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Human Factors in Control Room Design: A Practical Guide for Project Managers and Senior Engineers [Kõva köide]

  • Formaat: Hardback, 176 pages, kõrgus x laius x paksus: 234x158x14 mm, kaal: 413 g
  • Ilmumisaeg: 17-Mar-2017
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1118307992
  • ISBN-13: 9781118307991
Teised raamatud teemal:
Human Factors in Control Room Design: A Practical Guide for Project Managers and Senior EngineersSuurem pilt
  • Formaat: Hardback, 176 pages, kõrgus x laius x paksus: 234x158x14 mm, kaal: 413 g
  • Ilmumisaeg: 17-Mar-2017
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1118307992
  • ISBN-13: 9781118307991
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781118307991.html
Märksõnad:
"Human Factors in Control Room Design is a design guide for project managers and engineers, providing quick reference to the processes, practical human factors knowledge and standards required for civil and military control room design. It focuses on human factors and ergonomics in order to enable optimum usability, performance, comfort and safety."--Provided by publisher.

Human Factors in Military and Industrial Control Room Design Tex Crampin, Liveware Human Factors Ltd, UK 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.

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.

About the Author xiii
Preface xv
1 Introduction to the Guide
1(2)
1.1 Purpose and Scope
1(2)
2 HF Design Process
3(26)
2.1 Outline Design Process
3(1)
2.2 Detailed Design Process
3(26)
3 Workspace Human Factors
29(22)
3.1 Outline Design Approach
29(1)
3.2 Workspace Design and Traffic Flow
29(5)
3.2.1 Design Outline Control Room Layout
29(2)
3.2.2 Design Outside Gantry Access and Layout
31(1)
3.2.3 Optimise Spatial Dimensions to Promote Good Traffic Flow
31(1)
3.2.4 Design Outline Equipment
31(3)
3.3 Workspace Design and Console Configuration
34(5)
3.3.1 Design Outline Console Configurations
34(3)
3.3.2 Design Outline Consoles
37(2)
3.4 Workspace and Panel Design
39(6)
3.4.1 Design Workstations and Console Layout
39(1)
3.4.2 Design Workstations and Consoles
40(5)
3.5 Seating
45(1)
3.6 Mock-ups and Example Workspaces
46(3)
3.7 Maintenance
49(1)
3.8 Co-location
49(2)
4 Human-machine Interface Design
51(18)
4.1 Outline Design Approach
51(1)
4.2 HMI Operating Philosophy
51(1)
4.3 Detailed Workstation and Console Design
52(2)
4.3.1 Single and Multi-Screen Workstations
53(1)
4.4 Controls and Displays
54(4)
4.4.1 Large Screen Displays
55(1)
4.4.2 Interactive Large Screen Displays
56(1)
4.4.3 Palmtops
56(1)
4.4.4 Pagers
56(1)
4.4.5 LOPs (Local Operating Panels)
56(1)
4.4.6 Hardwired Controls
56(1)
4.4.7 Fire (and Flood) Detection Panels
57(1)
4.4.8 Fire Suppression Panel
57(1)
4.4.9 CCTV
57(1)
4.4.10 Printers
57(1)
4.4.11 Reversionary Modes of Operation
57(1)
4.5 Alerts (Alarms and Warnings)
58(11)
4.5.1 Alerting Philosophies
58(2)
4.5.2 Design of Alerts
60(9)
5 Human-computer Interface Design
69(664)
5.1 Outline Design Approach
69(1)
5.2 General HCI Operating Philosophy
69(4)
5.2.1 Introduction
69(1)
5.2.2 General HCI Design Principles
70(3)
5.3 Detailed Design of Controls and Displays
73(19)
5.3.1 Introduction
73(1)
5.3.2 Functional Software Overview
74(1)
5.3.3 Specific HCI Design and Layout Rules
74(4)
5.3.4 Permanently Available Information
78(1)
5.3.5 Time
78(1)
5.3.6 Log-on Status
78(1)
5.3.7 Menu Button
78(1)
5.3.8 Conditions and Threats
78(1)
5.3.9 Command Aim Dialogue Box
79(1)
5.3.10 Summary Alerts List
79(1)
5.3.11 Damage Control Status Overview Mimic
79(1)
5.3.12 Additional Permanendy Available Information/Controls
79(1)
5.3.13 Display Page Area
79(1)
5.3.14 Primary Navigation Bar
80(1)
5.3.15 Alert Button
80(1)
5.3.16 Alerts
80(1)
5.3.17 Navigation Group Buttons
81(1)
5.3.18 System Navigation Buttons
81(2)
5.3.19 Secondary Navigation Bars and Hyperlinks
83(1)
5.3.20 Secondary Navigation Bars
83(1)
5.3.21 Hyperlinks
83(1)
5.3.22 Types of Display Page
83(1)
5.3.23 Overview Pages
84(1)
5.3.24 System Pages -- Split Design
85(2)
5.3.25 System Pages -- Control Panel/Mimic Design
87(1)
5.3.26 Ring Main Mimic Page
88(1)
5.3.27 Night Colour Palette Pages
89(1)
5.3.28 Stateboard Pages
89(1)
5.3.29 Single Screen Navigation and Control Philosophy
89(1)
5.3.30 Twin Screen Navigation and Control Philosophy
89(3)
5.3.31 Large Screen Display Navigation and Control Philosophy
92(1)
5.3.32 Paging Operating Philosophy
92(1)
5.3.33 Palmtop HCI Operating Philosophy
92(1)
5.4 Menus
92(1)
5.4.1 General
92(1)
5.5 Windows
92(2)
5.5.1 Page Windows
92(1)
5.5.2 Pop-up Windows
93(1)
5.5.3 Pop-up Window Example
93(1)
5.6 Controls
94(2)
5.6.1 General Presentation
94(1)
5.6.2 Navigation Controls
94(1)
5.6.3 Navigation Group Buttons
94(1)
5.6.4 System Navigation Buttons -- Primary Navigation Bar
95(1)
5.6.5 System Navigation Buttons -- Secondary Navigation Bars
95(1)
5.6.6 Hyperlinks
96(1)
5.7 Machinery Controls
96(9)
5.7.1 DG Start/Stop Buttons
96(3)
5.7.2 Mode Select Controls
99(2)
5.7.3 Breaker Controls
101(1)
5.7.4 Valve Controls
102(3)
5.7.5 Keyboard Controls
105(1)
5.8 Dialogue Boxes
105(1)
5.9 Use of Colour
105(4)
5.9.1 General Use of Colour
105(1)
5.9.2 Specific Uses of Colour
106(2)
5.9.3 Colour Perception
108(1)
5.10 Text
109(1)
5.10.1 Font Type
109(1)
5.10.2 Text Characteristics
110(1)
5.11 Symbology
111(3)
5.11.1 Marine/Systems Engineering
111(3)
5.12 Mimics
114(6)
5.12.1 General
114(1)
5.12.2 Ringmain Mimics
115(1)
5.12.3 Electrical Mimics
115(2)
5.12.4 Propulsion Mimics
117(1)
5.12.5 Tank Gauges
117(3)
5.12.6 Animation
120(1)
5.13 Touch Screens
120(2)
5.14 Day and Night Viewing Conditions
122(2)
5.14.1 Night Viewing Palettes
122(2)
5.15 Workload and Automation
124(609)
5.15.1 Workload
124(2)
5.15.2 Automation and De-skilling
126(1)
5.15.2.1 Anecdotal Evidence
126(3)
5.15.2.2 Balancing Automation between the Human and the Machine
129(2)
5.15.2.3 Key HF Issues in Addressing Automation
131(2)
6 Environmental Ergonomics
133(1)
6.1 Outline
133(1)
6.2 Lighting
133(1)
6.3 Noise
134(2)
6.4 Heating and Ventilation
136(1)
6.5 Platform Motion
136(3)
7 Training
139(4)
7.1 Outline
139(1)
7.2 Training Needs Analysis and Specification
140(1)
7.3 Training Equipment
140(1)
7.4 Summary Approach to Training
141(2)
8 Assessment and Acceptance Testing
143(12)
8.1 Method
143(1)
8.2 Acceptance Testing and Human Factors
143(1)
8.3 Control Room HF Design Process and Acceptance Planning
144(1)
8.4 Acceptance Testing Detail
144(11)
8.4.1 Static Assessments
148(1)
8.4.2 Dynamic Assessments
149(3)
8.4.2.1 Detailed Dynamic Assessment Example
152(3)
References 155(602)
Index 757
Tex Crampin, Liveware Human Factors Ltd, Goodwood, UK