With up to 80% of accidents attributed to pilot error, this new series is critically important. It identifies and examines the ten top areas of concern to pilot safety. Each book contains real-life pilot stories drawn from FAA/NASA databases, valuable "save-yourself" techniques and an action agenda of preventive techniques pilots can implement to avoid risks.
Expert authors demonstrate the topic using pilot drawn from an FAA/NASA sponsored database. A post-mortem of real-life, real-pilot accidents are examined to explain what went wrong and why. An action agenda is drawn of preventive techniques pilots can effect to avoid the same risks.
Offers you protection against the causes of up to 80 per cent of aviation accidents - pilot mistakes. This guide provides: related case studies; save yourself techniques and safety tips; and clear and concise analysis of error sets.
The award-winning journalist delves “into the confluence of modern airplane technology and pilot behavior to probe how and why flight disasters happen” (BookTrib). Aviation automation has been pushed to its limits, with pilots increasingly relying on it. Autopilot, autothrottle, autoland, flight management systems, air data systems, inertial guidance systems. All these systems are only as good as their inputs which, incredibly, can go rogue. Even the automation itself is subject to unpredictable failure. And what of the pilots? They began flight training with their hands on the throttle and yoke, and feet on the rudder pedals. Then they reached the pinnacle of their careers—airline pilot—and suddenly they were going hours without touching the controls other than for a few minutes on takeoff and landing. Are their skills eroding? Is their training sufficient to meet the demands of today’s planes? The Dangers of Automation in Airliners delves deeply into these questions. You’ll be in the cockpits of the two doomed Boeing 737 MAXs, the Airbus A330 lost over the South Atlantic, and the Bombardier Q400 that stalled over Buffalo. You’ll discover exactly why a Boeing 777 smacked into a seawall, missing the runway on a beautiful summer morning. And you’ll watch pilots battling—sometimes winning and sometimes not—against automation run amok. This book also investigates the human factors at work. You’ll learn why pilots might overlook warnings or ignore cockpit alarms. You’ll observe automation failing to alert aircrews of what they crucially need to know while fighting to save their planes and their passengers. The future of safe air travel depends on automation. This book tells its story.
Achieve excellence on the automated flight deck! The first practical guide that shows professional pilots how to safely transition to the automated flight deck Today's remarkable aircraft require remarkable airmanship skills. Automation Airmanship is a breakthrough book that helps pilots master these skills by introducing Nine Principles for Operating Glass Cockpit Aircraft. The nine principles were derived from over a decade of fi eldwork with organizations worldwide that have successfully transitioned to advanced aircraft fleets. Each principle provides a building block for a simplifi ed, straightforward, and disciplined approach to operating increasingly complex aircraft safely and effectively in demanding operational environments. Written by experienced airline captains who have trained others through the glass cockpit transition, this book presents ideas useful to both veteran glass cockpit pilots and those new to the twenty-first century flight deck. More than a simple list of skills, this powerful resource draws on real-life examples, providing the roadmap you need to successfully transition from steam to glass--and maintain a performance edge for your entire career. Features: In-flight experience of experts Success stories and lessons learned from across the industry Real-world accident investigations to underscore the importance of these principles Powerful tools to avoid errors or to resolve them when issues arise A guide to fundamentals of automated flight deck architecture Principles and practices for all phases of flight operations
In this book the author applies contemporary error theory to the needs of investigators and of anyone attempting to understand why someone made a critical error, how that error led to an incident or accident, and how to prevent such errors in the future. Students and investigators of human error will gain an appreciation of the literature on error, with numerous references to both scientific research and investigative reports in a wide variety of applications, from airplane accidents, to bus accidents, to bonfire disasters. Based on the author's extensive experience as an accident investigator and instructor of both aircraft accident investigation techniques and human factors psychology, it reviews recent human factors literature, summarizes major transportation accidents, and shows how to investigate the types of errors that typically occur in high risk industries. It presents a model of human error causation influenced largely by James Reason and Neville Moray, and relates it to error investigations with step-by-step guidelines for data collection and analysis that investigators can readily apply as needed. This second edition of Investigating Human Error has been brought up to date throughout, with pertinent recent accidents and safety literature integrated. It features new material on fatigue, distraction (eg mobile phone and texting) and medication use. It also now explores the topics of corporate culture, safety culture and safety management systems. Additionally the second edition considers the effects of the reduction in the number of major accidents on investigation quality, the consequences of social changes on transportation safety (such as drinking and driving, cell phone use, etc), the contemporary role of accident investigation, and the effects of the prosecution of those involved in accidents.
The advent of very compact, very powerful digital computers has made it possible to automate a great many processes that formerly required large, complex machinery. Digital computers have made possible revolutionary changes in industry, commerce, and transportation. This book, an expansion and revision of the author's earlier technical papers on this subject, describes the development of automation in aircraft and in the aviation system, its likely evolution in the future, and the effects that these technologies have had -- and will have -- on the human operators and managers of the system. It suggests concepts that may be able to enhance human-machine relationships in future systems. The author focuses on the ability of human operators to work cooperatively with the constellation of machines they command and control, because it is the interactions among these system elements that result in the system's success or failure, whether in aviation or elsewhere. Aviation automation has provided great social and technological benefits, but these benefits have not come without cost. In recent years, new problems in aircraft have emerged due to failures in the human-machine relationship. These incidents and accidents have motivated this inquiry into aviation automation. Similar problems in the air traffic management system are predicted as it becomes more fully automated. In particular, incidents and accidents have occurred which suggest that the principle problems with today's aviation automation are associated with its complexity, coupling, autonomy, and opacity. These problems are not unique to aviation; they exist in other highly dynamic domains as well. The author suggests that a different approach to automation -- called "human-centered automation" -- offers potential benefits for system performance by enabling a more cooperative human-machine relationship in the control and management of aircraft and air traffic.
The Limits of Expertise reports a study of the 19 major U.S. airline accidents from 1991-2000 in which the National Transportation Safety Board (NTSB) found crew error to be a causal factor. Each accident is reported in a separate chapter that examines events and crew actions and explores the cognitive processes in play at each step.
