Full report (9.7 mb .pdf)TeamVision wrote:An Alternate Approach towards Achieving the New Vision for Space Exploration
Stephen Metschan
President/CEO, TeamVision Corporation, Federal Way, WA, 98003
Before us is a watershed opportunity to increase the depth of space exploration and development. The Exploration Systems Architecture Study (ESAS) provides a vital first step towards this important long term goal. Based on the key objectives contained in the ESAS, an alternate space exploration architecture was formulated by the author that reduces complexity, time, risk and cost while simultaneously improving Lunar and Mars mission, affordability, safety and expandability. This was achieved by re-sequencing mission objectives, spacecraft elements and launch vehicle requirements reducing the development bottlenecks in NASA’s current Vision for Space Exploration (VSE) plan. This re-sequencing was performed by a powerful new analysis process that enables the evaluation of trillions of scenarios. Utilizing this new process we have developed a series of spacecraft, launch vehicles and missions recommendations grouped into five interrelated exploration Eras of:
* Manned Exploration Transition (2004-2016)
* Lunar Return Missions (2012-2020)
* Manned Lunar Surface Missions (2016-2020)
* Lunar Resource Development Utilizing Mars Class Hardware (2020-2030)
* Manned Mars Missions Utilizing Lunar Resources (2024-2030)
The first Era is focused on replacing the Space Shuttle’s International Space Station mission role. This is accomplished through the use of existing medium class Expendable Launch Vehicles (ELV) using a Lunar class Crew Module and lower mass lunar precursor Service Module. In the Lunar Return Mission Era we introduce a new family of hybrid Heavy Lift Vehicles (HLV) based on ELV & Shuttle Derived launch systems that enables the performance of historic and scientifically important lunar precursor missions. These lunar precursor spacecraft are then combined and launched via a growth version of the hybrid HLV family to perform two crew direct ascent/return manned Lunar surface missions. These manned Lunar surface missions, working in close concert with the pervious Era’s remote controlled lunar surface robots, synergistically increase the exploration efficiency of both manned and unmanned missions. The higher lunar surface payload delivery capabilities of the direct return architecture are then expanded into a Lunar Surface Rendezvous (LSR) architecture. Utilizing Mars mission precursor equipment a significant expansion of lunar resource development is implemented. These Lunar resources and facilities are then used to significantly lower all future launch expenses enabling a significant expansion in both Lunar and Mars mission scopes. Mars precursor missions to the Asteroids and Mars vicinity are then performed utilizing the Lunar tested Mars class hardware forming the final foundation for manned Mars surface missions. Going beyond Mars other national imperatives are addressed that substantiate our overall approach which enables a significant increase in the direct relevance of space exploration and development for everyone on Earth.
Here's an alternative plan to NASA's current Project Constellation plans. You have the use of current and upgraded EELVs as support and stop-gap vehicles to service ICS and to put the first block CEVs in orbit without interruption from the retirement of the shuttle fleet, and delaying the development of complex hardware like new pads and towers longer, using more and existing SSTS hardware in the shorter-term. And its modular, eventually expanding to collossal theoretical launchers like TeamVision's Jupiter-III vehicle, which uses two shuttle ET and 2x SRBs stacks as drop-off boosters.
