Richard G. Winski scite author profile

Richard G. Winski

5Publications

30Citation Statements Received

21Citation Statements Given

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Affiliations

Analytical Mechanics Associates (United States), Langley Research Center, National Institute of Aerospace

Publications

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The Hypersonic Inflatable Aerodynamic Decelerator (HIAD) Mission Applications Study

Bose

Winski²,

Shidner³

et al. 2013

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The objective of the HIAD Mission Applications Study is to quantify the benefits of HIAD infusion to the concept of operations of high priority exploration missions. Results of the study will identify the range of mission concepts ideally suited to HIADs and provide mission-pull to associated technology development programs while further advancing operational concepts associated with HIAD technology. A summary of Year 1 modeling and analysis results is presented covering missions focusing on Earth and Mars-based applications. Recommended HIAD scales are presented for near term and future mission opportunities and the associated environments (heating and structural loads) are described.

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An integrated tool for system analysis of sample return vehicles

Samareh

Maddock

Winski³

2012

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Abstract-The next important step in space exploration is the return of sample materials from extraterrestrial locations to Earth for analysis. Most mission concepts that return sample material to Earth share one common element: an Earth entry vehicle. The analysis and design of entry vehicles is multidisciplinary in nature, requiring the application of mass sizing, flight mechanics, aerodynamics, aerothermodynamics, thermal analysis, structural analysis, and impact analysis tools.Integration of a multidisciplinary problem is a challenging task; the execution process and data transfer among disciplines should be automated and consistent. This paper describes an integrated analysis tool for the design and sizing of an Earth entry vehicle. The current tool includes the following disciplines: mass sizing, flight mechanics, aerodynamics, aerothermodynamics, and impact analysis tools. Python and Java languages are used for integration. Results are presented and compared with the results from previous studies.

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Mars Science Laboratory entry guidance improvements study for the Mars 2018 mission

Garcia-Llama¹,

Ivanov

Winski

et al. 2012

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Entry, Descent, and Landing performance trades to increase landed mass for the Mars 2018 mission

Winski¹,

Shidner

Garcia-Llama

et al. 2012

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Design of Launch Abort System Thrust Profile and Concept of Operations

Litton

Winski

O’Keefe

et al. 2008

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This paper describes how the Abort Motor thrust profile has been tailored and how optimizing the Concept of Operations on the Launch Abort System (LAS) of the Orion CrewExploration Vehicle (CEV) aides in getting the crew safely away from a failed Crew Launch Vehicle (CLV). Unlike the passive nature of the Apollo system, the Orion Launch Abort Vehicle will be actively controlled, giving the program a more robust abort system with a higher probability of crew survival for an abort at all points throughout the CLV trajectory. By optimizing the concept of operations and thrust profile the Orion program will be able to take full advantage of the active Orion LAS. Discussion will involve an overview of the development of the abort motor thrust profile and the current abort concept of operations as well as their effects on the performance of LAS aborts. Pad Abort (for performance) and Maximum Drag (for separation from the Launch Vehicle) are the two points that dictate the required thrust and shape of the thrust profile. The results in this paper show that 95% success of all performance requirements is not currently met for Pad Abort. Future improvements to the current parachute sequence and other potential changes will mitigate the current problems, and meet abort performance requirements.

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Richard G. Winski

The Hypersonic Inflatable Aerodynamic Decelerator (HIAD) Mission Applications Study

An integrated tool for system analysis of sample return vehicles

Mars Science Laboratory entry guidance improvements study for the Mars 2018 mission

Entry, Descent, and Landing performance trades to increase landed mass for the Mars 2018 mission

Design of Launch Abort System Thrust Profile and Concept of Operations

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