An Excess Based Approach to Change Propagation

D. Long, S. Ferguson
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引用次数: 1

Abstract

This research demonstrates how the Decision Based Design (DBD) approach can be used for determining a system’s lifecycle value when including excess. Prior research has shown that excess (the degree to which a component or attribute is sized beyond the minimum required to support the initially fielded system) can reduce the cost of changing a system. Theoretically, excess inhibits change propagation within a system and could be strategically added to increase the value of that system. Including excess, however, also adds cost and potentially impacts system performance. Prior research has not quantitatively linked excess as a means of limiting change propagation to system lifecycle value. This work advances the existing literature by considering how excess is imbedded in a system and what impact excess has on the system’s total value. After being introduced, the method is demonstrated on a desktop computer example. Results from the study are used to show how decisions about power supply capacity can be optimized by incorporating excess to achieve flexibility.
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基于过量的变更传播方法
本研究展示了如何使用基于决策的设计(DBD)方法来确定系统的生命周期价值。先前的研究表明,过剩(组件或属性的大小超过支持初始系统所需的最小值的程度)可以减少更改系统的成本。从理论上讲,过量会抑制系统内的变化传播,并且可以战略性地增加该系统的价值。然而,包括过量也会增加成本并潜在地影响系统性能。先前的研究没有定量地将过剩作为限制变更传播的手段与系统生命周期价值联系起来。这项工作通过考虑过剩如何嵌入系统以及过剩对系统总价值的影响来推进现有文献。介绍了该方法,并在台式计算机上进行了实例验证。研究结果用于展示如何通过纳入过剩来优化供电能力的决策,以实现灵活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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