P. Sean Kenney scite author profile

* † ‡NASA Langley proposed the Aerial Regional-scale Environmental Survey (ARES) of Mars science mission in response to the NASA Office of Space Science 2002 Mars Scout Opportunity. The science-driven mission proposal began with trade studies and determined that a rocket powered aircraft was the best suited platform to complete the ARES science objectives. A high fidelity six degree of freedom flight simulation was required to provide credible evidence that the aircraft design fulfilled mission objectives and to support the aircraft design process by providing performance evaluations. The aircraft was initially modeled using the aero, propulsion, and flight control system components of other aircraft models. As the proposed aircraft design evolved, the borrowed components were replaced with new models. This allowed performance evaluations to be performed as the design was maturing. Basic autopilot features were also developed for the ARES aircraft * Aerospace Engineer, Member AIAA. † ARES Airplane Chief Engineer, Member AIAA model. Altitude hold and track hold modes allowed different mission scenarios to be evaluated for both science merit and aircraft performance. Platform stability and data rate requirements were identified for each of the instruments and the aircraft performance was evaluated against those requirements. The results of the simulation evaluations indicate that the ARES design and mission profiles are sound and meet the science objectives.

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Rapid Prototyping of an Aircraft Model in an Object-Oriented Simulation

Kenney

2003

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12A team was created to participate in the Mars Scout Opportunity. Trade studies determined that an aircraft provided the best opportunity to complete the science objectives of the team. A high fidelity six degree of freedom flight simulation was required to provide credible evidence that the aircraft design fulfilled m ission objectives and to support the aircraft design process by providing performance evaluations. The team created the simulation using the Langley Standard Real-Time Simulation in C++ (LaSRS++) application framework. A rapid prototyping approach was necessary because the team had only three months to both develop the aircraft simulation model and evaluate aircraft performance as the design and mission p arameters matured. The design of LaSRS++ enabled rapid-prototyping in several ways. First, the framework allowed component models to be designed, implemented, unit-tested, and integrated quickly. Next, the framework provides a highly reusable infrastructure that allowed developers to maximize code reuse while concentrating on aircraft and mission specific features. Finally, the framework reduces risk by providing reusable components that allow developers to build a quality product with a compressed testing cycle that relies heavily on unit testing of new components.* Aerospace Engineer, Member AIAA.

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Using abstration to isolate hardware in an object-oriented simulation

Kenney

Leslie

Geyer

et al. 1998

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Managing shared memory spaces in an object-oriented real-time simulation

Geyer

Madden

Glaab

et al. 1998

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P. Sean Kenney

LaSRS++ - An object-oriented framework for real-time simulation of aircraft

Simulating The ARES Aircraft In The Mars Environment

Rapid Prototyping of an Aircraft Model in an Object-Oriented Simulation

Using abstration to isolate hardware in an object-oriented simulation

Managing shared memory spaces in an object-oriented real-time simulation

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