Building Energy Management Systems Market, Analysis & Forecast - HARD COPY

The growing world economy and population has led to an increase in human settlements and industries which has resulted in increased pollution levels and other forms of CO2 emissions at an alarming rate. United Nations Environment Programme (UNEP) reported that approximately 80 to 90% of the energy consumption in buildings is utilized during a building’s operational phase. The remaining 10 to 20%, is used during extraction and processing of raw materials along with construction.

The global population was growing at 1.13% as of 2016 and the global economic growth rate is 3.4%. Since the economic growth rate is currently higher than the population growth rate, the average standard of living is gradually increasing in the recent years. People are spending greater degree of money on improving their lifestyles, with facilities such as: - better lighting, air conditioning and other consumer electronics which consume high electricity. The increasing prices of electrical energy and high electrical energy consumption are some factors that has led building owners to switch towards energy management systems.

The report titled “Global Building Energy Management Systems Market” provides an in-depth analysis of the key development strategies and market trend dynamics which includes drivers, challenges, and opportunities prevailing in both the industries. The report provides an extensive insight into various forms of developments, trends and key participants. While highlighting the key driving and restraining forces for this dynamic market, the report also provides a comprehensive in-depth analysis of the Porter’s five forces model of the building energy management systems market and an assessment of the factors governing it.
The Global building energy management systems market estimation has been built on detailed assumptions and limitations. The market has been estimated by the type of components and services, their usage across different applications, and geographical analysis.
The report profiles 26 organizations across different geographies that allows the readers to gain an insight into the various industry trends.
Key questions answered in the report:
• What are the major market drivers, challenges and opportunities in the global building energy management systems market?
• What is the supply chain for the global building energy management systems market?
• What is the market value of building energy management systems market for different components (hardware and software) and services?
• What is the market value of building energy management systems market for different applications on the basis of residential, commercial and industrial?
• What is the market value of building energy management systems market on the basis of different geographical regions?
• Which geographical location will dominate the building energy management systems market?
• What will be the growth rate of different segments of the building energy management systems market during the forecast period?
• Who are the key players for the building energy management systems market?
• What are the key developmental strategies implemented by the key players to stand out in this market?
• What is the market share of the leading players in the global building energy management systems market for 2016?
• How attractive is the market for different stakeholders present in the market by using Porter’s Five Forces model?
Executive Summary
1 Research Scope and Methodology
1.1 Scope of the Report
1.2 Global Building Energy Management Systems Market Research Methodology
2 Market Dynamics
2.1 Market Drivers
2.1.1 Rising Energy Prices and Consumption
2.1.2 Issue of Global Warming
2.2 Market Challenges
2.2.1 High Initial Investment
2.2.2 Implementation Difficulty within Existing Systems
2.3 Market Opportunities
2.3.1 Construction of Smart Cities and Buildings
2.3.2 Emergence of IoT and Cloud based Solutions
3 Competitive Insights
3.1 Key Market Developments & Strategies
3.1.1 Product Launches and Developments
3.1.2 Partnerships, Collaborations, Agreements and Contracts
3.1.3 Business Expansion
3.1.4 Acquisitions
3.2 Industry Attractiveness
3.3 Market Share Analysis
4 Industry Analysis
4.1 Patent Analysis
4.2 Consortium, Associations and Regulatory Bodies
4.3 Supply Chain Analysis
5 The Global Building Energy Management Systems Market, Analysis and Forecast
5.1 Assumptions and Limitations for Analysis and Forecast of the Global Building Energy Management Systems Market
5.2 Market Overview
5.3 The Global Building Energy Management Systems Market by Components and Services
5.3.1 Hardware
5.3.2 Software
5.3.3 Services
5.4 The Global Building Energy Management Systems Market by End User
5.4.1 Residential End User
5.4.2 Commercial End User
5.4.3 Industrial End User
5.5 The Global Building Energy Management Systems (BEMS) Market by Geography
5.5.1 North America
5.5.2 Europe
5.5.3 Asia Pacific (APAC)
5.5.4 Rest of the World (RoW)
6 Company Profiles
6.1 ABB Ltd.
6.1.1 Overview
6.1.2 Financials
6.1.2.1 Financial Summary
6.1.3 SWOT Analysis
6.2 Azbil Corporation
6.2.1 Overview
6.2.2 Financials
6.2.2.1 Financial Summary
6.2.3 SWOT Analysis
6.3 BuildingIQ, Inc.
6.3.1 Overview
6.3.2 Financials
6.3.2.1 Financial Summary
6.3.3 SWOT Analysis
6.4 C3 IoT
6.4.1 Overview
6.4.2 Corporate Summary
6.4.3 SWOT Analysis
6.5 Cylon Controls Ltd.
6.5.1 Overview
6.5.2 Corporate Summary
6.6 Echelon Corporation
6.6.1 Overview
6.6.2 Financials
6.6.2.1 Financial Summary
6.6.3 SWOT Analysis
6.7 EnerNOC, Inc.
6.7.1 Overview
6.7.2 Financials
6.7.2.1 Financial Summary
6.7.3 SWOT Analysis
6.8 eSight Energy
6.8.1 Overview
6.8.2 Corporate Summary
6.9 FirstFuel Software, Inc.
6.9.1 Overview
6.9.2 Corporate Summary
6.10 GridPoint, Inc.
6.10.1 Overview
6.10.2 Corporate Summary
6.11 Jones Lang LaSalle Incorporated
6.11.1 Overview
6.11.2 Financials
6.11.2.1 Financial Summary
6.11.3 SWOT Analysis
6.12 Ingersoll-Rand PLC
6.12.1 Overview
6.12.2 Financials
6.12.2.1 Financial Summary
6.12.3 SWOT Analysis
6.13 Optimum Energy LLC
6.13.1 Overview
6.13.2 Corporate Summary
6.13.3 SWOT Analysis
6.14 International Business Machines Corporation
6.14.1 Overview
6.14.2 Financials
6.14.2.1 Financial Summary
6.14.3 SWOT Analysis
6.15 Siemens AG
6.15.1 Overview
6.15.2 Financials
6.15.2.1 Financial Summary
6.15.3 SWOT Analysis
6.16 Ecova, Inc.
6.16.1 Overview
16.2 Corporate Summary
6.17 Honeywell International Inc.
6.17.1 Overview
6.17.2 Financials
6.17.2.1 Financial Summary
6.17.3 SWOT Analysis
6.18 SkyFoundry LLC
6.18.1 Overview
6.18.2 Corporate Summary
6.19 Verisae, Inc.
6.19.1 Overview
6.19.2 Corporate Summary
6.20 Schneider Electric
6.20.1 Overview
6.20.2 Financials
6.20.2.1 Financial Summary
6.20.3 SWOT Analysis
6.21 Daikin
6.21.1 Overview
21.1 Financials
6.21.1.1 Financial Summary
6.21.2 SWOT Analysis
6.22 Daintree Networks
6.22.1 Overview
6.22.2 Corporate Summary
6.23 Johnson Controls, Inc.
6.23.1 Overview
6.23.2 Financials
6.23.2.1 Financial Summary
6.23.3 SWOT Analysis
6.24 General Electric
6.24.1 Company Overview
6.25 Powerhouse Dynamics
6.25.1 Overview
6.26 Switch Automation
6.26.1 Overview
List of Tables
Table 1 Electric Power Consumption in Some Countries, 2009-2013 (KWH Per Capita)
Table 2 Some BEMS Projects Implementation across different Regions
Table 2.1 Electricity Consumption in Major Countries, by kWh Per Capita (2011-2013)
Table 2.2 Few of the Global Smart City Plans (2016)
Table 3.1 Product Launches and Developments
Table 3.2 Partnerships, Collaborations, Agreements and Contracts
Table 3.3 Business Expansions
Table 3.4 Acquisitions
Table 3.5 Buyers and Suppliers in Global Building Energy Management Systems Market
Table 3.6 Key Factors Considered for threat from New Entrants in Global Building Energy Management Systems Market
Table 3.7 Key Factors Affecting Bargaining Power of Buyers in the Global Building Energy Management Systems Market
Table 3.8 Key Factors affecting the Bargaining Power of Suppliers in the Global Building Energy Management Systems Market
Table 3.9 Key Factors affecting Threat of Substitute Products or Services in the Global Building Energy Management Systems Market
Table 3.10 Key Factors determining Rivalry among Existing Firms in the Global Building Energy Management Systems Market
Table 3.11 Market Share Analysis
Table 4.1 Example of Some Recent Patents (2015-Feb, 2017)
Table 4.2 Examples of Some Regulatory Bodies, Associations, & Consortia
Table 5.1 Building Energy Management Systems Market Value by Components and Services, 2016-2023
Table 5.2 Building Energy Management Systems Market Value for Hardware by End User, 2016-2023
Table 5.3 Building Energy Management Systems Market Value for Hardware by Geography, 2016-2023
Table 5.4 Building Energy Management Systems Software Market Value by End User, 2016-2023
Table 5.5 Building Energy Management Systems Software Market Value by Geography, 2016-2023
Table 5.6 Building Energy Management Systems Market Value for Services by End Users, 2016-2023
Table 5.7 Building Energy Management Systems Market Value for Services by Geography, 2016-2023
Table 5.8 Building Energy Management Systems Market Value by End User, 2016-2023
Table 5.9 BEMS Market Value for Residential End Users by Components and Services, 2016-2023
Table 5.10 BEMS Market Value for Residential End user by Geography, 2016-2023
Table 5.11 BEMS Market Value for Commercial End Users by Components and Services, 2016-2023
Table 5.12 BEMS Market Value for Commercial End users by Geography, 2016-2023
Table 5.13 BEMS Market Value for Industrial End Users by Components and Services, 2016-2023
Table 5.14 BEMS Market Value for Industrial End Users by Geography, 2016-2023
Table 5.15 Building Energy Management Systems Market Value by Geography, 2016-2023
Table 5.16 Electric Power Consumption in North America, 2009-2013 (KWH per capita)
Table 5.18 North America Building Energy Management Systems Market Value by Components and Services Type, 2016-2023
Table 5.19 North America Building Energy Management Systems Market Value by End Users, 2016-2023
Table 5.20 Electric Power Consumption for major Countries in the EU Region, 2009-2013 (KWH per capita)
Table 5.21 Key Standards/Regulatory Acts in Europe
Table 5.22 Europe Building Energy Management Systems Market Value by Components and Services, 2016-2023
Table 5.23 Europe Building Energy Management Systems Market Value by End Users, 2016-2023
Table 5.24 Electric Power Consumption for major Countries in the APAC Region, 2009-2013 (KWH per capita)
Table 5.25 Key Standards/Regulatory Acts in the APAC Region
Table 5.26 APAC Building Energy Management Systems Market Value by Components and Services, 2016-2023
Table 5.27 APAC Building Energy Management Systems Market Value by End Users, 2016-2023
Table 5.28 Electric Power Consumption for major Countries in the RoW Region, 2009-2013 (KWH per capita)
Table 5.29 Key Standards/Regulatory Acts in the RoW Region
Table 5.30 RoW Building Energy Management Systems Market Value by Components and Services, 2016-2023
Table 5.31 RoW Building Energy Management Systems Market Value by End Users, 2016-2023
List of Figures
Figure 1 Main Objectives of the BEMS
Figure 2 Global BEMS Market Size ($Billion)
Figure 3 The BEMS Components and Services Market Value ($Billion), 2016 and 2023
Figure 4 The BEMS Market by End Users ($Million), 2016 and 2023
Figure 5 The BEMS Market value ($Billion) by Region, 2016 and 2023
Figure 6 Recent Market Development Strategy Snapshot Analysis (2014-March 2017)
Figure 1.1 Market Segmentation
Figure 1.2 Secondary Data Sources
Figure 1.3 Top Down Approach
Figure 1.4 Global Building Energy Management Systems Market Influencing Factors
Figure 1.5 Assumptions and Limitations
Figure 2.1 Market Dynamics Snapshot
Figure 2.2 Market Drivers Impact Analysis Snapshot
Figure 2.3 World Electricity Consumption in kWh per Capita (1995-2013)
Figure 2.4 Percentage Estimation of the Energy Consumption in Buildings
Figure 2.5 Market Challenges Impact Analysis Snapshot
Figure 2.6 Key Challenges faced by an Organization while Implementing BEMS in an Existing Building
Figure 2.7 Market Opportunities Impact Analysis Snapshot
Figure 2.8 Cloud Based BEMS Energy Savings Measures
Figure 3.1 Competitive Insights
Figure 3.2 Recent Market Development Strategy Snapshot Analysis (2014-March, 2017)
Figure 3.3 Region (%share) of BEMS Market Development Strategies
Figure 3.4 Region Wise (% Share) of the Product Launches and Developments
Figure 3.5 Region Wise (% Share) of the Partnerships and Collaborations
Figure 3.6 Business Expansion
Figure 3.7 Business Acquisitions
Figure 3.8 Porter’s Five Forces Analysis for Global Building Energy Management Systems Market
Figure 4.1 Industry Analysis Segments
Figure 4.2 Supply Chain Analysis
Figure 5.1 BEMS Architecture
Figure 5.2 Global Building Energy Management Systems Market Classification
Figure 5.3 Global Building Energy Management Systems Market Value, 2016-2023
Figure 5.4 Building Energy Management Systems Components and Services
Figure 5.5 The BEMS Components and Services Market value ($Billion), 2016 and 2023
Figure 5.6 BEMS Hardware covered for Market Estimation and Forecast
Figure 5.7 Advantages of BEMS Hardware Components
Figure 5.8 The Building Energy Management Systems Market Value for Hardware by End User ($Million), 2016 and 2023
Figure 5.9 Building Energy Management Systems Market Hardware Value by Region ($Million), 2016 and 2023
Figure 5.10 BEMS Software
Figure 5.11 The BEMS Software Market value by End User ($Million), 2016 and 2023
Figure 5.12 The BEMS Software Market value by Region ($Million), 2016 and 2023
Figure 5.13 BEMS Services
Figure 5.14 BEMS Services Market Value by End Users ($Million), 2016 and 2022
Figure 5.15 BEMS Services Market Value by Region ($Million), 2016 and 2023
Figure 5.16 Building Energy Management Systems Market by End User
Figure 5.17 BEMS Market value ($Million) by End User, (2016-2023)
Figure 5.18 The BEMS Market Value for Residential End user by Components and Services ($Million), (2016 and 2023)
Figure 5.19 BEMS Market Value for Residential End User by Region ($Million), (2016 and 2023)
Figure 5.20 BEMS Market Value for Commercial End Users by Components and Service ($Million), (2016 and 2023)
Figure 5.21 BEMS Market Value for Commercial End Users by Geography ($Million), (2016 and 2023)
Figure 5.22 BEMS Market Value for Industrial End Users by Components and Services ($Million), (2016 and 2023)
Figure 5.23 BEMS Market Value for Industrial End Users by Geography ($Million), (2016 and 2023)
Figure 5.24 Global Building Energy Management Systems Market by Geography
Figure 5.25 Global Building Energy Management Systems Market Value ($Million) by Geography, 2016 and 2023
Figure 5.26 Size (Square Feet) of Commercial Buildings
Figure 5.27 Percentage Share of Major Energy Sources used in Commercial Buildings
Figure 5.28 Top Five Energy Consuming Building Categories across the Commercial Buildings
Figure 5.29 Canada’s Energy Usage by Various Sectors
Figure 5.30 Mexico Energy Consumption across Building Sector
Figure 5.31 North America Building Energy Management Systems Market Value ($Million), by Components and Services, 2016 and 2023
Figure 5.32 North America Building Energy Management Systems Market Value by End Users ($Million), 2016 and 2023
Figure 5.33 Reasons for Lack of Energy Efficiency in the European Building Sector
Figure 5.34 Percentage Split of Total Floor Area of Buildings by Type
Figure 5.35 Europe Building Energy Management Systems Market Value ($Million) by Components and Services, 2016 and 2023
Figure 5.36 Europe Building Energy Management Systems Market Value ($Million), by End Users, 2016 and 2023
Figure 5.37 APAC Building Energy Management Systems Market Value ($Million) by Components and Services, 2016 and 2023
Figure 5.38 APAC Building Energy Management Systems Market Value ($Million), by End Users, 2016 and 2023
Figure 5.39 RoW Building Energy Management Systems Market Value ($Million), by Components and Services, 2016 and 2023
Figure 5.40 RoW Building Energy Management Systems Market Value ($Million), by End Users, 2016 and 2023
Figure 6.1 ABB Ltd.: Overall Financials (2014–2016)
Figure 6.2 ABB Ltd.: Net Revenue by Region (2014-2016)
Figure 6.3 ABB Ltd.: Net Revenue by Business Segment (2014-2016)
Figure 6.4 ABB Ltd.: SWOT Analysis
Figure 6.5 Azbil Corporation: Overall Financials (2014–2016)
Figure 6.6 Azbil Corporation: Net Revenue by Region (2014-2016)
Figure 6.7 Azbil Corporation: Net Revenue by Business Segment (2014-2016)
Figure 6.8 Azbil Corporation: SWOT Analysis
Figure 6.9 BuildingIQ, Inc.: Overall Financials (2014–2016)
Figure 6.10 BuildingIQ, Inc.: Net Revenue by Region (2014-2016)
Figure 6.11 BuildingIQ, Inc.: Net Revenue by Business Segments (2016)
Figure 6.12 BuildingIQ, Inc.: SWOT Analysis
Figure 6.13 Echelon Corporation: Overall Financials (2014–2016)
Figure 6.14 Echelon Corporation: Net Revenue by Region (2014-2016)
Figure 6.15 Echelon Corporation: SWOT Analysis
Figure 6.16 EnerNOC, Inc.: Overall Financials (2014–2016)
Figure 6.17 EnerNOC, Inc.: Net Revenue by Region (2014-2016)
Figure 6.18 EnerNOC, Inc.: Net Revenue by Business Segment (2014-2016)
Figure 6.19 EnerNOC, Inc.: SWOT Analysis
Figure 6.20 Jones Lang LaSalle Incorporated: Overall Financials (2014–2016)
Figure 6.21 Jones Lang LaSalle Incorporated: Net Revenue by Region (2014-2016)
Figure 6.22 Jones Lang LaSalle Incorporated: Net Revenue by Business Segment (2014-2016)
Figure 6.23 Jones Lang LaSalle Incorporated: SWOT Analysis
Figure 6.24 Ingersoll-Rand PLC: Overall Financials (2014–2016)
Figure 6.25 Ingersoll-Rand PLC: Net Revenue by Region (2014-2016)
Figure 6.26 Ingersoll-Rand PLC: Net Revenue by Business Segment (2014-2016)
Figure 6.27 Ingersoll-Rand PLC: SWOT Analysis
Figure 6.28 International Business Machines Corporation: Overall Financials (2014–2016)
Figure 6.29 International Business Machines Corporation: Net Revenue by Region (2014-2016)
Figure 6.30 International Business Machines Corporation: SWOT Analysis
Figure 6.31 Siemens AG: Overall Financials (2014–2016)
Figure 6.32 Siemens AG: Net Revenue by Region (2014-2016)
Figure 6.33 Siemens AG: Net Revenue by Business Segment (2014-2016)
Figure 6.34 Siemens AG: SWOT Analysis
Figure 6.35 Honeywell International Inc.: Overall Financials (2014–2016)
Figure 6.36 Honeywell International Inc.: Net Revenue by Region (2014-2016)
Figure 6.37 Honeywell International Inc.: Net Revenue by Business Segment (2014-2016)
Figure 6.38 Honeywell International Inc.: SWOT Analysis
Figure 6.39 Schneider Electric: Overall Financials (2014–2016)
Figure 6.40 Schneider Electric: Net Revenue by Region (2014-2016)
Figure 6.41 Schneider Electric: Net Revenue by Business Segment (2014-2016)
Figure 6.42 Schneider Electric: SWOT Analysis
Figure 6.43 Daikin: Overall Financials (2014–2016)
Figure 6.44 Daikin: Net Revenue by Region (2014-2016)
Figure 6.45 Daikin: Net Revenue by Business Segment (2014-2016)
Figure 6.46 Daikin: SWOT Analysis
Figure 6.47 Johnson Control, Inc.: Overall Financials (2014–2016)
Figure 6.48 Johnson Controls, Inc.: Net Revenue by Region (2014-2016)
Figure 6.49 Johnson Controls, Inc.: Net Revenue by Business Segment (2014-2016)
Figure 6.50 Johnson Controls, Inc.: SWOT Analysis
Increased level of energy consumption in the present era has gradually led to negative global environmental effects such as depletion of natural resources, global warming, and degradation of environment, among others. Sustainable development in the future would largely depend upon the efficient utilization of the available resources, therefore, understanding the importance of energy efficiency is crucial. Energy efficiency essentially refers to cost effective utilization of energy whereby energy waste and energy consumption is relatively minimized. Energy efficiency is critical for global economic and social development, therefore, it is essential to realize its significance. Higher energy efficiency aid in minimizing an organization’s operating cost and enhancing its profitability through better energy consumption management.
The global building energy management systems market is expected to reach $9.32 billion by 2023. The increasing demand for reduction in energy consumption and greenhouse gas emissions along with concerns over climatic changes are some of the factors driving the overall market growth for this industry.
Services acquired major revenue because of the understanding of the BEMS consulting and installation required by the end users across different buildings. The benefits associated with BEMS hardware such as reduction in buildings’ energy consumption by 20%-30%, reduction of payback period, along with automatic control of the functions of the buildings will drive the market during the forecast period. BEMS software utilize browser interfaces to provide a dynamic view of the building energy consumptions in order to enhance energy management and its usage. Access to this energy consumption data opens up new opportunities for building owners to enhance the operation of their systems, reduce costs, and validate investments in energy savings measures and system upgrades.
Residential buildings account for approximately 40% of the total energy consumption. The prospective savings of energy efficiency in the residential vertical can substantially contribute to a worldwide reduction of energy consumption. Energy savings across the residential sector reduces the demand for energy which significantly contribute to a nation’s compliance with regulatory targets for the reduction of greenhouse gas emissions. The growth in the commercial application will be led by the increasing demand for energy security and sustainable development, along with environmental and social benefits.
Commercial application vertical includes building types such as offices (government and private), retail stores, institutions (schools, colleges and universities), hospitals, shopping malls and hotels, among others. Approximately 30% of the energy resources on an average is wasted by the commercial buildings.
North America dominated the global market in 2016. In the U.S. alone, organizations spend $100 billion on the energy of their buildings. In large urban areas such as New York and Chicago, energy consumption exceeds 70%. The vast majority of the current building stocks, specifically commercial buildings, will cross over 75% of the existing buildings in place by 2040. The APAC region is estimated to grow at a highest CAGR from 2017-2023 owing to development of smart cities and adoption of green technologies.
North America
Europe
APAC
RoW
energy management, building energy management, energy management systems, building energy management systems, energy management systems market, building energy management systems market
According to a new market intelligence report by BIS Research, titled "Global Building Energy Management Systems Market - Analysis and Forecast, 2017-2023", the global biologics drug discovery market was estimated to be $4.95 billion in 2016 and is estimated to grow over $9.32 billion by 2023. The increasing demand for reduction in energy consumption and greenhouse gas emissions along with concerns over climatic changes are some of the factors driving the overall market growth for this industry.
Browse 48 market Data Tables and 117 Figures spread through 212 Pages and in-depth TOC on "Global Building Energy Management Systems Market”
BIS Research Report:
In 2016, Buildings acquired 40 percent of energy consumption in most countries and consumption is rising. The global population was growing at 1.13% as of 2016 and the global economic growth rate is 3.4%. Since the economic growth rate is currently higher than the population growth rate, the average standard of living is gradually increasing in the recent years. People are spending a greater degree of money on improving their lifestyles, with facilities such as - better lighting, air conditioning and other consumer electronics which consume high electricity. The increasing prices of electrical energy and high electrical energy consumption are some factors that have led building owners to switch towards energy management systems.
According to the U.S. Department of Energy's Energy Information Administration (EIA), the efficient utilization of the BEMS systems in buildings reduces 80% of the nation's electricity expenditure and 40% of the energy consumption annually.
According to Esha Bhatia, an analyst at BIS Research "Urbanisation has resulted in increased consumption of electricity and CO2 emissions in the cities. In large urban areas such as New York and Chicago, energy consumption exceeds 70%. The vast majority of the current building stocks, specifically commercial buildings, will cross over 75% of the existing buildings in place by 2040. Buildings consume approximately 36% of the total energy consumption in the European Union (EU), 66% of which is in the residential sector. 70% of the building stock in the EU region is still energy inefficient. Different countries' regulatory bodies and governments define their own set of norms and standards for making their economy energy efficient. For instance, in the U.S., in 2016, Obama government set a clean energy target for North America to generate 50% of the electricity through non-polluting resources by 2025.For the European Union (EU) region, European Commission has set a target of 20% energy efficiency by 2020. Similarly, Japan aims to achieve 30% enhancement in energy efficiency by 2030. The increasing levels of interest in the energy efficiency are expected to drive the BEMS market to grow at a CAGR of 11.14% during the forecast period".
The market report provides a detailed analysis of the recent trends influencing the market, along with a comprehensive study of the future trends and developments. It also includes a competitive analysis of the leading players in the industry, including corporate overview, financials, financial summary and SWOT analysis. The overall market has been segmented by components and services along with end users. The report also includes a comprehensive section on the geographical analysis which has been sub segmented into 4 major regions namely: North America, Europe, Asia Pacific and Rest of the World (RoW).
This report is a meticulous compilation of research on more than 50 major players in the building energy management systems industry. Moreover, it draws upon insights from in-depth interviews with key opinion leaders of more than 15 leading companies, market participants, and vendors. The report also profiles around 26 companies, which are leading solution providers, including Honeywell, Schneider Electric, Johnson Controls, and Siemens, among others.
ABB Ltd.
Azbil Corporation
BuildingIQ, Inc.
C3 IoT
Cylon Controls Ltd.
EnerNOC, Inc.
eSight Energy
GridPoint, Inc.
FirstFuel Software, Inc.
Jones Lang LaSalle Incorporated
Ingersoll-Rand PLC
Optimum Energy LLC
International Business Machines Corporation
Ecova, Inc.
Honeywell International Inc.
SkyFoundry LLC
Johnson Controls, Inc.
Global Building Energy Management Systems Market to Reach $9.32 Billion by 2023, Reports BIS Research