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ART Projects by GSA contract SIN #


Here’s a GSA description of this SIN#.  Following is a list of Projects we have worked on relating to this SIN #

Services required under this SIN involve the translation of a system (or subsystem, program, project, activity) concept into a preliminary and detailed design (engineering plans and specifications), performing risk identification/analysis/mitigation, traceability, and then integrating the various components to produce a working prototype or model of the system.  Typical associated tasks include, but are not limited to computer-aided design, design studies and analysis, high level detailed specification preparation, configuration management and document control, fabrication, assembly and simulation, modeling, training, privatization and outsourcing.

Example: The navigation satellite concept produced in the preceding stage will be converted to a detailed engineering design package, performance will be computer simulated and a working model will be built for testing and design verification.

Architect-Engineering (A/E) Services as that term is defined in FAR 36.601-3 are excluded from the PES Schedule. If the agency’s statement of work, substantially or to a dominant extent, specifies performance or approval by a registered of licensed architect or engineer for services related to real property, the Brooks Architect-Engineers Act applies and such services must be procured in accordance with FAR Part 36.  Use of this schedule for Brooks Act architectural or engineering services is not authorized. Inappropriate use of this SIN is providing professional engineering services not specifically related to system design, engineering and integration and associated disciplines.

To see additional information about these projects, click on the project #.

Project 1: Innovative Rotorcraft Flight Control Systems Options to Enhance Shipboard Operations.  Develop a flight control design environment to facilitate the design of control systems for shipboard operations.

Project 2: Real-Time Modeling of Rotor Induced Flow with Shipboard Interaction.  Develop a viscous vortex wake model that can properly capture the effects of the rotor/ship interaction

Project 3: Design and Analysis of a Compound Helicopter for High Speed Flight

Use ART modeling and analysis tools RCAS and FLIGHTLAB to design and simulate a compound helicopter that uses a variable speed rotor for efficient autorotative lift in high speed forward flight

Project 4: HeliFlight-R - Develop a reconfigurable simulator to support engineering applications

Project 5: Aeroelastic Modeling of a Long Endurance Fixed Wing UAV -  Use ART modeling and analysis tool RCAS to design and simulate a Long Endurance Fixed Wing UAV

Advanced Rotorcraft Technology, Inc.

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