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ID No : 724   Edit
Title: Reference Avionics Architecture for Lunar Surface Systems
Summary / Review : "Developing and delivering infrastructure capable of supporting long-term manned operations to the lunar surface has been a primary objective of the Constellation Program in the Exploration Systems Mission Directorate. Several concepts have been developed related to development and deployment lunar exploration vehicles and assets that provide critical functionality such as transportation, habitation, and communication, to name a few. Together, these systems perform complex safety-critical functions, largely dependent on avionics for control and behavior of system functions. These functions are implemented using interchangeable, modular avionics designed for lunar transit and lunar surface deployment. Systems are optimized towards reuse and commonality of form and interface and can be configured via software or component integration for special purpose applications. There are two core concepts in the reference avionics architecture described in this report. The first concept uses distributed, smart systems to manage complexity, simplify integration, and facilitate commonality. The second core concept is to employ extensive commonality between elements and subsystems. These two concepts are used in the context of developing reference designs for many lunar surface exploration vehicles and elements. These concepts are repeated constantly as architectural patterns in a conceptual architectural framework. This report describes the use of these architectural patterns in a reference avionics architecture for Lunar surface systems elements." (Author's abstract)
Author(s) : Somervill, Kevin M.; Lapin, Jonathan C.; Schmidt, Oron L., [Johnson Space Center; Langley Research Center]
Publication Date: 2010
Category(s) : Transportation / Lunar surface
Bases, industry and manufacturing / Infrastructure and logistics
Web URL : http://hdl.handle.net/2060/20100042365
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NTRS : 20100042365
Other Ref # : NASA/TM-2010-216872, L-19953, NF1676L-11755
Submitted by : MEP
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