An examination was made of early estimates of outer planetary atmospheric probe cost by comparing the estimates with past planetary projects. Of particular interest is identification of project elements which are likely cost drivers for future probe missions. Data are divided into two parts: first, the description of a cost model developed by SAI for the Planetary Programs Office of NASA, and second, use of this model and its data base to evaluate estimates of probe costs. Several observations are offered in conclusion regarding the credibility of current estimates and specific areas of the outer planet probe concept most vulnerable to cost escalation
Entry probes provide useful insights into the structures of planetary atmospheres, but give only one...
Systems engineering and constraints, cost estimates, and program schedule for Venus flyby/entry prob...
In 1992 a small workshop in San Juan Capistrano marked the beginning of an innovation in planetary e...
The use of unmanned space probes for investigating the conditions existing on and around the outer p...
The similarities and differences of atmosphere entry probe mission designs and sciences appropriate ...
A manpower/cost estimation model is developed which is based on a detailed level of financial analys...
A basic model is presented for estimating the cost of unmanned lunar and planetary programs. Cost da...
The results are summarized of research accomplished during this period concerning planetary mission ...
The three advanced propulsion systems analyzed are an advanced chemical system, an improved solid-co...
A series of navigation studies in conjunction with outer planet Pioneer missions are reformed to det...
A basic computerized technology is presented for estimating labor hours and cost of unmanned planeta...
General mission considerations and science prospectus, which are of a general nature that applies to...
Supporting studies are presented on planetary atmospheres, communication and communication equipment...
The Pluto unmanned long-range scientific explorer (PULSE) is a probe that will do a flyby of Pluto. ...
A number of implied technologies for a deep probe mission was examined; i.e., one that would provide...
Entry probes provide useful insights into the structures of planetary atmospheres, but give only one...
Systems engineering and constraints, cost estimates, and program schedule for Venus flyby/entry prob...
In 1992 a small workshop in San Juan Capistrano marked the beginning of an innovation in planetary e...
The use of unmanned space probes for investigating the conditions existing on and around the outer p...
The similarities and differences of atmosphere entry probe mission designs and sciences appropriate ...
A manpower/cost estimation model is developed which is based on a detailed level of financial analys...
A basic model is presented for estimating the cost of unmanned lunar and planetary programs. Cost da...
The results are summarized of research accomplished during this period concerning planetary mission ...
The three advanced propulsion systems analyzed are an advanced chemical system, an improved solid-co...
A series of navigation studies in conjunction with outer planet Pioneer missions are reformed to det...
A basic computerized technology is presented for estimating labor hours and cost of unmanned planeta...
General mission considerations and science prospectus, which are of a general nature that applies to...
Supporting studies are presented on planetary atmospheres, communication and communication equipment...
The Pluto unmanned long-range scientific explorer (PULSE) is a probe that will do a flyby of Pluto. ...
A number of implied technologies for a deep probe mission was examined; i.e., one that would provide...
Entry probes provide useful insights into the structures of planetary atmospheres, but give only one...
Systems engineering and constraints, cost estimates, and program schedule for Venus flyby/entry prob...
In 1992 a small workshop in San Juan Capistrano marked the beginning of an innovation in planetary e...