Combining Sensors and Multibody Models for Applications in Vehicles, Machines, Robots and Humans

The combination of physical sensors and computational models to provide additional information about system states, inputs and/or parameters, in what is known as virtual sensing, is becoming increasingly popular in many sectors, such as the automotive, aeronautics, aerospatial, railway, machinery, robotics and human biomechanics sectors. While, in many cases, control-oriented models, which are generally simple, are the best choice, multibody models, which can be much more detailed, may be better suited to some applications, such as during the design stage of a new product

ACAP: The Autonomous Cargo Aircraft Project

Development of autonomy in fly-by-wire aircraft has long been limited to multi-million dollar systems, or large remotely operated vehicles due to regulatory restrictions and the difficulty of designing a system around existing light aircraft. This report summarises the development of an experimental, optionally piloted aircraft with the capability of fully autonomous decisionmaking and controlled flight. Particular time is spent discussing the safety features of the mechanical and electrical systems, as well as a novel control system design for light aircraft autopilots. This phase of the project included successful independant ground tests of all electromechanical systems, and simulator tests of all autoflight software. The next phase of the project will include flight testing

ACAP: The Autonomous Cargo Aircraft Project

Development of autonomy in fly-by-wire aircraft has long been limited to multi-million dollar systems, or large remotely operated vehicles due to regulatory restrictions and the difficulty of designing a system around existing light aircraft. This report summarises the development of an experimental, optionally piloted aircraft with the capability of fully autonomous decision making and controlled flight. Particular time is spent discussing the safety features of the mechanical and electrical systems, as well as a novel control system design for light aircraft autopilots. This phase of the project included independant ground tests of all electromechanical systems, and simulator tests of all autoflight software. The next phase of the project will include flight testing

Advanced spacecraft valve technology compilation. Volume 1 - Mechanical controls

Advanced mechanical valves and controls for liquid propellant rocket engines for space flights up to ten year

Space Programs Summary No. 37-50, Volume 1 for the Period January 1 to February 29, 1968. Flight Projects

Systems analysis and engineering data on Mariner Venus 67, Mariner 4, Mariner Mars 69, and Surveyor projects, and advanced planetary missions technolog

Conceptual design studies of an advanced Mariner spacecraft. Volume IV - Flyby bus design

Conceptual design study of advanced Mariner space probe - flyby bus design for Mars missio

MSFC Skylab Apollo Telescope Mount

A technical history and management critique of the Skylab Apollo Telescope Mount (ATM) from initial conception through the design, manufacturing, testing and prelaunch phases is presented. A mission performance summary provides a general overview of the ATM's achievements in relationship to its design goals. Recommendations and conclusions applicable to hardware design, test program philosophy and performance, and program management techniques for the ATM with potential application to future programs are also discussed

Proceedings of the 40th Aerospace Mechanisms Symposium

The Aerospace Mechanisms Symposium (AMS) provides a unique forum for those active in the design, production and use of aerospace mechanisms. A major focus is the reporting of problems and solutions associated with the development and flight certification of new mechanisms. Organized by the Mechanisms Education Association, responsibility for hosting the AMS is shared by the National Aeronautics and Space Administration and Lockheed Martin Space Systems Company (LMSSC). Now in its 40th symposium, the AMS continues to be well attended, attracting participants from both the U.S. and abroad. The 40th AMS, hosted by the Kennedy Space Center (KSC) in Cocoa Beach, Florida, was held May 12, 13 and 14, 2010. During these three days, 38 papers were presented. Topics included gimbals and positioning mechanisms, CubeSats, actuators, Mars rovers, and Space Station mechanisms. Hardware displays during the supplier exhibit gave attendees an opportunity to meet with developers of current and future mechanism components. The use of trade names of manufacturers in this publication does not constitute an official endorsement of such products or manufacturers, either expressed or implied, by the National Aeronautics and Space Administratio