Introduction to Flight Testing - (Aerospace) by James W Gregory & Tianshu Liu (Hardcover)
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<p/><br></br><p><b> About the Book </b></p></br></br>"Flight testing as the final stage of the aircraft design cycle is very important in aerospace industries. Flight testing involves various engineering disciplines such as aeronautical, mechanical, electrical and structural aspects all together, forming a technical discipline itself. Although flight testing plays an important role in the design of aircraft, it is typically not included in the traditional aeronautical engineering curriculum. Few universities offer such a course, due in part to the high cost of maintaining and operating a fully-instrumented experimental aircraft for flight testing. This book promotes the use of modern, off-the-shelf instruments such as MEMS devices to collect necessary data for flight testing on non-experimental general aviation aircraft. This new development eliminates the need for specialized aircraft for instruction of flight testing"--<p/><br></br><p><b> Book Synopsis </b></p></br></br><b>Introduction to Flight Testing</b> <p><b>Introduction to Flight Testing</b> <p><i>Provides an introduction to the basic flight testing methods employed on general aviation aircraft and unmanned aerial vehicles</i> <p><i>Introduction to Flight Testing</i> provides a concise introduction to the basic flight testing methods employed on general aviation aircraft and unmanned aerial vehicles for courses in aeronautical engineering. There is particular emphasis on the use of modern on-board instruments and inexpensive, off-the-shelf portable devices that make flight testing accessible to nearly any student. <p>This text presents a clear articulation of standard methods for measuring aircraft performance characteristics. Topics covered include aircraft and instruments, digital data acquisition techniques, flight test planning, the standard atmosphere, uncertainty analysis, level flight performance, airspeed calibration, stall, climb and glide, take-off and landing, level turn, static and dynamic longitudinal stability, lateral-directional stability, and flight testing of unmanned aircraft systems. <p>Unique to this book is a detailed discussion of digital data acquisition (DAQ) techniques, which are an integral part of modern flight test programs. This treatment includes discussion of the analog-to-digital conversion, sample rate, aliasing, and filtering. These critical details provide the flight test engineer with the insight needed to understand the capabilities and limitations of digital DAQ. <p><b>Key features: </b> <ul><li><b>Provides an introduction to the basic flight testing methods and instrumentation employed on general aviation aircraft and unmanned aerial vehicles.</b></li> <li><b>Includes examples of flight testing on general aviation aircraft such as Cirrus, Diamond, and Cessna aircraft, along with unmanned aircraft vehicles.</b></li> <li><b>Suitable for courses on Aircraft Flight Test Engineering.</b></li></ul> <p><i>Introduction to Flight Testing</i> provides resources and guidance for practitioners in the rapidly-developing field of drone performance flight test and the general aviation flight test community.<p/><br></br><p><b> From the Back Cover </b></p></br></br><p><b>Introduction to Flight Testing</b></p> <p><i>Provides an introduction to the basic flight testing methods employed on general aviation aircraft and unmanned aerial vehicles</i> <p><i>Introduction to Flight Testing</i> provides a concise introduction to the basic flight testing methods employed on general aviation aircraft and unmanned aerial vehicles for courses in aeronautical engineering. There is particular emphasis on the use of modern on-board instruments and inexpensive, off-the-shelf portable devices that make flight testing accessible to nearly any student. <p>This text presents a clear articulation of standard methods for measuring aircraft performance characteristics. Topics covered include aircraft and instruments, digital data acquisition techniques, flight test planning, the standard atmosphere, uncertainty analysis, level flight performance, airspeed calibration, stall, climb and glide, take-off and landing, level turn, static and dynamic longitudinal stability, lateral-directional stability, and flight testing of unmanned aircraft systems. <p>Unique to this book is a detailed discussion of digital data acquisition (DAQ) techniques, which are an integral part of modern flight test programs. This treatment includes discussion of the analog-to-digital conversion, sample rate, aliasing, and filtering. These critical details provide the flight test engineer with the insight needed to understand the capabilities and limitations of digital DAQ. <p><b>Key features: </b> <ul><li><b>Provides an introduction to the basic flight testing methods and instrumentation employed on general aviation aircraft and unmanned aerial vehicles.</b></li> <li><b>Includes examples of flight testing on general aviation aircraft such as Cirrus, Diamond, and Cessna aircraft, along with unmanned aircraft vehicles.</b></li> <li><b>Suitable for courses on Aircraft Flight Test Engineering.</b></li></ul> <p><i>Introduction to Flight Testing</i> provides resources and guidance for practitioners in the rapidly-developing field of drone performance flight test and the general aviation flight test community.</p><p/><br></br><p><b> About the Author </b></p></br></br><p><b>James W. Gregory</b> is an associate professor in the Department of Mechanical and Aerospace Engineering, and Associate Director for UAS of the Aerospace Research Center at The Ohio State University. He received his Bachelor of Aerospace Engineering from Georgia Tech, and masters and doctorate degrees in Aeronautics and Astronautics from Purdue University. His research interests focus on development of pressure-sensitive paint as an advanced measurement technique, drag reduction of bluff body wakes via aerodynamic flow control, and flight testing of unmanned aircraft systems. His work experience includes stints at the US Air Force Research Laboratory Air Vehicles Directorate, the US Air Force Academy, Delta Air Lines, NASA Glenn Research Center, Tohoku University in Japan, and as a Fulbright Scholar at the Technion in Israel. He is an instrument-rated private pilot.</p> <p><b>Tianshu Liu</b> is a professor and the director of Applied Aerodynamics Laboratory at Western Michigan University. He received a Ph.D. in aeronautics and astronautics from Purdue University in 1996. He was a research scientist at NASA Langley Research Center in 1999-2004. His research areas are experimental and applied aerodynamics and fluid mechanics. In particular, he has contributed to image-based measurement techniques for various physical quantities such as surface pressure, temperature/heat-transfer, skin friction, velocity fields, aeroelastic deformation, and distributed and integrated forces. His topics also include videogrammetry and vision for aerospace applications, flow control, flapping flight, flight vehicle design, turbulence and transition, and flight tests. </p>
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