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IES DG 28 2015

IES DG 28 2015

$29.79

IES DG-28: Guide for Selection, Installation, Operations and Maintenance of Roadway Lighting Control Systems

Published By Publication Date Number of Pages
IES 2015 44
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The purpose of ANSI approved Design Guide is to educate the reader on control technologies, and to advise considerations for their implementation. DG-28-15 presents an overview of lighting control technologies, some of which are new and evolving, and others which have a proven history (for examples, refer to IES TM-23-11 Lighting Control Protocols).

PDF Catalog

PDF Pages PDF Title
1 Cover
3 Copyright
4 IES Roadway Lighting Energy Management Sub-Committee
6 Contents
8 1.0 Introduction
2.0 Goals and Best Practices
2.1 Safety
2.2 Project Planning Introduction
9 2.2.1 The Systems Engineering Process
2.2.1.1 What is a System
2.2.1.2 What is Systems Engineering
2.2.1.3 Systems Engineering Principles
2.2.1.3.1 Start with Your Eye on the Finish
2.2.1.3.2 Stakeholder Involvement is Key
2.2.1.3.3 Define the Problem Before Implementing the Solution
10 2.2.1.3.4 Delay Technology Choices
2.2.1.3.5 Divide and Conquer
2.2.1.3.6 Connecting the Dots – Traceability
2.2.1.3.7 The “V” Systems Engineering Model
2.2.1.3.8 Overview of the “V” Model
11 2.2.1.3.9 Connecting the Left and Right Sides of the “V
12 2.2.1.3.10 Decision Points
2.2.2 User Needs
2.2.2.1 Who and What Can Generate User Needs
13 2.2.3 Operational and Functional Requirements
15 2.2.4 Testing
16 2.4 Cost Benefit Analysis
2.5 Procurement
3.0 Control Technologies
3.1 Stand-alone Technologies
3.1.1 Background
17 3.1.2 Dusk to Dawn Photo Controls (Photocells
3.1.3 Time Switches
3.1.4 Part Night Photo Controls (Photocell
18 3.1.5 Astronomical TIme Clocks
3.1.6 Motion Detectors
3.2 Networking and Communications Technologies
3.2.1 Background
19 3.2.2 Management Station
20 3.2.3 Data Logger
21 3.2.4 Streetlight Controllers
3.2.5 Data Logging
3.2.6 Data Security
4.0 Adaptive Lighting Design
4.1 General Considerations
23 4.2 Specific Design Considerations
4.2.1 Residential Streets
24 4.2.2 Collector and Arterial (Major) Streets
25 4.2.3 Freeways and Highways
4.2.4 Sidewalks, Walkways and Alleyways
4.2.5 Tunnels
4.3 Inventory Assessment
26 4.4 Deployment
5.0 Adaptive Lighting Operations
5.1 Preventive Maintenance Analysis
5.2 Inventory Analysis
5.3 Work Management Analysis
27 5.4 Asset Management
5.5 Electrical System Maintenance
5.6 Other Considerations
5.6.1 Asset Tracking
5.6.2 Electrical Safety Equipment
5.7 Power Metering and Monitoring
5.7.1 Tariffs
5.7.2 Flat Rate Billing
28 5.7.3 Metered Service
5.7.4 Meter Accuracy
6.0 Integration and Commissioning
6.1 Interoperability
29 6.2 Interchangeability
6.3 Compliance vs. Conformance
6.4 Integration with US DOE “Smart Grid” Compliant Systems
6.5 Integration with Intelligent Transportation Systems
30 6.6 Integration with Building Automation Systems
General References
Annex A ” U.S. DOT Intelligent Transportation Standards
31 Annex B ” U.S. DOT Standard NTCIP 1213 Electrical and Lighting Management Systems
32 Annex C ” U.S. Department of Commerce / National Institute of Standards and Technology –
Smart Grid Interoperability Panel Standards
33 Annex D ” U.S. Department of Energy Municipal Solid State Lighting Consortium
Annex E ” TALQ Consortium
34 Annex F ” BACnet
Annex G ” LonWorks® Technology
Annex H ” Zigbee
Annex I ” IMSA Roadway Lighting Technician Courses
35 Annex J ” Interoperability and the OSI 7 Layer Model
37 Annex K ” Glossary
43 Annex L ” General Bibliography

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IES DG 28 2015
$29.79