Since the time of its inception, the field of aviation has rapidly grown in both importance and popularity. The acceptance and recognition of women's participation and achievements in this activity, however, did not develop with nearly the same speed. The first biographical history of women pilots in Alaska, this work explores the challenges faced by women of Alaska as they pursued roles in aviation - something that had long been considered part of ""the men's world"". Beginning in 1927 with Marvel Crosson and reaching to the present day, 36 adventurous and personal tales are offered, including that of an ultralight flyer, the first woman to become U.S. Aerobatic Champion, a parachute jumper, the first woman to fly in a small airplane over the North Pole and an Iditarod dog musher. Questions about why these women chose to fly; where they learned; when the soloed; what it meant to them to become a pilot; what challenges they faced in such a non-traditional role; and why they chose the skies of Alaska are addressed as these intriguing stories are told.

Can modern science tell us what happened to Amelia Earhart? The International Group for Historic Aircraft Recovery (TIGHAR) has spent fifteen years searching for the famous lost pilot using everything from archival research and archaeological survey to side-scan sonar and the analysis of radio wave propagation. In this spellbinding book, four of TIGHAR's scholars offer tantalizing evidence that the First Lady of the Air and her navigator Fred Noonan landed on an uninhabited tropical island but perished before they could be rescued. Do they have Amelia's shoe? Parts of her airplane? Are her bones tucked away in a hospital in Fiji? Come join their fascinating expedition and examine the evidence for yourself The new paperback edition brings the search up to the present, including tantalizing evidence of campfires and charred bones found on remote Nikumaroro. Visit the Authors' Web page for more information.

How did the Royal Flying Corps (RFC) 'cavalry of the air' transform into the strategic RAF of the Cold War? The flying lives of these three pilots combine across the years to illustrate how it happened. Trained on Bristol Boxkites in 1912, Major Leonard Dawes helped shape the RFC in its infancy. Posted to France with BE2s, he saw action at the birth of battlefield reconnaissance and air fighting, then activated many new squadrons during the First World War. Joining the RAF in 1923, Group Captain Dickie Barwell became a fighter pilot and respected leader of men. As a Hurricane squadron commander, he routed the first major Luftwaffe air attack of the Second World War and flew with Bader's Wing in the Battle of Britain. While commanding RAF Biggin Hill, he flew combat operations over France before his death in a friendly-fire incident in 1942. Squadron Leader Brian Fern learned to fly at Ponca City, Oklahoma, in 1942, then trained hundreds of RAF bomber pilots during the Second World War. Post-war tours on Canberra bombers and spy flights in Chipmunks were followed by selection to the elite Valiant bomber force, where he became a leading exponent of in-flight refuelling, which finally gave the RAF its global reach. Combining these three stories into a narrative that explores the rise of the RAF through an era of dazzling technological breakthroughs and ever-changing operational requirements, Alastair Goodrum tells the story of a journey through adversity to the stars.

Presenting research papers contributed by experts in dynamics and control, Advances in Dynamics and Control examines new ideas, reviews the latest results, and investigates emerging directions in the rapidly-growing field of aviation and aerospace.
Exploring a wide range of topics, key areas discussed include:
* rotorcraft dynamics
* stabilization of unstable aircraft
* spacecraft
* satellite dynamics and control
* missile auto-pilot and guidance design
* hybrid systems dynamics and control
* structural and acoustic modeling.
Impeccably-researched and expertly-written, this text is a valuable reference for graduate students and scientific workers in universities and industry.

Covered in this unique volume are: Inflight Simulation Aircraft;VISTA/NF-16D; Variable Stability B-26; NC-131H Total In-Flight Simulator; Gulfstream Shuttle Training Aircraft; ASTRA Hawk; University of Tennessee Navions; P-2 Variable Stability Aircraft; S-76 Shadow; NT-33A; Tu-154M; VFW-617 ATTAS; Calspan Learjets; Jetstar GPAS. Testbed Aircraft; A-5A Vigilante SST; A6-A CCW; B-47 Fly-by-Wire; A-7 DIGITAC; B-52 CCV/LAMS; Carrier Testbeds XC-8AACLS; Convair-990 LSRA; C-130 RAMTIP; Falcon ATLAS; F-4 Fly-by-Wire; F-5D Skylancer Testbed; F-8 Supercritical Wing; F-8 Digital Fly-by-Wire; F-15 AECS; F-15 ASAT; F-15 IFFC/ABICS/ICAAS; F-15 HIDEC; F-15 STOL/MTD. ACTIVE; F-15 Streak Eagle; F-16 AFTI; F-16 CCV, FLOTRAK; F/A-18 EPAD; F/A-18 HARV; F/A-18 SRA; JF-100 Variable Stability Testbed; F-102 Low L/D; F-104 Low L/D; F-104 Aerospace Trainer; F-100/106 Turbulance Testing; F-111 AFTI/TACT Testbed; Air Force Transport Testbeds; Ice Testing Aircraft; KC-135 Winglet; NASA/Langley Commercial Testbeds; L-100 High Technology Testbed; PA-30 Twin Commanche Testbed; Sabreliner Supercritical Wing; SR-71 Testbed; Boeing 737 TCV; Boeing 720 CID; X-21 LFC; YF-23 Loads; Miscellaneous Testbeds. Prototype Aircraft; YA-7F(A-7 Plus); F-16XL; F-16/79/101; P-51 Mustang-Based Enforcer; Gunships; F-15E Strike Eagle Demonstrator; F-18; A-37.

Although several U.S. and European airlines have started providing human factors training to their maintenance personnel, the academic community (some 300 academic programs in the United States and several others in Europe and Asia) has not yet started offering formal human factors education to maintenance students. The highly respected authors strongly believe in incorporating the human factors principles in aviation maintenance. This is the first of two volumes providing effective behavioural guidance on risk management in aviation maintenance for both the novice and the experienced maintenance personnel. Its practical guidelines assist both student and practising aviation maintenance personnel to develop sustainable safety culture. For the maintenance community it provides some theoretical discussion about the "Why?" for risk management and then focus on the 'How?' to implement a successful error reduction program. To help the maintenance community in making a strong case to their financial managers, the authors also discuss the return on investment for risk management programs. The issue of risk management is taken at two levels. First, it provides a basic awareness information to those who have little or no knowledge of maintenance human factors. Second, it provides a set of practical tools for the more experienced people so that they can be more effective in risk management and error recovery in their jobs. This invaluable book serves as a practical guide as well as an academic textbook. The book covers fundamental human factors principles from a risk management perspective. Upon reading this informative book, the audience will be able to apply the basic principles of risk management to aviation maintenance environment, and they will be able to use low-risk behaviours in their daily work.

Safety is not easy, it is a full time effort, and is equally important whether people are on the job or on personal time. If an organization is serious about mission success, it must take 'risk' seriously as well. Leaders need to be involved in the risk game at every turn, and understand the key elements (discussed throughout this book) that help them to win. Winning the risk game is what safety is all about. As in operational success, risk management requires the best human faculties to achieve victory; talent of organizational players and commitment from top leadership rule the day. The book covers leadership, safety programs, and risk management for organizations and individuals. It helps in professional development, grooming current and future leaders to understand their roles in safety and risk management. Central to the author's message are: Seven truths of safety that the author discovered as a senior safety officer. Four roadblocks to achieving zero mishaps that must be aggressively addressed. Nine elements to risk reduction, with which leaders must become familiar. He establishes the importance of an organizational leader's role in the safety/risk management game and provides the answer to, 'How safe is safe enough?' Often, managers at various levels do not have an understanding of what goes into a safety program, this book tells them, from an expert's view. The readership includes: executives and middle management; all leaders as a professional development book and students. It is also a supplemental textbook for safety and risk management courses.

The aviation teaching environment is fairly unique and combines both traditional and non-traditional teaching environments. There are presently few books that address adult learning principles and teaching strategies relevant to the aviation context. Furthermore, aviation education has not generally benefited from many of the developments made in the field of education. This timely book: - facilitates the development of knowledge and skills necessary to conduct effective instruction and training within the aviation context; - develops an awareness of critical issues that should be of concern to aviation educators and trainers; - provides aviation education and trainers with a variety of teaching strategies that can be effective in the development of essential skills in aviation professionals. The readership for this book includes university students who want to become instructors, as well as industry personnel who are involved in any of the various domains of aviation education, from junior flight instructors to the trainer of instructors, or from training captains, or traffic controllers to crew resource management and human factors facilitators.

In his latest book, ""Missile Design and Systems Engineering"", Eugene Fleeman presents a comprehensive review of the missile design and systems engineering process pulling from his decades of experience in the development of missiles and their technologies. Aimed toward the needs of aerospace engineering students and professors, systems analysts and engineers, program managers, and others working in the areas of missile systems and missile technology development, the book provides readers with an understanding of missile design, missile technologies, launch platform integration, missile system measures of merit and the missile system development process. This book has been adapted from Fleeman's earlier title, ""Tactical Missile Design, Second Edition"" to include a greater emphasis on systems engineering.Topics discussed include: top components in the missile design and system engineering process; critical tradeoffs, methods and technologies in aerodynamic, propulsion, structure, seeker, warhead, fuzing, and subsystems sizing to meet flight performance and other requirements; launch platform - missile integration; robustness, lethality, guidance, navigation & control, accuracy, observables, survivability, reliability, and cost considerations; missile sizing examples for missile systems and missile technologies; and, missile system and missile technology development process.

Human error is implicated in nearly all aviation accidents, yet most investigation and prevention programs are not designed around any theoretical framework of human error. Appropriate for all levels of expertise, the book provides the knowledge and tools required to conduct a human error analysis of accidents, regardless of operational setting (i.e. military, commercial, or general aviation). The book contains a complete description of the Human Factors Analysis and Classification System (HFACS), which incorporates James Reason's model of latent and active failures as a foundation. Widely disseminated among military and civilian organizations, HFACS encompasses all aspects of human error, including the conditions of operators and elements of supervisory and organizational failure. It attracts a very broad readership. Specifically, the book serves as the main textbook for a course in aviation accident investigation taught by one of the authors at the University of Illinois. This book will also be used in courses designed for military safety officers and flight surgeons in the U.S. Navy, Army and the Canadian Defense Force, who currently utilize the HFACS system during aviation accident investigations. Additionally, the book has been incorporated into the popular workshop on accident analysis and prevention provided by the authors at several professional conferences world-wide. The book is also targeted for students attending Embry-Riddle Aeronautical University which has satellite campuses throughout the world and offers a course in human factors accident investigation for many of its majors. In addition, the book will be incorporated into courses offered by Transportation Safety International and the Southern California Safety Institute. Finally, this book serves as an excellent reference guide for many safety professionals and investigators already in the field.

In 1910, pioneer aviator Art Smith was as celebrated as any movie star might be today. He thrilled audiences with his barnstorming feats, doing dives, ""death spirals,"" sky writing and ""loop-de-loops,"" and night flights using phosphorus fireworks. He was a consummate showman and had he not died in 1926, his name probably would be familiar to most Americans. He glamorized and popularized aviation while testing the boundaries of aeronautical principles. As a young man he longed to fly before he had ever seen an airplane. His parents believed in him, and he was fortunate to have a best friend named Al Wertman who helped him build an airplane. His fame spread around the globe and in 1916, the Japanese offered him USD 10,000 for a series of exhibitions. His flying skills inspired a young Wiley Post to a life of aviation. And after Smith's death, when Lindbergh flew over Fort Wayne and dipped his wings, he gave credit to the ""Bird Boy"" Art Smith. The story of this rising star in American aviation is one of adventure, romance, scandal and history. Using Smith's own autobiographical writings, the story is also a factual account of events in early aviation. The book includes photographs and postcards in Art Smith's own handwriting mailed to Al Wertman.

Situations and systems are easier to change than the human condition - particularly when people are well-trained and well-motivated, as they usually are in maintenance organisations. This is a down-to-earth practitioner's guide to managing maintenance error, written in Dr. Reason's highly readable style. It deals with human risks generally and the special human performance problems arising in maintenance, as well as providing an engineer's guide for their understanding and the solution. After reviewing the types of error and violation and the conditions that provoke them, the author sets out the broader picture, illustrated by examples of three system failures. Central to the book is a comprehensive review of error management, followed by chapters on:- managing person, the task and the team; - the workplace and the organization; - creating a safe culture; It is then rounded off and brought together, in such a way as to be readily applicable for those who can make it work, to achieve a greater and more consistent level of safety in maintenance activities. The readership will include maintenance engineering staff and safety officers and all those in responsible roles in critical and systems-reliant environments, including transportation, nuclear and conventional power, extractive and other chemical processing and manufacturing industries and medicine.

Provides a roadmap for advancing a pilot's aviation skill development towards a master-level. Discusses decision-making models, complex systems, and situational awareness. Includes real-world examples, situations, and pilot reports. Covers a wide range of airline flying challenges in extensive detail. Explores automation policy, benefits and limitations of automation, automation errors, and automation management techniques.

Issues of personnel development in air traffic control (ATC) have become a major topic in aviation recruitment and training. Proper selection and training methods are needed in order to reach a high level of efficiency and reliability in ATC. Pilots were considered the most prominent group in aviation for a long time, but with the development of flight guidance technologies came a second operational occupation in aviation: the air traffic controller (ATCO). This volume provides a state-of-the-art overview of controller selection from an impressive collection of international specialists in research and practice. It will prove a valuable and key insight into the demands of air traffic controller selection through its comprehensive and enlightening examination of the current practice in the USA and Europe for the job-analysis requirements of future air traffic management (ATM) systems.

In the rapidly evolving airline industry, new technologies play an increasingly critical role in the delivery of real and perceived value in reducing costs, enhancing revenue, and improving customer service and customer safety/security. This book focuses at a senior executive level, examining the key forces affecting the airline business and their potential in terms of short and long-term strategies. The author discusses the role of emerging technology on the airline industry, defined very broadly and including computers, information, databases, aircraft, telecommunications, Internet, wireless, speech recognition, face recognition, etc. His argument is that technology should not only be an enabler of business strategy but crucially the driver of business strategy. The central theme is the vital interaction between technology and business strategy across a wide spectrum of functions - executives sharing their insights of what is needed in terms of revolutions in consumers, technologies, and productivities. What has held airlines back are not so much legacy systems but legacy mindsets, organizational structures and processes, as well as the intelligent selection, investments, and implementation of value-adding technologies. The book is the outcome of the author's own experience while working with a number of airlines and his participation in many discussions with practitioners in the airline and technology firms.

Principles and Practice of Aviation Psychology is an important addition to the literature in aviation psychology. Covering the history of aviation to the actual pilot actions and tasks today, the editors have brought together a wonderful set of contributors who are leaders in this field. The text presents psychological principles and research pertinent to the interface between a pilot and the cockpit. Understanding the cognitive demands and the capabilities and limitations of the pilot has important implications on selection and training of pilots and display/control designs in the cockpit. Emphasis is placed on the scientific methods of achieving this understanding together with the view that theories and principles of human behavior would have much to learn from practical problems and applied studies.

Incident Command: Tales From the Hot Seat presents a unique examination of the skills of the on-scene or incident commander who is in charge of an emergency or major incident. Experienced commanders from the police and fire services, the armed forces, civil aviation and the prison service give personal accounts of their command experiences, discuss their dilemmas and the pressures they faced, and reveal the demands of leading under extreme conditions. They share intimate details of cases where their command skills were tested, ranging from industrial fires, riots, hostage taking, warfare, peacekeeping, to in-flight emergencies. Each case ends with lessons learnt and tips for the developing commander. Additional chapters present expert accounts of the art of incident command, incident command systems, competencies for command, as well as reviews of the latest psychological research into decision making and team work under pressure. The book is an essential compelling text that captures the essence of incident command by analyzing command experiences across a range of professions.

Most books on human factors in aviation cover the subject well but do not necessarily take the strong practical focus of this book. Drawing on his 44 years of pilot experience and his 31 years as a professor of psychology and human factors engineering, the author addresses the questions of how to apply sound human factors principles to the training of pilots and to one's personal flying. He takes a positive approach to the subject, focusing on safety and good practice rather than on accidents. While problem areas are acknowledged, and the book points out how certain problems may result in mishaps, it avoids focusing on individual accidents.

This is equally useful for the pilot wanting to make a systematic study of the human factors issues behind safe flying, and for the instructor or serious student needing an authoritative text.

This book discusses all spacecraft attitude control-related topics: spacecraft (including attitude measurements, actuator, and disturbance torques), modeling, spacecraft attitude determination and estimation, and spacecraft attitude controls. Unlike other books addressing these topics, this book focuses on quaternion-based methods because of its many merits. The book lays a brief, but necessary background on rotation sequence representations and frequently used reference frames that form the foundation of spacecraft attitude description. It then discusses the fundamentals of attitude determination using vector measurements, various efficient (including very recently developed) attitude determination algorithms, and the instruments and methods of popular vector measurements. With available attitude measurements, attitude control designs for inertial point and nadir pointing are presented in terms of required torques which are independent of actuators in use. Given the required control torques, some actuators are not able to generate the accurate control torques, therefore, spacecraft attitude control design methods with achievable torques for these actuators (for example, magnetic torque bars and control moment gyros) are provided. Some rigorous controllability results are provided. The book also includes attitude control in some special maneuvers, such as orbital-raising, docking and rendezvous, that are normally not discussed in similar books. Almost all design methods are based on state-spaced modern control approaches, such as linear quadratic optimal control, robust pole assignment control, model predictive control, and gain scheduling control. Applications of these methods to spacecraft attitude control problems are provided. Appendices are provided for readers who are not familiar with these topics.

This paper reviews some of the important technical barriers that must be overcome to achieve truly efficient flying adaptive micro air vehicles (MAVs). As defined by the Defense Advanced Research Agency (DARPA), MAVs are vehicles with no length dimension greater than 6 inches. These vehicles typically weigh less than 100 grams and some can fly for approximately 30 minutes. Over the past decade significant progress has been made in developing these small-scale mechanical flying machines. However, there is still much work to be done if these vehicles are to approach the efficiency and performance of biological fliers. This paper reviews the status of current miniature mechanical flying machines and compares their performance with common biological flyers such as birds, and small insects. This comparison reveals that advances in aerodynamic efficiency, lightweight and adaptive wing structures, energy conversion/propulsion systems and flight control are required to match or exceed the performance of natureaEURO (TM)s great flyers.

The Yearbook on Space Policy aims to be the reference publication analysing space policy developments. Each year it presents issues and trends in space policy and the space sector as a whole. Its scope is global and its perspective is European. The Yearbook also links space policy with other policy areas. It highlights specific events and issues, and provides useful insights, data and information on space activities. The Yearbook on Space Policy is edited by the European Space Policy Institute (ESPI) based in Vienna, Austria. It combines in-house research and contributions of members of the European Space Policy Research and Academic Network (ESPRAN), coordinated by ESPI. The Yearbook is designed for government decision-makers and agencies, industry professionals, as well as the service sectors, researchers and scientists and the interested public.

This study explains how Westland dominated British helicopter production and why government funding and support failed to generate competitive "all-British" alternatives. In doing so, the book evaluates broader historiographic assumptions about the purported "failure" of british aircraft procurement during the early post-war period and considers the scope and limitations of licensed production as a government-mandated procurement strategy.

Australia has an enviable record for airline safety - No one has ever died in an accident involving a commercial jet aircraft in Australia. The reasons behind this have been the source of much speculation and theories tend to focus on issues related to the natural environment and even luck. However, with human error being present in arguably 100% of aircraft accidents, it seems reasonable that a good safety record is at least partly the consequence of human intervention. This text uses Australian aviation as a case study of a safe system to explore the interactions between the natural, operational and human environments. Based on doctoral research including a major survey of pilot and air traffic controller perceptions, the book is unusual in that it looks at positive examples in safety rather than taking the traditional reactive approach to safety deficiencies.

This book explores topics that are central to the field of spacecraft attitude determination and control. The authors provide rigorous theoretical derivations of significant algorithms accompanied by a generous amount of qualitative discussions of the subject matter. The book documents the development of the important concepts and methods in a manner accessible to practicing engineers, graduate-level engineering students and applied mathematicians. It includes detailed examples from actual mission designs to help ease the transition from theory to practice and also provides prototype algorithms that are readily available on the author's website.

Subject matter includes both theoretical derivations and practical implementation of spacecraft attitude determination and control systems. It provides detailed derivations for attitude kinematics and dynamics and provides detailed description of the most widely used attitude parameterization, the quaternion. This title alsoprovides a thorough treatise of attitude dynamics including Jacobian elliptical functions. It is the first known book to provide detailed derivations and explanations of state attitude determination and gives readers real-world examples from actual working spacecraft missions. The subject matter is chosen to fill the void of existing textbooks and treatises, especially in state and dynamics attitude determination. MATLAB code of all examples will be provided through an external website."