It has been three years since I witnessed the last Space Shuttle launch, STS-135, lifting off from Earth on July 8, 2011. It was the seventh I had witnessed, but this one had special meaning. Twenty-nine years ago, I was on the inside looking out as a part of the STS-23 (STS 61-B) crew. I flew Atlantis on her second flight in 1985 and had observed her construction years earlier at Rockwell International s space shuttle-assembly location. As a crew, we visited the facility in Palmdale, Calif., where the components were finally assembled. It was an awesome spectacle. This was where a reusable, reliable and incredibly powerful rocket ship called Atlantis came alive. Technology was ubiquitous. There were so many critical components that had to be harmonized. If it weren t for systems engineering and its embedded process imperatives though, the shuttle would have never taken off the ground. In the last six years, in my capacity as a professor at the Defense Acquisition University, I have found myself reflecting more and more about that day and the importance of Systems Engineering and Test as well as the influence NASA has had on Department of Defense (DoD) weapon system developments.


    Access

    Access via TIB

    Check availability in my library


    Export, share and cite



    Title :

    View From Space. NASA Systems Engineering and Test


    Contributors:
    W. Spring (author)

    Publication date :

    2014


    Size :

    5 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    Heritage Systems Engineering Lessons from NASA Deep Space Missions

    Barley, Bryan / Newhouse, Marilyn / Clardy, Dennon | NTRS | 2010


    NASA, Space, & Spaceship Heatshield Engineering

    Andrew Santos / Don Ellerby | NTRS



    NASA, Space, & Spaceship Heatshield Engineering

    J. Feldman / D. Ellerby | NTIS | 2021


    NASA, Space, & Spaceship Heatshield Engineering

    Jay Feldman / Don Ellerby | NTRS