论文信息 - Policy Enablers for the Development of a Space-Based Infrastructure

Policy Enablers for the Development of a Space-Based Infrastructure

Humankind has been sending systems into space for the last fifty years. With the exception of some systems associated with human spaceflight, there is no infrastructure in space to service or upgrade these systems. An infrastructure for facilities in space would have the potential to reduce the cost of space systems, increase their performance, reduce their risk, improve their flexibility, and even enable new space missions. As the technologies for automated servicing of space systems are emerging, several designs have been proposed for replenishment, repair or upgrade of specific satellites. However, no general conclusion has been drawn to date about the cost-effectiveness of on-orbit servicing. We propose a general model and meaningful cost-effectiveness metrics to systematically explore a wide trade space of missions and servicing infrastructures. We analyze as an example the advantages of refueling one type of space mission: a LEO communications mission. The general conclusion is that while cost models show some benefit to a servicing architecture, the uncertainty in the cost estimates and the uncertainty in the risk of collision and loss of a space system renders the benefits marginal.

Daniel E. Hastings | Joseph H. Saleh | Annalisa L. Weigel | Elisabeth Lamassoure

[1] D. Miller,et al. Development of the quantitative generalized information network analysis (GINA) methodology for satellite systems , 1999, 1999 IEEE Aerospace Conference. Proceedings (Cat. No.99TH8403).

[2] Daniel E. Hastings,et al. Space systems flexibility provided by on-orbit servicing. II , 2001 .

[3] Joseph H. Saleh,et al. Space Systems Flexibility Provided by On-Orbit Servicing: Part 2 , 2002 .

[4] Daniel E. Hastings,et al. Development of the Quantitative Generalized Information Network Analysis Methodology for Satellite Systems , 2001 .

[5] Stuart Kramer,et al. Analysis and preliminary design of on-orbit servicing architectures for the GPS constellation , 1999 .

[6] Gregg H. Gunsch,et al. An overview of the IRIDIUM (R) low Earth orbit (LEO) satellite system , 1998, Proceedings of the IEEE 1998 National Aerospace and Electronics Conference. NAECON 1998. Celebrating 50 Years (Cat. No.98CH36185).

[7] James R. Wertz,et al. Space Mission Analysis and Design , 1992 .

[8] Maurice Martin,et al. Distributed satellite missions and technologies - The TechSat 21 program , 1999 .

[9] Daniel E. Hastings,et al. Cost per Billable Minute Metric for Comparing Satellite Systems , 1997 .

[10] Daniel E. Hastings,et al. Generalized metrics for optimization of space systems cost-effectiveness , 2000 .