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This book assesses the state of practice and use of ship-bridge simulators in the professional development and licensing of deck officers and marine pilots. It focuses on full-mission computer-based simulators and manned models. It analyzes their use in instruction, evaluation and licensing and gives information and practical guidance on the establishment of training and licensing program standards, and on simulator and simulation validation.
This book assesses the state of practice and use of ship-bridge simulators in the professional development and licensing of deck officers and marine pilots. It focuses on full-mission computer-based simulators and manned models. It analyzes their use in instruction, evaluation and licensing and gives information and practical guidance on the establishment of training and licensing program standards, and on simulator and simulation validation.
Simulation continues to be a growth area in transportation human factors. From empirical studies in the laboratory to the latest training techniques in the field, simulators offer myriad benefits for the experimenter and the practitioner. This book draws together current trends in research and training simulators for the road, rail, air and sea sectors to inform the reader how to maximize both validity and cost-effectiveness in each case. Simulators for Transportation Human Factors provides a valuable resource for both researchers and practitioners in transportation human factors on the use of simulators, giving readers concrete examples and case studies of how simulators have been developed and used in empirical research as well as training applications. It offers useful and usable information on the functional requirements of simulators without the need for any background knowledge on the technical aspects, focusing on the state of the art of research and applications in transport simulators rather than the state of the art of simulation technology. The book covers simulators in operational terms instead of task simulation/modelling and provides a useful balance between a bottom-up, academic approach and a top-down, practical perspective.
Ship Hydrostatics and Stability is a complete guide to understanding ship hydrostatics in ship design and ship performance, taking you from first principles through basic and applied theory to contemporary mathematical techniques for hydrostatic modeling and analysis. Real life examples of the practical application of hydrostatics are used to explain the theory and calculations using MATLAB and Excel. The new edition of this established resource takes in recent developments in naval architecture, such as parametric roll, the effects of non-linear motions on stability and the influence of ship lines, along with new international stability regulations. Extensive reference to computational techniques is made throughout and downloadable MATLAB files accompany the book to support your own hydrostatic and stability calculations. The book also includes definitions and indexes in French, German, Italian and Spanish to make the material as accessible as possible for international readers. Equips naval architects with the theory and context to understand and manage ship stability from the first stages of design through to construction and use. Covers the prerequisite foundational theory, including ship dimensions and geometry, numerical integration and the calculation of heeling and righting moments. Outlines a clear approach to stability modeling and analysis using computational methods, and covers the international standards and regulations that must be kept in mind throughout design work. Includes definitions and indexes in French, German, Italian and Spanish to make the material as accessible as possible for international readers.
Professional mariners, military and civilian, will find this book to be an invaluable reference in understanding the rules of the road and the role these rules play in managing the risk of collision. The author provides a thorough commentary on the rules and an analysis of collision cases involving abuse of the rules. Maritime attorneys and judges will find the book continues to be an indispensable reference on collision law as Craig Allen provides a mariner's insight into how the rules apply in context and their application by the courts and administrative tribunals. This new edition completely revises chapters on the rules pertaining to good seamanship and special circumstances and on restricted visibility, and it vastly expands coverage of the narrow channel rule, traffic separation schemes, and the application of the rules to high-speed craft. It also extensively revises materials on the look out and risk of collision responsibilities to update coverage on radar and ARPA and to address new technologies, such as integrated bridge systems, automatic identification systems, voyage data recorders and the increasingly active role of VTS. The first update in ten years, the eighth edition upholds and even surpasses the standards set over the past sixty years of the guide's publication.
"U.S. Navy surface combatant ship crew training involves a combination of shore-based, onboard pier-side, and underway training. Underway training is expensive, however, and it increases wear and tear on operating equipment. Furthermore, constrained budgets and increasing recapitalization costs have forced the Navy to examine various methods -- such as increased use of simulators -- to reduce the annual operating costs of the fleet. Technological improvements have increased the fidelity and realism of simulators, and simulation is being used more widely for training within the U.S. Navy, in other navies, and in commercial shipping companies. Although the Navy's surface combatant community currently uses simulators in its training regimen, an increased use of simulation could potentially improve training efficiency, sustain training readiness, and reduce underway days. Focusing on the DDG-51 Arleigh Burke class of surface combatants, RAND examines the training requirements of surface forces, determines where credit is granted for the use of simulation, estimates what training is done underway, examines simulation technology, and identifies areas where simulation could be substituted for underway training without any decrease in readiness. The authors find that although most exercises are done underway, many could be done in port with or without the use of simulators. Accordingly, the Navy should consider (1) investing in shore-based engineering simulators, (2) directing that exercises that can be done in port be done in port, and (3) accelerating the upgrades that are slowly providing DDG-51-class ships with an embedded engineering training capability." -- publisher's website.