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Assessment of Mars Phoenix EDL Performance (2011)

Oberhettinger, David ; Skulsky, Eli D. ; Bailey, Erik S.

In: Other Sources

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Publication Date: 2019-07-13

Description: Entry, Descent, and Landing (EDL) is an especially risky phase of a planetary mission, and detailed information on the performance of a lander's EDL design is critical to mitigating the risks of future missions. 12However, the study of actual EDL performance and comparison with the pre-entry predictions has not typically been given a high priority following spacecraft landings, mainly for budgetary reasons. Because Mars Phoenix inherited hardware and design elements from a similar mission that appears to have failed during Mars EDL, NASA was particularly interested in identifying the reasons for the Phoenix mission success. Therefore, NASA sponsored a reconstruction and analysis of the downlinked Phoenix telemetry that would tell the story of this critical event sequence--focusing on the 14 minutes from cruise stage separation to landing--and identify lessons learned.

Keywords: Spacecraft Design, Testing and Performance

Type: IEEE Aerospace Conference; Mar 05, 2011 - Mar 12, 2011; Big Sky, MT; United States

Format: text

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Compute Element and Interface Box for the Hazard Detection System (2013)

Khanoyan, Garen ; Whitaker, William D. ; Ivanov, Tonislav I. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: The Autonomous Landing and Hazard Avoidance Technology (ALHAT) program is building a sensor that enables a spacecraft to evaluate autonomously a potential landing area to generate a list of hazardous and safe landing sites. It will also provide navigation inputs relative to those safe sites. The Hazard Detection System Compute Element (HDS-CE) box combines a field-programmable gate array (FPGA) board for sensor integration and timing, with a multicore computer board for processing. The FPGA does system-level timing and data aggregation, and acts as a go-between, removing the real-time requirements from the processor and labeling events with a high resolution time. The processor manages the behavior of the system, controls the instruments connected to the HDS-CE, and services the "heavy lifting" computational requirements for analyzing the potential landing spots.

Keywords: Man/System Technology and Life Support

Type: NPO-48786 , NASA Tech Briefs, April 2013; 12-13

Format: application/pdf

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A Minimal State Augmentation Algorithm for Vision-Based Navigation without Using Mapped Landmarks (2017)

Mandic, Milan ; Bailey, Erik S. ; Bayard, David S. ; [et al.]

In: Other Sources

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Publication Date: 2019-12-20

Description: This paper describes MAVeN (Minimal State Augmentation Algorithm for Vision-Based Navigation), which is a new algorithm for vision-based navigation that has only 21 states, yet is able to track features in successive camera images and use them to propagate estimates of the spacecraft position and velocity. The filter dimension drops to 12 if attitude information is already available. The low filter dimension makes MAVeN a very reliable and practical algorithm for real-time flight implementation. The main idea is to project observed features onto a rough shape model of the ground surface, which are then used by the filter as pseudo-landmarks. The shape model is assumed to be known beforehand, as would be obtained from prior surveillance of the landing site from orbit. MAVeN does not require pre-mapped landmarks, so it is able to navigate terrain that has not been previously observed up close. This property is especially important for close proximity operations in small body missions where ground surface features are being seen for the first time at close range. MAVeN is also able to hover motionless above the ground without position error growth, which is unusual for this class of vision-based navigation algorithms.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: JPL-CL-CL#17-2410 , International ESA Conference on Guidance, Navigation &amp; Control Systems; May 29, 2017 - Jun 02, 2017; Salzburg; Austria

Format: text

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Demonstration of Stereo Vision for Deorbit Descent and Landing (2019)

Johnson, Andrew E. ; Sternberg, David C. ; Setterfield, Timothy P. ; [et al.]

In: Other Sources

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Publication Date: 2019-12-19

Description: Planetary landers need to reduce velocity at low altitude for soft landing. Traditionally, estimating velocity and altitude has been performed with radar sensors whose performance meets the specific mission needs. There are not very many options for these sensors and they are difficult to include in a flight system either due to obsolescence, prohibitive cost or difficulty in accommodation. Recently, alternative sensing modalities are being pursued including Doppler LiDAR and vision. This paper describes results from a recent helicopter field test of a binocular stereo vision system for deorbit descent and landing applications. The system consisted of two 18.6 field of view cameras mounted 1.7m apart. Post processing of the images showed ranging accuracy better than 1% up to 500mand 17 cm/s velocimetry accuracy at 37m. For a flight system these images could be input into an FPGA-based processor which processes dense stereo and visual odometry in less than 1 second to achieve the stereo ranging frame rates required for soft landing. When coupled with vision based Terrain Relative Navigation this stereo system enables landing accuracies on the order of 10m.

Keywords: Communications and Radar

Type: JPL-CL-19-0736 , Annual AAS Guidance, Navigation and Control Conference; Jan 31, 2016 - Feb 06, 2016; Breckenridge CO; United States

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