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Human-Centered Design for Mining Equipment and New Technology [Kietas viršelis]

, (University of Queensland, Australia), (Monash University, Australia)
  • Formatas: Hardback, 125 pages, aukštis x plotis: 234x156 mm, weight: 385 g, 12 Illustrations, color; 28 Illustrations, black and white
  • Serija: Human Factors in Mining
  • Išleidimo metai: 05-Mar-2018
  • Leidėjas: CRC Press
  • ISBN-10: 1138095141
  • ISBN-13: 9781138095144
Kitos knygos pagal šią temą:
Human-Centered Design for Mining Equipment and New TechnologyDidesnis paveikslėlis
  • Formatas: Hardback, 125 pages, aukštis x plotis: 234x156 mm, weight: 385 g, 12 Illustrations, color; 28 Illustrations, black and white
  • Serija: Human Factors in Mining
  • Išleidimo metai: 05-Mar-2018
  • Leidėjas: CRC Press
  • ISBN-10: 1138095141
  • ISBN-13: 9781138095144
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9781138095144.html
Raktažodžiai:
Human-Centered Design for Mining Equipment and New Technology first introduces Human-Centered Design (HCD) and outlines the benefits of this approach for mining equipment and new technology: HCD is a process that aims to make equipment and systems more usable and acceptable by explicitly focusing on the end-user, their tasks and their work environment/use context. The book outlines three linked areas of mining HCD: key principles, examples of design processes, and what kinds of tools for data collection and evaluation are available.

The possible future uses of Human-Centered Design in more fully automated mining are presented, and the role of HCD within wider human system integration are outlined. The how to nature of this book makes it attractive to mining equipment manufacturers, technology developers, mine site personnel, human factors researchers, safety scientists and regulators.

Features:











Includes an introduction useful to anyone wanting to learn about the field





Provides extensive case studies of HCD which also show failures when HCD was not considered





Covers cutting edge mining technology- such as proximity detection devices and new mining automation systems





Directly outlines the benefits of HCD for the minerals industry

Human-Centered Design for Mining Equipment and New Technology, through case studies, provides a much needed guide to undertaking HCD for mining equipment and new technology.
List of Tables
vii
List of Figures
ix
Foreword xi
Acknowledgements xiii
Authors xv
Glossary of Terms and Acronyms xvii
Chapter 1 Why HCD for Mining Equipment?
1(10)
1.1 Overview
1(1)
1.2 What Is HCD?
1(1)
1.3 Application of HCD to Equipment and New Technologies Used in the Minerals Industry
2(1)
1.4 Key Points of HCD
2(1)
1.5 The Benefits of HCD ... and the Failures of Not Taking a Human-Centered Approach
3(4)
1.6 HCD Use Scenarios in Mining and the Minerals Industry
7(1)
1.7 HCD Example: The Need for HCD to Help Develop Self-Escape Technology
8(1)
1.8 Structure of the Book
8(3)
Chapter 2 Principles, Processes, and Tools for HCD
11(10)
2.1 Overview
11(1)
2.2 Key Principles of HCD
11(1)
2.3 HCD Processes
12(4)
2.4 HCD Data and Tools
16(2)
2.5 Summary of the Essential Principles, Processes, and Tools for Mining HCD
18(1)
2.6 Mining HCD Example: Adequate Underground Lighting
19(2)
Chapter 3 Current Status of Mining HCD
21(16)
3.1 Overview
21(1)
3.2 How Much Mining HCD Has Previously Been Undertaken?
21(1)
3.3 Mining HCD: Who Is Generally Doing What?
22(2)
3.4 Barriers for HCD
24(3)
3.5 Examples of Successful Human-Centered Design Initiatives
27(9)
3.6 Mining Example: Developing Self-Escape Technology with HCD
36(1)
Chapter 4 HCD Educational Material
37(34)
4.1 Overview
37(1)
4.2 How to Undertake HCD
37(2)
4.3 Educational Guide for the 11 Different HCD Activities
39(26)
4.4 Summary of HCD Activities
65(6)
Chapter 5 HCD Case Studies
71(34)
5.1 Overview
71(1)
5.2 Case Study 1: HCD with Underground Loader Automation at CMOC Northparkes, Australia
71(9)
5.3 Case Study 2: Sandvik Miner Bolter 650
80(6)
5.4 Case Study 3: Dust Suppression Hopper Implementation (Case Study Cowritten with Jessica Merrill, NIOSH PMRD)
86(4)
5.5 Case Study 4: Interface Design for Haul truck Proximity Advisory Systems
90(15)
Chapter 6 What Now for Mining HCD?
105(8)
6.1 HCD Analysis: What Works?
105(1)
6.2 Automated Mining and HCD
106(1)
6.3 How Does Human-Centered Design Relate to Human Systems Integration?
107(1)
6.4 Overall Conclusions
108(5)
References 113(8)
Index 121
Professor Tim Horberry leads the Human Factors team at Monash University Accident Research Centre in Australia. He recently was a Senior Visiting Researcher on a Safety in Design Ergonomics Fellowship at Cambridge University in England. Tims background is in human factors, safe design and transport/mining safety. Email tim.horberry@monash.edu

Professor Robin Burgess-Limerick is Professorial Research Fellow at the Minerals Industry Safety and Health Centre, Sustainable Minerals Institute, The University of Queensland, Australia. Robin has been a qualified Ergonomist for over 20 years, and is a past-President and Fellow of the Human Factors and Ergonomics Society of Australia.

Dr. Lisa Steiner is Associate Director of Science at the Pittsburgh Mining Research Division at the National Institute for Occupational Safety & Health, Pittsburgh, USA. She completed her PhD Reducing Underground Coal Roof Bolting Injury Risks through Equipment Design at the University of Queensland, Australia in 2014.