9.3.1 Adaptive Systems Engineering: A Medical Paradigm for Practicing Systems Engineering
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From its inception in the defense and aerospace industries, SE has applied holistic, interdisciplinary tools and work-process to improve the design and management of “large, complex engineering projects.” The traditional scope of engineering embraces the design, development, production, and operation of structural, hardware, and software systems, and SE, as originally conceived, falls within that scope.
While this “traditional” view has expanded over the years to embrace wider, more holistic applications, much of the literature and training currently available is still directed almost entirely at addressing the large, complex, NASA, defense, and other industry systems wherein the “ideal” practice of SE provides the cradle-to-grave foundation for system development and deployment. Under such scenarios, systems engineers are generally viewed as an integral part of the system and project life-cycle from conception to decommissioning. In smaller, less complex, and far less “ideal” applications, SE principles are equally if not more applicable to a growing number of systems and projects that need to be “rescued” from overwhelming challenges that threaten imminent failure.
The medical profession provides a unique analogy for this latter concept and offers a useful paradigm for tailoring our “practice” of SE to address the unexpected dynamics of applying SE in the real world. In short, we can be much more effective as systems engineers as we change some of the paradigms under which we teach and “practice” SE.
[1] Michael E. Krueger,et al. 4.4.2 INCOSE Systems Engineering Handbook v3.2: Improving the Process for SE Practitioners , 2010 .
[2] Christopher T. Wright,et al. 11.4.2 Applying SE Methods Achieves Project Success to Evaluate Hammer and Fixed Cutter Grinders Using Multiple Varieties and Moistures of Biomass Feedstock for Ethanol Production , 2008 .