A Web-based Process And Process Models To Find And Deliver Information To Improve The Quality Of Flight Software

Title

A Web-based Process And Process Models To Find And Deliver Information To Improve The Quality Of Flight Software

Creator

Hawker, J. Scott
Ma, Hong
Smith, Randy

Source

http://ieeexplore.ieee.org/Xplore/home.jsp (Institute of Electrical and Electronics Engineers Xplore Digital Library)

Publisher

Institute of Electrical and Electronics Engineers

Rights

This resource may be copyright-protected. You may make use of this resource, with proper attribution, for educational and other non-commercial uses only. Please contact the author for permission to reproduce

Format

application/pdf

Language

eng

Type

text; journal article

Identifier

10.1109/DASC.2003.1245825

Abstract

Aerospace systems demand high-quality software engineering processes to deliver high-quality products. Although most aerospace organizations have high-quality processes, many of these processes fail to deliver to the engineer the organization's wealth of information and experience nformation and experience that can further contribute to the quality of software products and engineering processes. In this paper, we present an interactive, Web-based process support tool that delivers the information in a flight software engineering process as well as associated standards, lessons learned, and background information. The tool is based on an underlying formal model of the software engineering process activities and artefacts. This underlying model provides a semantic basis for context-based search and for reasoning about the engineering process. The result is an information portal to search for and deliver process and project-specific information to support the development of flight software.

Date Available

2011-10-24

Extent

11 pages

Position: 110 (41 views)

Collection

Citation

Hawker, J. Scott, Ma, Hong, and Smith, Randy, “A Web-based Process And Process Models To Find And Deliver Information To Improve The Quality Of Flight Software,” CALASYS - CALA Academic Resources & Repository System, accessed February 25, 2021, https://calasys.cala-web.org/items/show/158.