Human Factors in the Design and Evaluation of Central Control Room Operations


Book Description

Whether used for aviation, manufacturing, oil and gas extraction, energy distribution, nuclear or fossil fuel power generation, surveillance or security, all control rooms share two common features. The people operating them are often remote from the processes that they are monitoring and controlling and the operations work 24/7. The twin demands o




Human Factors in Control Room Design


Book Description

A succinct guide to a Human Factors programme of work This book provides a reference for project managers to assist in identifying the key rudiments of good Human Factors design. It is intended to be used in conjunction with an appointed Human Factors manager as part of a detailed design programme, read by all engineers and designers in order to establish a wide understanding across the whole team of the importance of Human Factors. Human Factors in Military and Industrial Control Room Design offers succinct advice, tailored for rapid injection into complex Human Factors programmes, together with applicability to any control room design, military or industrial. Applications include warship control rooms, command centres, fire and accident response centres, chemical plants, nuclear installations, oil rigs, refineries and other similar industries. Key features: A template for a thorough Human Factors programme of work. Applicability to any control room design. Aims to address operator workload and optimise system performance, comfort and safety. Can save significant costs by optimised system integration and enhanced system operation. It is advised that project managers use Human Factors in Military and Industrial Control Room Design as a template to develop a control room "Operating Philosophy" and "Human Computer Interface (HCI) Style Guide" for their own purposes within the constraints of their specific industry.




People in Control


Book Description

Drawn from a June 1999 conference of the same name, 18 papers explore the role of human error in causing accidents and inefficiencies in automated processes and discuss engineering solutions to the design of systems and processes. Emphasizing case studies and examples from the transport and process control industries, the papers are organized into the topic areas of human performance, methods, and control room design. Individual topics include situation awareness, teamworking, training for control room tasks, allocation of human and machine functions, task analysis, development of a railway ergonomics control assessment package, design of alarm systems, control desks in power generation, and integrated platform management system design for naval warships. Annotation copyrighted by Book News, Inc., Portland, OR




Human Factors for Engineers


Book Description

The book discusses human factors integration methodolgy and reviews the issues that underpin consideration of key topics such as human error, automation and human reliability assesment.




Control Room Design Guide


Book Description

Since the introduction of distributed control systems into control rooms, the mining, refining, chemical, and power industries have lived with, and suffered from, many behavioral problems common with this design. When Human Factors/Ergonomic design is introduced into a centralized control room, the users and the company realize many improvements including economic payback. Some of the common improvements include: 1. Communications issues get resolved, 2. Better coordination of materials, 3. Improved situation awareness during startups and abnormal operations, 4. Opportunities to make improvements during normal operations. This will guide you through the control room design process and provide information on the ISO 11064 control room design standard




Human Factors in Process Plant Operation


Book Description

Call it the Human element in how a refining and chemical process operation is run....the other side of the machine and control system operation equation. Its value is in lives protected and money saved. This plain English guide to the principles of human factors will enable operations and control personnel—both the experienced and uninitiated— to understand how to successfully incorporate the concepts within their own plants. Through real-world examples, the author explains how human factors engineering concepts do, and must, dovetail with process plant design and operation. Offering practical insights, the book lays out the principles of human-system interactions and how they must be incorporated into any plant and control system from the get go—in order to ensure safe and efficient operations. Control engineers and operations managers will gain incomparable, inside-the-industry experience from: • Clear discussion of performance-shaping factors; • In-depth discussion of key variables in terms of workload and staffing; • A detailed analysis of the all-important human-machine interface, including content and format; • How-to planning for system demands and levels of automation; • Invaluable guidance on worker selection and training, along with sample procedures and job aids; and • Tools for investigation of incidents and near-misses from the human perspective.




Sensemaking in Safety Critical and Complex Situations


Book Description

Sensemaking in Safety Critical and Complex Situations: Human Factors and Design Human factors-based design that supports the strengths and weaknesses of humans are often missed during the concept and design of complex technical systems. With the focus on digitalization and automation, the human actor is often left out of the loop but needs to step in during safety-critical situations. This book describes how human factors and sensemaking can be used as part of the concept and design of safety critical systems in order to improve safety and resilience. This book discusses the challenges of automation and automated systems when humans are left out of the loop and then need to intervene when the situation calls for it. It covers human control and accepts that humans must handle the unexpected and describes methods to support this. It is based on recent accident analysis involving autonomous systems that move our understanding forward and supports a more modern view on human errors to improve safety in industries such as shipping and marine. The book is for human factors and ergonomists, safety engineers, designers involved in safety critical work and students. Stig Ole Johnsen is a Senior Researcher at SINTEF in Norway. He has a PhD from NTNU in Norway with a focus on resilience in complex socio-technical systems and has a Master’s in Technology Management from MIT/NTNU. He chairs the Human Factors in Control network (HFC) in Norway to strengthen the human factors focus during development and implementation of safety critical technology. His research interests include meaningful human control to support safety and resilience during automation and digitalization. Thomas Porathe has a degree in Information Design from Malardalen University in Sweden. He is currently Professor of Interaction Design at the Norwegian University of Science and Technology in Trondheim, Norway. He specializes in maritime human factors and design of maritime information systems, specifically directed towards control room design, e-navigation and autonomous ships. He has been working with e-Navigation since 2006 in EU projects such as BLAST, EfficienSea, MONALISA, ACCSEAS, SESAME and the unmanned ship project MUNIN. He is active in the International Association of Aids to Navigation and Lighthouse Authorities (IALA).




Handbook of Control Room Design and Ergonomics


Book Description

First published two decades ago, the first edition of Handbook of Control Room Design and Ergonomics: A Perspective for the Future became a benchmark for the field. Current-day process control encompasses a new generation of computer systems with enormous capabilities, including new display technologies. These new and emerging technologies integrat




Handbook of Human Factors and Ergonomics


Book Description

The fourth edition of the Handbook of Human Factors and Ergonomics has been completely revised and updated. This includes all existing third edition chapters plus new chapters written to cover new areas. These include the following subjects: Managing low-back disorder risk in the workplace Online interactivity Neuroergonomics Office ergonomics Social networking HF&E in motor vehicle transportation User requirements Human factors and ergonomics in aviation Human factors in ambient intelligent environments As with the earlier editions, the main purpose of this handbook is to serve the needs of the human factors and ergonomics researchers, practitioners, and graduate students. Each chapter has a strong theory and scientific base, but is heavily focused on real world applications. As such, a significant number of case studies, examples, figures, and tables are included to aid in the understanding and application of the material covered.




Human Factors and Ergonomics Design Handbook, Third Edition


Book Description

Master the art of user-centric planning and design This thoroughly revised guide offers complete coverage of the latest trends and advances in ergonomics and psychology and lays out practical applications for today’s designers. Written by a team of experts, Human Factors and Ergonomics Design Handbook, Third Edition, shows how to maximize functionality while reducing injuries and minimizing the impact on physical and psychological health. The ubiquitous use of smartphones, tablets, and other high-tech equipment is discussed in full detail. New chapters explain medical systems, robotics, handheld devices, cognitive workload, and the motion environment. Inside, you’ll find human-friendly design techniques for: · Architecture, transportation, and industrial systems · Military, space, communications, agriculture, and consumer product systems · Doors, windows, hatches, and equipment closures · Parking, walkways, hallways, catwalks, and sidewalks · Ramps, stairs, elevators, escalators, and moving walkways · Bathrooms, restrooms, locker rooms, bedrooms, and berthing subsystems · Kitchens, galleys, dining rooms, and food service facilities · Offices, auditoriums, theaters, sports facilities, and special workplaces · Lighting and sound systems, furniture, and appliances · Visual and auditory displays, computer controls, fasteners, and tools