Howard K. Stetson scite author profile

Howard K. Stetson

5Publications

25Citation Statements Received

8Citation Statements Given

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Affiliations

Teledyne Technologies (United States), Marshall Space Flight Center

Publications

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Autonomous Payload Operations Onboard the International Space Station

Stetson

Deitsch

Cruzen

et al. 2007

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Abstract-Operating the International Space Station (ISS) involves many complex crew tended, ground operated and combined systems. Over the life of the ISS program, it has become evident that by having automated and autonomous systems on board, more can be accomplished and at the same time reduce the workload of the crew and ground operators. Engineers at the National Aeronautics and Space Administration's (NASA) Marshall Space Flight Center in Huntsville Alabama, working in collaboration with The Charles Stark Draper Laboratory have developed an autonomous software system that uses the Timeliner User Interface Language and expert logic to continuously monitor ISS payload systems, issue commands and signal ground operators as required. This paper describes the development history of the system, its concept of operation and components. The paper also discusses the testing process as well as the facilities used to develop the system. The paper concludes with a description of future enhancement plans for use on the ISS as well as potential applications to Lunar and Mars exploration systems. '

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AMO EXPRESS: A Command and Control Experiment for Crew Autonomy

Stetson

Frank

Cornelius

et al. 2015

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NASA is investigating a range of future human spaceflight missions, including both Mars-distance and Near Earth Object (NEO) targets. Of significant importance for these missions is the balance between crew autonomy and vehicle automation. As distance from Earth results in increasing communication delays, future crews need both the capability and authority to independently make decisions. However, small crews cannot take on all functions performed by ground today, and so vehicles must be more automated to reduce the crew workload for such missions.

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The HAL 9000 Space Operating System

Stetson

Knickerbocker

Cruzen

et al. 2011

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Advancing Autonomous Operations for Deep Space Vehicles

Haddock

Stetson

2014

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Starting in Jan 2012, the Advanced Exploration Systems (AES) Autonomous Mission Operations (AMO) Project began to investigate the ability to create and execute "single button" crew initiated autonomous activities [1]. NASA Marshall Space Flight Center (MSFC) designed and built a fluid transfer hardware test-bed to use as a sub-system target for the investigations of intelligent procedures that would command and control a fluid transfer test-bed, would perform self-monitoring during fluid transfers, detect anomalies and faults, isolate the fault and recover the procedures function that was being executed, all without operator intervention. In addition to the development of intelligent procedures, the team is also exploring various methods for autonomous activity execution where a planned timeline of activities are executed autonomously and also the initial analysis of crew procedure development. This paper will detail the development of intelligent procedures for the NASA MSFC Autonomous Fluid Transfer System (AFTS) as well as the autonomous plan execution capabilities being investigated.

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HAL 9000 Space Operating System Real Time Planning Engines

Stetson¹

2012

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Howard K. Stetson

Autonomous Payload Operations Onboard the International Space Station

AMO EXPRESS: A Command and Control Experiment for Crew Autonomy

The HAL 9000 Space Operating System

Advancing Autonomous Operations for Deep Space Vehicles

HAL 9000 Space Operating System Real Time Planning Engines

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