A Knowledge Based Engineering Approach To Manned Spacecraft Cabin Design Layout
A Knowledge Based Engineering Approach To Manned Spacecraft Cabin Design Layout Book in PDF, ePub and Kindle version is available to download in english. Read online anytime anywhere directly from your device. Click on the download button below to get a free pdf file of A Knowledge Based Engineering Approach To Manned Spacecraft Cabin Design Layout book. This book definitely worth reading, it is an incredibly well-written.
A Knowledge-based Engineering Approach to Manned Spacecraft Cabin Design Layout by Robert Lee Howard Pdf
Provides an overview of manned space exporation, the history of human factors in spacecraft cabin design, and layout design for expert systems spacecraft design.
Scientific and Technical Aerospace Reports by Anonim Pdf
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Analysis, Design and Evaluation of Man-Machine Systems 1989 by B. Hu Pdf
The twenty-seven papers cover recent advances in both empirical and theoretical aspects of man-machine interaction with special emphasis on the subjects of man-automation and man-computer interaction. They provide information on a subject which has grown rapidly in importance during recent years.
United States. National Aeronautics and Space Administration. Scientific and Technical Information Division
Author : United States. National Aeronautics and Space Administration. Scientific and Technical Information Division Publisher : Unknown Page : 192 pages File Size : 50,8 Mb Release : 1989 Category : Astronautics ISBN : NASA:31769000660152
Technology for Large Space Systems: A Bibliography with Indexes (supplement 20) by United States. National Aeronautics and Space Administration. Scientific and Technical Information Division Pdf
Knowledge-Based Integrated Aircraft Design by Raghu Chaitanya Munjulury Pdf
The design and development of new aircraft are becoming increasingly expensive and timeconsuming. To assist the design process in reducing the development cost, time, and late design changes, the conceptual design needs enhancement using new tools and methods. Integration of several disciplines in the conceptual design as one entity enables to keep the design process intact at every step and obtain a high understanding of the aircraft concepts at early stages. This thesis presents a Knowledge-Based Engineering (KBE) approach and integration of several disciplines in a holistic approach for use in aircraft conceptual design. KBE allows the reuse of obtained aircrafts’ data, information, and knowledge to gain more awareness and a better understanding of the concept under consideration at early stages of design. For this purpose, Knowledge-Based (KB) methodologies are investigated for enhanced geometrical representation and enable variable fidelity tools and Multidisciplinary Design Optimization (MDO). The geometry parameterization techniques are qualitative approaches that produce quantitative results in terms of both robustness and flexibility of the design parameterization. The information/parameters from all tools/disciplines and the design intent of the generated concepts are saved and shared via a central database. The integrated framework facilitates multi-fidelity analysis, combining low-fidelity models with high-fidelity models for a quick estimation, enabling a rapid analysis and enhancing the time for a MDO process. The geometry is further propagated to other disciplines [Computational Fluid Dynamics (CFD), Finite Element Analysis (FEA)] for analysis. This is possible with an automated streamlined process (for CFD, FEM, system simulation) to analyze and increase knowledge early in the design process. Several processes were studied to streamline the geometry for CFD. Two working practices, one for parametric geometry and another for KB geometry are presented for automatic mesh generation. It is observed that analytical methods provide quicker weight estimation of the design and when coupled with KBE provide a better understanding. Integration of 1-D and 3-D models offers the best of both models: faster simulation, and superior geometrical representation. To validate both the framework and concepts generated from the tools, they are implemented in academia in several courses at Linköping University and in industry