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3 Parametric Cost Modeling of Space Missions Using the Develop New Projects (DNP) Implementation Process

L. Rosenberg, Jairus Hihn, Kevin A. Roust, Keith Warfield

Year
1999
Citations
5

Abstract

Abstract This paper presents an overview of a parametric cost model that has been built at JPL to estimate costs of future, deep space, robotic science missions. Due to the recent dramatic changes in JPL business practices brought about by an internal re‐engineering effort known as develop new products (DNP), high‐level historic cost data is no longer considered analogous to future missions. Therefore, the historic data is of little value in forecasting costs for projects developed using the DNP process. This has lead to the development of an approach for obtaining expert opinion and also for combining actual data with expert opinion to provide a cost database for future missions. In addition, the DNP cost model has a maximum of objective cost drivers which reduces the likelihood of model input error. Version 2 is now under development which expands the model capabilities, links it more tightly with key design technical parameters, and is grounded in more rigorous statistical techniques. The challenges faced in building this model will be discussed, as well as it's background, development approach, status, validation, and future plans.

Keywords

Process (computing)Cost estimateKey (lock)Computer scienceParametric statisticsSpace (punctuation)Systems engineeringOperations researchData scienceIndustrial engineering

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