Chris Madsen scite author profile

Chris Madsen

5Publications

36Citation Statements Received

40Citation Statements Given

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Affiliations

Canadian Forces College, Johnson Space Center

Publications

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An Overview of the Guided Parafoil System Derived from X-38 Experience

Stein

Madsen

Strahan

2005

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The NASA Johnson Space Center built a 4200 ft2 parafoil for the U.S. Army Natick Soldier Center to demonstrate autonomous flight using a guided parafoil system to deliver 10,000 lbs of useable payload. The parafoil's design was based upon that developed during the X-38 program. The drop test payload consisted of a standard 20-foot Type V airdrop platform, a standard 12-foot weight tub, a 60 ft drogue parachute, a 4200 ft2 parafoil, an instrumentation system, and a Guidance, Navigation, and Control (GN&C) system. Instrumentation installed on the load was used to gather data to validate simulation models and preflight loads predictions and to perform post flight trajectory and performance reconstructions. The GN&C system, developed during NASA's X-38 program, consisted of a flight computer, modems for uplink commands and downlink data, a compass, laser altimeter, and two winches. The winches were used to steer the parafoil and to perform the dynamic flare maneuver for a soft landing. The laser was used to initiate the flare. The GN&C software was originally provided to NASA by the European Space Agency. NASA incorporated further software refinements based upon the X-38 flight test results. Three fullscale drop tests were conducted, with the third being performed during the Precision Airdrop Technology Conference and Demonstration (PATCAD) Conference a t the U.S. Army Yuma Proving Ground (YPG) in November of 2003. For the PATCAD demonstration, the parafoil and GN&C software and hardware performed well, concluding with a good flare and the smallest miss distance ever experienced in NASA's parafoil drop test program. This paper describes the 4200 ft2 parafoil system, simulation results, and the results of the drop tests. GNC GPS U D= air data probe = crew return vehicle = coefficient of drag = center of gravity = coefficient of lift = degree of freedom = decelerator system simulation = energy management circle = square foot = guidance, navigation and control system = global positioning system = lift over drag

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Investigation of large scale parafoil rigging angles - Analytical and drop test results

Iacomini

Madsen

1999

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Flight Performance, Aerodynamics, and Simulation Development for the X-38 Parafoil Test Program

Madsen

Sostaric

Cerimele

2003

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Green is the New Black: The Royal Canadian Mounted Police and Militarisation of Policing in Canada

Madsen

2020

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Orion Multi-Purpose Crew Vehicle Solving and Mitigating the Two Main Parachute Pendulum Problem

Ali

Sommer

Troung

et al. 2017

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Chris Madsen

An Overview of the Guided Parafoil System Derived from X-38 Experience

Investigation of large scale parafoil rigging angles - Analytical and drop test results

Flight Performance, Aerodynamics, and Simulation Development for the X-38 Parafoil Test Program

Green is the New Black: The Royal Canadian Mounted Police and Militarisation of Policing in Canada

Orion Multi-Purpose Crew Vehicle Solving and Mitigating the Two Main Parachute Pendulum Problem

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