The National Research Council of the National Academies was requested by the National Aeronautics and Space Administration (NASA) to perform an independent assessment of NASA's National Aviation Operations Monitoring Service (NAOMS) project, which was a survey administered to pilots from April 2001 through December 2004. The NRC reviewed various aspects of the NAOMS project, including the survey methodology, and conducted a limited analysis of the publicly available survey data. An Assessment of NASA's National Aviation Operations Monitoring Service presents the resulting analyses and findings.
This book focuses on ways to better manage and prevent aircraft-based homicide events while in flight using alternate technology to replace the Cockpit Voice Recorder (CVR) and/or Digital Flight Data Recorder (DFDR) functions. While these events are infrequent, the implementation of real-time predictive maintenance allows aircraft operators to better manage both scheduled and unscheduled maintenance events. Aviation Safety and Security: Utilizing Technology to Prevent Aircraft Fatality explores historical events of in-flight homicide and includes relevant accident case study excerpts from the National Transportation Safety Board (NTSB) and Air Accidents Investigation Branch (AAIB).FEATURESExplores historical events of in-flight homicide and offers solutions for ways to mitigate riskExplains how alternate technologies can be implemented to address in-flight safety issuesDemonstrates that metrics for change are not solely for safety but also for financial savings for aircraft operationIncludes relevant accident case study excerpts from the NTSB and AAIBExpresses the need for real-time predictive maintenanceStephen J Wright is an academic Professor at the faculty of Engineering and Natural Sciences at Tampere University, Finland, specializing in aviation, aeronautical engineering, and aircraft systems.
Human and technical factors play a major role in the safety of aviation. From the competency of the airline pilot to the design and manufacture of aircraft, as well as how the aircraft is operated, there are compelling factors that a State must consider in implementing its safety management system. These elements are well regulated, in Annex 1 (Personnel Licensing); Annex 2 (Rules of the Air); Annex 6 (Operations of Aircraft) and Annex 8 (Airworthiness of Aircraft) to the Convention on International Civil Aviation (Chicago Convention) respectively. The overall philosophy of these Annexes is embodied in the broader principles contained in Annex 19 (Safety Management Systems). This book contains commentaries on the relevant Standards of these Annexes that require legal and policy analysis. It begins with a treaty interpretation of the Chicago Convention and the Annexes as well as their amendment processes and goes on to critically analyze the role of the International Civil Aviation Organization in that context. It then lays out the provisions of the four Annexes and offers legal and policy commentaries on Standards therein which are not self-explanatory, where applicable, relevant, and necessary. A significant feature of the book is its conclusion which asks questions and offers point by point suggestions in response that States could benefit from in ensuring the safety of international civil aviation. There has been no previous book published containing critical analyses and commentaries on Annexes 2, 6, 8, and 19 to the Chicago Convention in one repository of literature. This book will be of interest and use to aeronautical authorities; academics; students of international law and air law; legal practitioners and regulators worldwide.
Ice formation on aircraft can disrupt the smooth flow of air over the wings and prevent the aircraft from taking off or decrease the pilot's ability to maintain control of the aircraft. Takeoff and landing operations can also be risky in winter weather. Despite persistent efforts by the Federal Aviation Administration (FAA) and others to mitigate icing risks, icing remains a serious concern. This report reviewed: (1) the extent to which commercial airplanes have experienced accidents and incidents related to icing; (2) FAA's inspection and enforcement activities related to icing; (3) the efforts of FAA and others to improve safety in winter weather; and (4) the challenges that continue to affect aviation safety in winter weather. Includes recommendations. Tables.
The objectives of the Interagency Aerial Ignition Guide(IAIG) are: A. Define and standardize procedures and equipment for approved aerial ignition operations for use by all cooperating natural resource agencies. B. Ensure that all aerial ignition operations are performed in a safe and efficient manner. C. Provide a framework within which areas, regions, states, and local units can provide supplemental, site-specific guidance. D. Establish a method to evaluate and approve aerial ignition systems not currently approved and outlined in this guide
Up-To-Date Coverage of Every Aspect of Commercial Aviation Safety Completely revised edition to fully align with current U.S. and international regulations, this hands-on resource clearly explains the principles and practices of commercial aviation safety—from accident investigations to Safety Management Systems. Commercial Aviation Safety, Sixth Edition, delivers authoritative information on today's risk management on the ground and in the air. The book offers the latest procedures, flight technologies, and accident statistics. You will learn about new and evolving challenges, such as lasers, drones (unmanned aerial vehicles), cyberattacks, aircraft icing, and software bugs. Chapter outlines, review questions, and real-world incident examples are featured throughout. Coverage includes: • ICAO, FAA, EPA, TSA, and OSHA regulations • NTSB and ICAO accident investigation processes • Recording and reporting of safety data • U.S. and international aviation accident statistics • Accident causation models • The Human Factors Analysis and Classification System (HFACS) • Crew Resource Management (CRM) and Threat and Error Management (TEM) • Aviation Safety Reporting System (ASRS) and Flight Data Monitoring (FDM) • Aircraft and air traffic control technologies and safety systems • Airport safety, including runway incursions • Aviation security, including the threats of intentional harm and terrorism • International and U.S. Aviation Safety Management Systems
As part of the national effort to improve aviation safety, the Federal Aviation Administration (FAA) chartered the National Research Council to examine and recommend improvements in the aircraft certification process currently used by the FAA, manufacturers, and operators.
