Milliun_2001abstr

 

 

AUTOMATED EQUIPMENT AND ITS SOFTWARE FOR MARS: LEVERAGED APPROACH TO DEVELOPMENT

 

Justin J. Milliun, Jr.

Milliun Technologies, LLC

3333 Bowers Ave., Suite 130

Santa Clara, CA 95954

Jmilliun@ieee.org

 

During exploration and settlement of Mars hosts of automated systems will provide the needed services: processing materials, providing life support, as well as handling scientific research functions. Physical distance from Earth and the associated communication delays will make special demands on these automated systems. In addition, there are real unknowns; one cannot foresee all of the conditions under which this equipment will be used. There may certainly be a "creative" use that save lives of explorers and settlers. This paper considers the software required for such systems, and approaches to development that includes substantial leveraging from existing industry proven technology.

 

Programmable equipment will need to be programmed by those who use and depend on it. The equipment must empower the user. This characteristic is shared by some industrial systems used on earth today. This paper examines standards and practice of automation and communication in the semiconductor manufacturing equipment, where several decades of engineering work has provided a useful model for how many similar problems might be approached for equipment for Mars.

 

General engineering principles for embedded software for Mars will be discussed. Borrowing from the semiconductor manufacturing equipment industry, this paper examines:

 

·  Generic Equipment Models,

·  Equipment communications,

·  Generation of "process programs" on site.

 

By starting with, and leveraging from excellent existing "industrial strength" technology, it will be possible to develop equipment destined for Mars that will exceed user expectations and even save development costs.