Approaches to strategic research and technology (R&T) analysis and road mapping

Abstract Increasingly, the timely and successful incorporation of innovative technologies into new systems is a critical factor in their success or failure. This is true for both commercial and government space missions. In addition, continuing progress in methodologies that may enable the effective identification of long-term technology needs and opportunities—and the guidance of ongoing research and technology (R&T) programs to address them—is vital to progress in space exploration and commercial development. NASA's long-standing use of technology readiness levels (TRLs) is one such approach. These technology discipline-independent metrics provide a valuable tool in technology management at all levels in an organization. However, TRLs provide only the basic guideposts for R&T management: information on the current and desired level of maturity of a technology for a particular application. In order to succeed over the longer term, additional methodologies are needed, including those which allow the identification of anticipated uncertainty in planned R&T programs, as well as approaches that permit the identification of overall technology-derived uncertainty in future space systems developments. This paper provides a preliminary discussion of this critical subject, including an overview of the history and the current practices of the TRL approach. In addition, the paper presents a recently-formulated strategic technology management approach that attempts to address the question of uncertainty in technology development and applications: the Integrated Technology Analysis Methodology (ITAM). The paper concludes with a discussion of a future directions for space technology management, and how these tools might be used to facilitate coordination and discussions in an international setting.