MULTIPLE SITE RETURN CAPABILITY OF SPACECRAFT FROM CIRCULAR AND ELLIPTICAL ORBITS.
Abstract
The probability of spacecraft returning from circular or elliptical orbits to multiple sites is examined as a function of spacecraft cross-range capabilities and waiting time allowed in orbit. The analysis involves the determination of ascending nodes from which the spacecraft with a given cross-range capability could land at a specified site. The loci of these nodes form coverage belts along the equator. A procedure for determining the magnitude and locations of these belts is presented. The series of ascending belts generated by the waiting of spacecraft in orbit and the availability of multiple sites overlap in some of their coverages. A discrete set of regions of accessibility along the equator is thus created and, in turn, determines the probability of return. The concept of coverage belts and regions of accessibility is useful for missions in which the ascending node and the in-track position of the spacecraft are random at the time of recall. Sample results of return probability are presented. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 1968
- Accession Number
- AD0837639
Entities
People
- K. S. Davis
- S. T. Chu
Organizations
- The Aerospace Corporation