL/MN is interested in the development of technologies to support a micro-robot system that can, depending on its payload and operational requirements, act as means of attacking, tagging, tracking, and/or observing enemy operations. Of particular interest are deeply buried hardened targets. One of the AFRL/MN goals is to develop a micro-scaled device capable of satisfying three basic requirements regardless of operational functions: (1) mobility, (2) navigation and (3) payload delivery. Technology developments required in order to accomplish these basic functional requirements and to realize the micro-platform concept are all based upon advancements in micro-power. The overall objective of the Novel Power Supply for Microrobots Phase-I Project is to decisively demonstrate the feasibility of technology which could provide a long-term electrical power source for microrobots, thereby, allowing the accomplishment of the above basic functional requirements.

Benefits:
Demonstration of this technology could be extended across a broad spectrum of mobile micro-devices, including potential employment of micro "rescue robots" to locate survivors in collapsed buildings due to earthquake, terrorist strike, etc.

Keywords:
microrobot power, mobile micro-device power , miniature power supply

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2004
(last award dollars: 2008)
Phase II Amount
$1,402,801

AFRL/MN is interested in the development of technologies to support a micro-robot system that can, depending on its payload and operational requirements, act as means of attacking, tagging, tracking, and/or observing enemy operations. Of particular interest are deeply buried hardened targets. The AFRL/MN goal is to develop a micro-scaled device capable of satisfying three basic requirements regardless of operational functions: (1) mobility, (2) navigation and (3) payload delivery. Technology developments required in order to accomplish these basic functional requirements, and to realize the micro-platform concept, are all based upon advancements in micro-power. Phase-I objectives were to demonstrate that the proposed technology was a functional and viable long-term electrical power source for micro-robots. The goals of the Phase-I project have not only been met but have been exceeded by prototype demonstration. The Phase-II effort proposes to refine, maximize and optimize this technology as well as fully demonstrate the technology in a simulated operational environment. This will occur on a mobile micro-robot platform carrying navigational, sensor and payload packages (either actual or simulated) in order to demonstrate power generation capability for the entire system. Additionally, application of this technology to other AFRL/MN projects (micro-robot and non-micro-robot) will be demonstrated via prototype.

Benefits:
Employment of this technology would have very broad application to a number of other systems (military and commercial), (micro and macro) where power limitations are of concern. The potential to generate significant quantities of clean electrical power is promising. The proprietary nature of the technology limits further discussion here. However, the reviewer is invited to review pages 28, 32, and 33 for further information.

Keywords:
microrobots, microbots, miniature power supply, power generation