Jeffrey Tooley scite author profile

On the morning of January 15, 2006, the Stardust capsule successfully landed at the Utah Test and Training range in northwest Utah returning cometary samples from the comet Wild-2. An overview of the entry, descent, and landing (EDL) trajectory analysis that was performed for targeting during the mission operations phase upon final approach to Earth is described. The final orbit determination solution produced an inertial entry flight-path angle of -8.21 deg (the desired nominal value) with a 3-σ uncertainty of ±0.0017 deg (2% of the requirement). The navigation and EDL operations effort accurately delivered the entry capsule to the desired landing site. The final landing location was 8.1 km from the target, which was well within the allowable landing area. Overall, the Earth approach operation procedures worked well and there were no issues (logistically or performance based) that arose. As a result, the process of targeting a capsule from an interplanetary trajectory and accurately landing it on Earth was successfully demonstrated.

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Entry, Descent, and Landing Operations Analysis for the Stardust Re-Entry Capsule

Desao

Lyons

Tooley

et al. 2006

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On the morning of January 15, 2006, the Stardust capsule successfully landed at the Utah Test and Training range in northwest Utah returning cometary samples from the comet Wild-2. An overview of the entry, descent, and landing (EDL) trajectory analysis that was performed for targeting during the Stardust Mission Navigation Operations Phase upon final approach to Earth is described. In addition, how the predicted landing location and the resulting overall 99 percentile landing footprint ellipse obtained from a Monte Carlo analysis changed over the final days and hours prior to entry is also presented. The navigation and EDL operations effort accurately delivered the entry capsule to the desired landing site. The final landing location was 8.1 km from the target, which was well within the allowable landing area.

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Stardust Entry: Landing and Population Hazards in Mission Planning and Operations

Tooley

Lyons

Desai

et al. 2006

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The 385 kg Stardust mission was launched on Feb 7, 1999 on a mission to collect samples from the tail of comet Wild 2 and from interplanetary space. Stardust returned to Earth in the early morning of January 15, 2006. The sample return capsule landed in the Utah Test and Training Range (UTTR) southwest of Salt Lake City. Because Stardust was landing on Earth, hazard analysis was required by the National Aeronautics and Space Administration, UTTR, and the Stardust Project to ensure the safe return of the landing capsule along with the safety of people, ground assets, and aircraft. This paper focuses on the requirements affecting safe return of the capsule and safety of people on the ground by investigating parameters such as probability of impacting on UTTR, casualty expectation, and probability of casualty. This paper introduces the methods for the calculation of these requirements and shows how they affected mission planning, site selection, and mission operations. By analyzing these requirements before and during entry it allowed for the selection of a robust landing point that met all of the requirements during the actual landing event. Nomenclature A c= casualty area C = criterion DoD = Department of Defense E c = casualty expectation GB = Green Button NASA = National Aeronautics and Space Administration P = population count P c = probability of casualty PI = probability of impact RC = reduced criterion R = reliability SRC = Sample Return Capsule TCM = Trajectory Correction Maneuver

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A First-Order, Simplified, Conservative Methodology for Computing Reentry Casualty Expectation

Tooley

Habiger

Bohman

et al. 2005

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Jeffrey Tooley

Performance Trades for Mars Pinpoint Landing

Entry, Descent, and Landing Operations Analysis for the Stardust Entry Capsule

Entry, Descent, and Landing Operations Analysis for the Stardust Re-Entry Capsule

Stardust Entry: Landing and Population Hazards in Mission Planning and Operations

A First-Order, Simplified, Conservative Methodology for Computing Reentry Casualty Expectation

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