世界各国のリアルタイムなデータ・インテリジェンスで皆様をお手伝い

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この調査レポートは、照明の制御の8種類の戦略と対応アプリケーションを調査し、センサと制御技術の最新情報を掲載し、異なるビルシステムの無線制御と統合向けに多様なオプションを記述しています。さらに、世界の5地域における9種の建物タイプの照明制御機器の収益を予測しています。また、主要な関連企業24社の詳細情報とSWOT分析も掲載しています。 Though lighting represents about 17.5% of all global electricity consumption, only a small percentage of the lighting in commercial buildings is controlled by anything other than an ON/OFF switch. Intelligent lighting controls enable the lighting system to react to the actual conditions in a space, such as whether the space is occupied and how much natural light is present, and only provide the amount of artificial light that is required. Increasing the use of lighting controls would be a very straightforward way of improving the energy efficiency of lighting systems. A number of trends are leading to increased adoption of intelligent lighting controls. In addition to the drive to cut energy consumption, there is recognition that lighting control systems can contribute to the pursuit of green building certifications, an interest in increasing the amount of natural light available to occupants, and a desire to provide people with more control over the light levels in their work environments. In addition, more lighting control systems are networked and centrally controlled, enabling them to be connected to building energy management systems and Smart Grid applications. Wireless technologies are providing options for implementing lighting controls in buildings where installing wired systems wouldn’t previously have been practical. This Pike Research report describes eight different lighting control strategies and the types of applications to which they are applicable, provides an update on sensor and control technologies, and discusses different options for wireless control and integration with other building systems. In addition, the study includes forecasts for lighting control equipment revenue for nine different building types across five world regions. The report also features in-depth profiles and SWOT analyses of 24 key industry players. Key questions addressed: What are the trends that are driving the adoption of lighting controls, both globally and regionally? What are the barriers hindering the adoption of lighting controls and what are some potential ways to address these barriers? What are the different lighting control strategies that can be implemented? What lighting control technologies are available and what are some of the advantages and disadvantages of each? What kinds of lighting controls strategies and technologies are appropriate for different lighting applications? What is the outlook for lighting control product revenue in each type of commercial building, and multi-family residential common areas, in each world geographic region? How are various established and startup companies positioned for success in the lighting control market? Who needs this report? Smart grid hardware and software vendors Lighting control system suppliers Lighting control product manufacturers Lighting equipment manufacturers Commercial building owners and managers Architecture and design firms Energy efficiency and sustainability consultants Electric utilities Energy efficiency program administrators Energy service companies (ESCOs) Smart grid application vendors Energy regulators and policy makers Standards development organizations Investor community

目次

Table of Contents

詳細資料は、お問い合わせフォームから請求してください。

1. Executive Summary

1.1 Global Energy Use for Lighting

1.2 Lighting and Lighting Controls

1.2.1 Why is Lighting Not More Controlled?
1.2.2 Energy Savings Potential
1.2.3 Lighting Control Systems
1.2.3.1 The Progression of Lighting Control Technology
1.2.3.2 Ballasts
1.2.3.3 Lighting Controllers
1.2.3.4 Control Zones
1.2.4 New Construction and Retrofits

1.3 Report Scope

1.3.1 Building Industry Categories
1.3.3.1 Commercial Building Categories
1.3.3.1.1 Entertainment and Theatrical Lighting
1.3.3.2 Residential Building Categories
1.3.3.2.1 Multi-Unit Residential (Common Areas)
1.3.3.2.2 Single-Family Detached
1.3.2 Geography
1.3.3 Products

1.4 Market Drivers

1.4.1 Rising Energy Costs and Savings Opportunities
1.4.2 Building Codes and Energy Codes
1.4.3 Integration with Building Energy Management
1.4.4 Relating to an Individual’s Need for Lighting
1.4.5 Sustainability and Green Building Certification
1.4.6 Product Costs and Advancing Technology

1.5 Market Barriers

1.6 Lighting Control Strategies and Technologies

1.6.1 Lighting Control Strategies
1.6.2 Lighting Control Technologies

1.7 Lighting Controls Market Forecasts

2. Market Issues

2.1 Building Industry Segments

2.1.1 Commercial Building Categories
2.1.1.1 Office
2.1.1.2 Retail
2.1.1.3 Education
2.1.1.4 Healthcare
2.1.1.5 Hotels & Restaurants
2.1.1.6 Institutional/Assembly
2.1.1.7 Warehouse
2.1.1.8 Transport
2.1.2 Residential Building Categories
2.1.2.1 Multi-Unit Residential
2.1.2.2 Single-Family Detached

2.2 General Drivers and Trends Impacting the Use of Lighting Controls

2.2.1 Rising Energy Costs
2.2.1.1 Electricity Costs
2.2.2 Drive to Reduce Costs
2.2.3 Building Codes and Energy Codes
2.2.3.1 Types of Lighting Control Code Requirements
2.2.3.2 Future Energy Codes
2.2.4 Green Building Certifications
2.2.5 Financial Incentives for Energy Efficiency
2.2.6 Integration with Building Energy Management Systems
2.2.7 Demand Response and Dynamic Pricing
2.2.8 Increased Use of Natural Light
2.2.9 Visual Needs
2.2.10 Task Lighting and Personal Control
2.2.11 Create Architectural-Grade Lighting in More Environments
2.2.12 Lower Prices for Dimmable Ballasts

2.3 Barriers and Challenges to the Use of Lighting Controls

2.3.1 Financial Barriers
2.3.2 Need to Justify Savings
2.3.3 Construction Practices
2.3.4 Insufficient Knowledge and Experience
2.3.5 Distribution Channels Not Optimal
2.3.6 Primary Responsibility for Integration
2.3.7 Cost and Competition at the Contractor Level
2.3.8 Installation Problems- Real and Perceived
2.3.9 Inadequate Application Guidelines
2.3.10 Lack of Standardization
2.3.11 Product and Technology Risks
2.3.12 Other Customer Concerns

2.4 Drivers and Trends by Building Category

2.4.1 Office
2.4.2 Retail
2.4.3 Education
2.4.3.1 Kindergarten through Secondary School
2.4.3.2 College and University Campuses
2.4.4 Healthcare
2.4.5 Hotels & Restaurants
2.4.6 Institutional/Assembly
2.4.7 Warehouse
2.4.7.1 Lighting Upgrades
2.4.7.2 Some Uses of Lighting Controls
2.4.7.3 New Approaches
2.4.8 Transport
2.4.9 Multi-Family Residential, Common Areas

2.5 Drivers and Trends by Geography

2.5.1 United States
2.5.1.1 Federal Regulation
2.5.1.1.1 Energy Policy Act of 2005
2.5.1.1.2 Energy Independence and Security Act of 2007
2.5.1.2 Building Codes
2.5.1.2.1 The Energy Policy Act of 1992
2.5.1.2.2 ASHRAE 90.1
2.5.1.2.3 2009 IECC
2.5.1.2.4 2012 IECC
2.5.1.2.5 ASHRAE 189.1 Model Green Building Code
2.5.1.2.6 State of California Codes and Regulations
2.5.1.3 Other Information
2.5.1.3.1 Carbon Emissions
2.5.1.3.2 Market Indicators and Trends
2.5.1.3.3 State of Washington
2.5.1.3.4 State of Georgia
2.5.1.4 Federal Funding- American Recovery and Reinvestment Act
2.5.1.5 Ratepayer- and Utility-Funded Programs
2.5.1.6 Rebate and Incentive Program Information
2.5.1.7 Green Building and Certification
2.5.1.8 Federal Markets
2.5.1.9 ESCOs
2.5.1.10 Distribution
2.5.2 Canada
2.5.2.1 Legislation and Regulation
2.5.2.2 Government Funding for Energy Efficiency
2.5.2.3 Green Building Certification
2.5.3 Europe (General)
2.5.3.1 EU Legislation and Regulation
2.5.3.1.1 20-20-20
2.5.3.1.2 Buildings
2.5.3.1.3 Product Labeling and Design
2.5.3.1.4 Ballasts
2.5.3.1.5 Energy Services
2.5.3.1.6 Lighting and Controls
2.5.3.2 EU Funding for Energy Efficiency
2.5.3.3 Green Building Certification
2.5.3.4 Lighting and Lighting Controls
2.5.4 Germany
2.5.4.1 Legislation and Regulation
2.5.4.1.1 Energy Conservation Regulations
2.5.4.1.2 National Energy Efficiency Action Plan
2.5.4.2 Government Funding for Energy Efficiency
2.5.5 United Kingdom
2.5.5.1 Legislation and Regulation
2.5.5.1.1 Buildings Policy
2.5.5.1.2 Building Regulations
2.5.5.1.3 Climate Change Act and The Carbon Trust
2.5.5.1.4 Carbon Reduction Commitment Energy Efficiency Scheme
2.5.5.1.5 Climate Change Levy and Agreements
2.5.5.2 Financial and Other Support
2.5.5.3 Green Building Certification
2.5.6 Other European Countries
2.5.7 Asia Pacific (General)
2.5.8 Japan
2.5.8.1 Legislation and Regulation
2.5.8.2 Green Building Certification
2.5.8.3 Financial Support for Energy Efficiency
2.5.9 India
2.5.9.1 Legislation and Regulation
2.5.9.2 Green Building Certification
2.5.10 Australia
2.5.10.1 Legislation and Regulation
2.5.10.2 Green Building Certification
2.5.10.3 Financial Support for Energy Efficiency
2.5.10.4 Lighting Controls
2.5.11 China
2.5.11.1 Legislation and Regulation
2.5.11.2 Green Building Certification
2.5.11.3 Lighting Controls
2.5.12 Other Asian Countries
2.5.12.1 Korea
2.5.12.2 Association of Southeast Asian Nations
2.5.13 Middle East
2.5.13.1 Construction Activity
2.5.13.2 Saudi Arabia
2.5.13.3 Green Building Certification
2.5.13.4 Lighting Controls
2.5.14 Latin America
2.5.14.1 Green Building Certification
2.5.14.2 Mexico’s Lighting Initiative
2.5.15 Africa
2.5.15.1 South Africa

3. Technology Issues

3.1 Introduction to Lighting Control

3.1.1 Lighting Control Strategies
3.1.2 Lighting Control Zones
3.1.3 Override Capability
3.1.4 Switching versus Dimming
3.1.5 Localized versus Centralized Control
3.1.6 Basic and Advanced Intelligent Controls

3.2 Introduction to Control Technologies

3.2.1 On/Off Controls
3.2.2 Manual Dimming Controls
3.2.3 Bi-Level or Stepped Switching
3.2.4 Scheduling and Lighting Sweeps
3.2.5 Occupancy Sensors
3.2.5.1 Savings due to Occupancy Sensors
3.2.5.2 Vacancy Sensors
3.2.6 Photosensors
3.2.6.1 Daylight Harvesting
3.2.6.2 Lumen Maintenance
3.2.6.3 Open-Loop and Closed-Loop Systems
3.2.6.4 Sidelighting and Toplighting
3.2.6.5 Installation Issues
3.2.6.6 Savings due to Photosensors
3.2.6.7 Low Penetration
3.2.7 Dimming
3.2.7.1 Stepped Dimming
3.2.7.2 Continuous Dimming
3.2.7.3 Perception of Light Level Reduction
3.2.7.4 Dimming Ballasts
3.2.8 Technologies Applied to Load Shedding
3.2.9 Technologies Applied to Personal Controls
3.2.9.1 Personal Dimming
3.2.9.2 Other Options for Personal Control
3.2.10 Technologies Applied to Task Tuning

3.3 Control System Components

3.3.1 Sensors
3.3.1.1 Occupancy Sensor Technologies
3.3.1.1.1 Passive Infrared
3.3.1.1.2 Ultrasonic
3.3.1.1.3 Acoustic
3.3.1.1.4 Dual-technology
3.3.1.1.5 Calibration
3.3.1.1.6 New Occupancy Sensor Technologies
3.3.1.2 Photosensor Technologies
3.3.1.3 False Triggering of Sensors
3.3.2 Dimming Ballasts
3.3.2.1 Rapid-Start and Programmed-Start
3.3.2.2 High Efficiency Ballasts
3.3.3 Control Signaling
3.3.3.1 Low Voltage and Line Voltage/Power Line Carrier
3.3.3.2 Analog Signaling
3.3.3.2.1 0-10VDC
3.3.3.2.2 Two-Wire Phase-Control
3.3.3.2.3 Three-Wire Phase-Control
3.3.3.2.4 Wireless Infrared
3.3.3.2.5 Analog Signaling for Actuators
3.3.3.3 Digital Signaling- Direct Digital Control
3.3.3.4 Proprietary and Open Standards
3.3.3.5 DALI
3.3.3.6 NEMA Digital Lighting Controls Open Protocol
3.3.3.7 LonWorks
3.3.3.8 KNX
3.3.3.9 DMX512
3.3.4 Other Approaches
3.3.4.1 Ballast-Level Intelligence
3.3.4.2 Distributed Intelligence
3.3.4.3 Automatic Configuration
3.3.5 Dimming Systems
3.3.5.1 Dimming Panel (for Analog Systems)
3.3.5.2 Control Station (for Analog Systems)
3.3.5.3 Master Control Station (for Digital Systems)
3.3.6 Actuators

3.4 Controlling Light Sources

3.4.1 Fluorescent Lighting
3.4.1.1 Compact Fluorescent Lamps
3.4.2 High-Intensity Discharge Lighting
3.4.2.1 Stepped Dimming
3.4.2.2 Continuous Dimming
3.4.2.3 Efficacy and Color
3.4.3 LED Lighting

3.5 Increasing Integration with Building Management Systems

3.5.1 BACnet
3.5.2 Modbus
3.5.3 LonWorks

3.6 Commissioning

3.6.1 Traditional Commissioning Tasks
3.6.2 Emerging Commissioning Tasks

3.7 Wireless Control

3.7.1 New Construction or Retrofit?
3.7.2 In-Room, or Building-Wide Wireless
3.7.3 Wireless System Technologies
3.7.3.1 ZigBee
3.7.4 EnOcean
3.7.5 Concerns with Wireless Controls
3.7.6 When Will Wireless Really Take Hold?

3.8 Standards versus Proprietary Systems

3.9 Other Technology Trends

3.9.1 Integral Controls
3.9.2 Photocontrol Trends
3.9.3 Integrated Power Metering
3.9.4 Tools
3.9.4.1 SPOT Version 4.0
3.9.4.2 Commercial Lighting Solutions
3.9.5 Waveform Modification
3.9.6 A Glimpse at the Future

3.10 Research Topics

3.10.1 Ambient Power Harvesting
3.10.2 Wireless Infrastructure for Performance Monitoring, Diagnostics, and Control for Small Commercial Buildings
3.10.3 Additional Research Topics

4. Key Industry Players

4.1 Introduction

4.2 Companies

4.2.1 Acuity Brands Controls
4.2.2 Adura Technologies
4.2.3 Beckhoff Automation
4.2.4 Cavet Technologies
4.2.5 Daintree Networks
4.2.6 Digital Lumens
4.2.7 Eaton
4.2.8 Echoflex Solutions
4.2.9 Encelium Technologies
4.2.10 ETC / Electronic Theatre Controls
4.2.11 GE Total Lighting Control
4.2.12 Honeywell Lighting Controls and Ex-Or
4.2.13 Hubbell Lighting Controls
4.2.14 Leviton
4.2.15 Lumenergi
4.2.16 Lumetric
4.2.17 Lutron
4.2.18 OSRAM Lighting Controls
4.2.19 Panasonic Electric Works
4.2.20 Philips Lightolier and Dynalite
4.2.21 Redwood Systems
4.2.22 Schneider Electric
4.2.23 WattStopper/Legrand
4.2.24 Zumtobel Group / Tridonic

4.3 Research Organizations
4.4 Industry Associations
4.5 Government- Regulators and Programs
4.6 Other Information Sources

5. Market Forecasts

5.1 Forecast Assumptions
5.2 Forecast Units of Measure

5.3 Forecast Methodology

5.3.1 Basic Controls and Advanced Controls
5.3.2 Product Costs
5.3.3 Application Areas and Building Categories
5.3.3.1 Building Categories
5.3.3.2 Applications
5.3.3.3 Application Areas by Building Category
5.3.4 Equipment for Each Application
5.3.5 Costs per Square Foot
5.3.5.1 Basic Control Systems
5.3.5.2 Advanced Control Systems
5.3.5.3 Costs per Square Foot for Application by Project Type
5.3.5.4 Example: Education Category
5.3.5.5 Costs per Square Foot by Building Category
5.3.5.6 Costs per Square Meter
5.3.5.7 Cost Decrease over Time
5.3.6 Regional Forecasts
5.3.6.1 New Construction Activity
5.3.6.2 New Construction and Retrofit Forecasts
5.3.6.3 Base Case and Aggressive Case Forecasts
5.3.7 Base Case Forecasts
5.3.7.1 New Construction Project Forecasts
5.3.7.2 Retrofit Project Forecasts
5.3.7.3 Base Case Totals and Graphs
5.3.8 Aggressive Case Forecasts

5.4 General Assumptions by Building Category

5.5 Forecasts

5.5.1 North America
5.5.2 Europe
5.5.3 Asia Pacific
5.5.4 Middle East/Africa
5.5.5 Latin America
5.5.6 World Totals

6. Company Directory
7. Acronym and Abbreviation List
8. Table of Contents
9. Table of Charts and Figures

10. Scope of Study

10.1 Report Scope
10.1.1 Building Industry Categories
10.1.2 Geography
10.1.3 Products

Sources and Methodology, Notes

List of Charts and Figures

• Lighting Controls Revenue by Building Category, World Markets: 2011-2017
• Percentage of Commercial Buildings with Energy Efficiency Efforts in Place, United States: 2009
• ESCO Industry Revenue by Technology or Project Type: 2006
• Energy Efficiency Investment and ESCO Revenue, China: 2003-2008
• Lighting Controls Revenue by Building Category, North America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, North America: 2011-2017
• Lighting Controls Revenue by Building Category, Europe: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Europe: 2011-2017
• Lighting Controls Revenue by Building Category, Asia Pacific: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Asia Pacific: 2011-2017
• Lighting Controls Revenue by Building Category, Middle East/Africa: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Middle East/Africa: 2011-2017
• Lighting Controls Revenue by Building Category, Latin America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Latin American: 2011-2017
• Lighting Controls Revenue by Building Category, World Markets: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, World Markets: 2011-2017
• Examples of Energy Usage by Building Type
• Current Approaches to Controlling Lighting Costs (Survey Response)
• Cost of Lighting Energy In Relation to Employee Costs
• Electricity Prices by Country, 1999-2007
• International Non-Residential Code Status
• Occupant Preferences for Light Levels
• Comparison of Retail Store Sizes
• Commercial State Energy Code Status: January 2011
• Relative Carbon Intensities
• NEMA Lighting Systems Index through Third Quarter 2010
• German EnEV Certificate
• Are You Considering Load Shedding as a Way to Control Lighting Energy Consumption and Costs?
• Philips Ledalite Ergolight Personal Dimming Desktop Application
• Coverage Zones of an Infrared Occupancy Sensor
• The LonWorks Mesh Network
• KNX Controls Many Building Systems
• LumiSmart Adaptive Waveform Modification

List of Tables

• Typical Energy Savings with the Use of Advanced Lighting Controls
• Examples of Lighting Power Density Requirements
• Influence of Lighting Controls on LEED V3 for New Construction
• “Overall, in what percentage of your building projects do you specify …?”
• Summary of Lighting Control Provisions in ASHRAE 90.1-2007
• Summary of Lighting Control Provisions in 2009 IECC
• Function and Benefits of Switching and Dimming
• Categories of Control Technologies
• Savings due to Occupancy Sensors in Different Types of Spaces
• Summary of Analog Dimming Methods
• Dimming Systems versus Standalone Dimmers
• Analog versus Intelligent Digital Dimming
• Features of Wireless Sensors and Controls
• Acuity Brands Controls SWOT Analysis
• Adura Technologies SWOT Analysis
• Beckhoff Automation SWOT Analysis
• Cavet Technologies SWOT Analysis
• Daintree Networks SWOT Analysis
• Digital Lumens SWOT Analysis
• Eaton SWOT Analysis
• Echoflex Solutions SWOT Analysis
• Encelium Technologies SWOT Analysis
• ETC SWOT Analysis
• GE Total Lighting Control SWOT Analysis
• Honeywell Lighting Controls and Ex-Or SWOT Analysis
• Hubbell Lighting Controls SWOT Analysis
• Leviton SWOT Analysis
• Lumenergi SWOT Analysis
• Lumetric SWOT Analysis
• Lutron SWOT Analysis
• OSRAM Lighting Controls SWOT Analysis
• Panasonic Electric Works SWOT Analysis
• Philips Lightolier and Dynalite SWOT Analysis
• Redwood Systems SWOT Analysis
• Schneider Electric SWOT Analysis
• WattStopper/Legrand SWOT Analysis
• Zumtobel Group/Tridonic SWOT Analysis
• Research Organizations
• Industry Associations
• Regulators and Programs
• Other Information Sources
• Components of Pike Research Basic and Advanced Lighting Control Systems
• Device Costs Used in Pike Research Lighting Controls Forecast Model
• Allocation of Space in Office and Education Buildings by Application
• Number of Ballasts and Occupancy Sensors for Typical Application Space
• Dimming Equipment for Typical Application Space
• Costs Per ft2 for Each Application by Project Type
• Example: Advanced Retrofit Project per ft2 of Education Building Space
• Costs Per ft2 for Each Building Category by Project Type
• Indexes Used to Reflect Downward Trend in Costs over the Forecast Period
• Costs per m2 by Building Category, Basic Controls: 2011-2017
• Costs per m2 by Building Category, Advanced Controls, New Construction Projects: 2011-2017
• Costs per m2 by Building Category, Advanced Controls, Retrofit Projects: 2011-2017
• Lighting Controls Revenue by Building Category, North America: 2011-2017
• Lighting Controls Revenue by Building Category, North America: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, North America: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, North America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, North America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, New Construction, North America: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, North America: 2011-2017
• Lighting Controls Revenue by Building Category, Europe: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, Europe: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, Europe: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Europe: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, Europe: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, Europe: 2011-2017
• Lighting Controls Base Revenue by Building Category, Asia Pacific: 2011-2017
• Lighting Controls Base Revenue by Building Category, New Construction, Asia Pacific: 2011-2017
• Lighting Controls Base Revenue by Building Category, Retrofit, Asia Pacific: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Asia Pacific: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, New Construction, Asia Pacific: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Retrofit, Asia Pacific: 2011-2017
• Lighting Controls Revenue by Building Category, Middle Eastern / Africa: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, Middle Eastern / Africa: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, Middle Eastern / Africa: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Middle Eastern / Africa: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, New Construction, Middle Eastern / Africa: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Retrofit, Middle Eastern / Africa: 2011-2017
• Lighting Controls Revenue by Building Category, Latin America: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, Latin America: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, Latin America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Latin America: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, New Construction, Latin America 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Retrofit, Latin American Markets: 2011-2017
• Lighting Controls Revenue by Building Category, World Markets: 2011-2017
• Lighting Controls Revenue by Building Category, New Construction, World Markets: 2011-2017
• Lighting Controls Revenue by Building Category, Retrofit, World Markets: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, World Markets: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, New Construction, World Markets: 2011-2017
• Lighting Controls Aggressive Revenue by Building Category, Retrofit, World Markets: 2011-2017

高度調光市場は2016年に2倍に拡大して26億ドルに

2011年3月11日
照明は世界の電力消費の17.5％を占めているが、商業ビルでは電源スイッチによる以外の調光はほとんど行われていない。高度調光は、照明システムを必要な空間に応じて反応させることができ、現在使用している空間であるか否かや、自然光がどの程度はいっているかなどに応じて、人工光を必要なだけ提供することができる。米国の環境エネルギーなどの地球環境保護に関するクリーン技術関連市場の専門調査会社パイクリサーチ社の調査レポート「商業ビル向けの自動調光市場の分析と予測:商業ビルや集合住宅の共用部分のセンサと制御技術 ー Intelligent Lighting Controls for Commercial Buildings:Sensors and Control Technology for Commercial Buildings and Common Areas of Multi-Family Residential Properties: Market Analysis and Forecasts」は、高度調光市場は大きく成長する可能性があり、標準的なシナリオにおいて、2016年には13億ドルから26億ドルへと2倍に成長するだろうと報告している。積極的なシナリオでは、世界の高度調光市場は2016年には35億ドルにまで成長するだろうと予測している。

「高度調光市場は多くのトレンドによって採用が促進している。エネルギー消費の削減の機運とともに、グリーンな建造物の確立のためには高度調光システムが有効という認識が高まり、豊かな自然光の利用への関心が高まり、ビジネス環境における照明のレベルをよりよく管理したいという要求が高まっている」とパイクリサーチ社の常務Clint Wheelock氏は語る。

さらに、調光システムのネットワーク化と集中管理が進めば、ビルのエネルギー管理システム(BEMS)やスマートグリッドなどのアプリケーションとも一緒に運用することができるようになるだろう。またさらに、有線システムが採用されている従来ではあまり現実的ではなかった建造物においても、無線技術によって調光システムの採用が進むかもしれない。(後略)

[プレスリリース原文]
Intelligent Lighting Controls Market Will Double in Size to $2.6 Billion by 2016