Crash Course: Lessons Learned from Accidents Involving Remotely Piloted and Autonomous Aircraft
by Peter W. Merlin
Publisher: NASA 2013
Number of pages: 194
This volume contains an investigation of remotely piloted research vehicle (RPRV) and unmanned aircraft system (UAS) mishaps and will examine their causes, consequences, resultant corrective actions, and lessons learned. Most undesired outcomes usually do not occur because of a single event, but rather from a series of events and actions involving equipment malfunctions and/or human factors. This book comprises a series of case studies focusing mostly on accidents and incidents involving experimental aircraft.
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by Thanh Mung Lam - InTech
The book on aerial vehicles: design and development, UAV trajectory generation, unmanned helicopters, flight control system optimization, intelligent aerial vehicles, autonomous formation flight, asymmetric hovering flapping flight, and much more.
by William Hallauer - Virginia Tech
This is a formal college engineering textbook, complete with homework problems. It will be understandable for students of engineering system dynamics, a valuable teaching resource for course instructors, and a useful reference for self-study.
by Joseph M. Powers - University of Notre Dame
These are a set of class notes for a gas dynamics/viscous flow course taught to juniors in Aerospace Engineering. It is expected that the student has some familiarity with concepts such as material derivatives, control volume analysis, etc.
by Laurence K. Loftin, Jr. - United States Government Printing
This volume traces the technical development of the airplane from a curiosity at the beginning of World War I to the highly useful machine of today. Included are significant aircraft that incorporated important technical innovations.