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Mars Polar Lander Timeline


congress_nasa_jpl.jpg Feb 7, 1994: Program Started. Congress approves funding for the Mars Surveyor Program, which will include two launches to Mars during each two-year launch opportunity. The first in the series will be the '98 Lander and Orbiter. The missions will be managed for NASA's Office of Space Science by the California Institue of Technology Jet Propulsion Laboratory (JPL). The combined development cost for the lander and orbiter missions will be $191.3 Million. This represents a significant challenge, given that the development cost of the Mars Pathfinder lander alone was $245 Million.

mma_lmalogo.jpg Mar 17, 1995: Martin Marietta Selected. JPL selects Martin Marietta Astronautics in Denver, Colorado as the prime contractor for the Lander and Orbiter flight systems. On March 15, 1995, Martin Marietta Corp. merged with Lockheed Aerospace to form the Lockheed Martin Corporation. Lockheed Martin went on to build both the orbiter and lander flight systems. Parker Stafford was the Lockheed Martin project manager until his retirement, when the present project manager Ed Euler was named.

mcnamee.jpg May 1, 1995: Project Manager Named. JPL names John B. McNamee manager of the newly-formed Mars Surveyor '98 Project. McNamee was also the leader of JPL's Surveyor Program pre-project study effort. As project manager, McNamee creates an unusually streamlined management structure, with minimum staff, a short chain of command, and a short time-cycle for important project decisions.

nasa_seal.jpg May 8, 1995: Instrument Proposals Solicited. NASA's Office of Space Science issues an Announcement of Opportunity to the international science community soliciting proposals for instruments, or suites of instruments (integrated payloads) for the Mars Polar Lander. Based on the recommendations of Mars Exploration Science Working Group chaired by Geoff Briggs of NASA Ames, the overall scientific theme of the mission is "Mars Volatiles and Climate". The expected capabilities of the lander are outlined, but it is up to the proposors of the integrated payload to suggest specific landing sites.

pilogos.jpg Oct 20, 1995: Instruments Selected. NASA selects the lander's scientific payload. The selected investigations are the Mars Volatiles and Climate Surveyor (MVACS) integrated payload, led by led by David Paige of the University of California, Los Angeles (UCLA), the Mars Descent Imager (MARDI) led by Michael Malin of Malin Space Science Systems (MSSS), and a LIDAR instrument to be supplied by the Space Sciences Institute in Moscow (IKI). Slava Linkin of IKI is named LIDAR principal investigator.

old_landing_site.jpg Oct 20, 1995: Polar Landing Site Suggested. The MVACS investigation will sudy the distribution and behavior of Martian volatiles at a south polar landing site. The MVACS team proposes attempting to land on the Martian Polar Layered Deposits at a latitude of 72 degrees south latitude. The proposed trajectory had only a 50 percent probability of landing on the layered deposits, and was barely within the capabilities of the lander design at that point in time.

zurek.jpg Dec 1, 1995: Project Scientist Named. Richard Zurek, the original Deputy Principal Investigator of the MVACS investigation is named by JPL as the Mars Surveyor '98 Project Scientist. Zurek will work with the project to accommodate the lander and orbiter investigations, and be the prime scientific advisor to the project. Candice Hansen of JPL replaces Zurek as MVACS Deputy Principal Investigator.

lander_drawing.jpg Jan 4, 1997: Lander Design Reviewed. The Mars Surveyor '98 Project passes it's Confirmation Design Review (CDR). This top-level review certifies that the design of the lander and its mission are complete, that the lander's payload is accommodated, and that the project's cost and schedule are on target. Passing the CDR gives the project the go-ahead to begin "cutting metal" and begin assembling the lander and payload. Refined analyses of the lander's trajectory and thermal balance prior to CDR show that the optimal landing site for the lander (from an engineering standpoint) is approximately 75 degrees south latitude. The MVACS team is delighted because this now assures a landing on the south polar layered deposits.

atlo.jpg Aug 1, 1997 -
Sep 30, 1998: Lander Assembled and Tested.
The lander is assembled and tested at the Lockheed Martin facility in Denver, CO. The completed MVACS, MARDI and LIDAR instruments are delivered to Denver and successfully integrated with the lander. The entire assembly is tested in a realistic Mars atmospheric and thermal environment.

new_logo.gif Feb 1, 1998: Lander and Orbiter Renamed. After soliciting input from the project and the public, NASA renames the Mars Surveyor '98 missions the Mars Climate Orbiter and Mars Polar Lander missions.

kscarrival.jpg Oct 1, 1998: Lander Shipped to Cape. The lander is shipped from Denver to NASA's Kennedy Space Center (KSC) via air cargo transport.

mate.jpg Oct 1, 1998 -
Jan 3, 1999: Lander Integrated with Launch Vehicle.
The lander is mated to a Boeing Delta 7429 launch vehicle at Cape Canaveral Air Station and the launch countdown is started. To reach its landing site at 75 degrees south latitude, it must launch during a 7-day primary launch window which opens on Jan 3, 1999.

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