2018-2025 Global Electricity Submetering For Smart Grid Market Professional Survey Report Trends & Forecasts: Profiling Key Players Market share

Reportsformarkets.com: This report studies the global Electricity Submetering Smart Grid market status and forecast, categorizes the global Electricity Submetering For Smart Grid market size (value & volume) by manufacturers, type, application, and region. This report focuses on the top manufacturers in North America, Europe, Japan, China, India, Southeast Asia and other regions (Central & South America, and Middle East & Africa).

A smart meter is an electronic device that records consumption of electric energy and communicates the information to the electricity supplier for monitoring and billing. Smart meters typically record energy hourly or more frequently, and report at least daily. Smart meters enable two-way communication between the meter and the central system. Such an advanced metering infrastructure (AMI) differs from automatic meter reading (AMR) in that it enables two-way communication between the meter and the supplier. Communications from the meter to the network may be wireless, or via fixed wired connections such as power line carrier (PLC). Wireless communication options in common use include cellular communications (which can be expensive), Wi-Fi (readily available), wireless ad hoc networks over Wi-Fi, wireless mesh networks, low power long range wireless (LORA), ZigBee (low power low data rate wireless), and Wi-SUN (Smart Utility Networks).

First of all, since the inception of electricity deregulation and market-driven pricing throughout the world, utilities have been looking for a means to match consumption with generation. Non-smart electrical and gas meters only measure total consumption, providing no information of when the energy was consumed. Smart meters provide a way of measuring this site-specific information, allowing utility companies to charge different prices for consumption according to the time of day and the season. Second, the markets in Europe and North America will be driven primarily by regional targets for energy-efficiency and reductions in energy.The large untapped consumer base and the increasing need to be energy efficient is expected to drive the submeter market in the Asia-Pacific region. In addition，high power cost, energy efficiency strategies and the need to partition utility power bills among individual customer for individual force utilization has driven the development of the business sector.

The global Electricity Submetering For Smart Grid market is valued at xx million US$ in 2017 and will reach xx million US$ by the end of 2025, growing at a CAGR of xx% during 2018-2025.

The major manufacturers covered in this report
ABB
Cisco
Siemens
IBM
E-Mon
Honeywell International
Schneider Electric
Eaton Corporation
...
On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into
Class 100 Meter
Class 200 Meter
Class 320 Meter
Class 340 Meter
Class 500 Meter

By Application, the market can be split into
Utilities
Home

The study objectives of this report are:

To analyze and study the global Electricity Submetering For Smart Grid capacity, production, value, consumption, status (2013-2017) and forecast (2018-2025);

Focuses on the key Electricity Submetering For Smart Grid manufacturers, to study the capacity, production, value, market share and development plans in future.

Focuses on the global key manufacturers, to define, describe and analyze the market competition landscape, SWOT analysis.

To define, describe and forecast the market by type, application and region.

To analyze the global and key regions market potential and advantage, opportunity and challenge, restraints and risks.

To identify significant trends and factors driving or inhibiting the market growth.

To analyze the opportunities in the market for stakeholders by identifying the high growth segments.

To strategically analyze each submarket with respect to individual growth trend and their contribution to the market.

To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market.

To strategically profile the key players and comprehensively analyze their growth strategies.

In this study, the years considered to estimate the market size of Electricity Submetering For Smart Grid are as follows:
History Year: 2013-2017
Base Year: 2017
Estimated Year: 2018
Forecast Year 2018 to 2025
For the data information by region, company, type and application, 2017 is considered as the base year. Whenever data information was unavailable for the base year, the prior year has been considered.

Key Stakeholders
Electricity Submetering For Smart Grid Manufacturers
Electricity Submetering For Smart Grid Distributors/Traders/Wholesalers
Electricity Submetering For Smart Grid Subcomponent Manufacturers
industry Association
Downstream Vendors

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Snapshot of Table of Contents

Global Electricity Submetering For Smart Grid Market Professional Survey Report 2018

1 Industry Overview of Electricity Submetering For Smart Grid
1.1 Definition and Specifications of Electricity Submetering For Smart Grid
1.1.1 Definition of Electricity Submetering For Smart Grid
1.1.2 Specifications of Electricity Submetering For Smart Grid
1.2 Classification of Electricity Submetering For Smart Grid
1.2.1 Class 100 Meter
1.2.2 Class 200 Meter
1.2.3 Class 320 Meter
1.2.4 Class 340 Meter
1.2.5 Class 500 Meter
1.3 Applications of Electricity Submetering For Smart Grid
1.3.1 Utilities
1.3.2 Home
1.4 Market Segment by Regions
1.4.1 North America
1.4.2 Europe
1.4.3 China
1.4.4 Japan
1.4.5 Southeast Asia
1.4.6 India

2 Manufacturing Cost Structure Analysis of Electricity Submetering For Smart Grid
2.1 Raw Material and Suppliers
2.2 Manufacturing Cost Structure Analysis of Electricity Submetering For Smart Grid
2.3 Manufacturing Process Analysis of Electricity Submetering For Smart Grid
2.4 Industry Chain Structure of Electricity Submetering For Smart Grid

3 Technical Data and Manufacturing Plants Analysis of Electricity Submetering For Smart Grid
3.1 Capacity and Commercial Production Date of Global Electricity Submetering For Smart Grid Major manufacturers in 2017
3.2 Manufacturing Plants Distribution of Global Electricity Submetering For Smart Grid Major Manufacturers in 2017
3.3 R&D Status and Technology Source of Global Electricity Submetering For Smart Grid Major Manufacturers in 2017
3.4 Raw Materials Sources Analysis of Global Electricity Submetering For Smart Grid Major Manufacturers in 2017

4 Global Electricity Submetering For Smart Grid Overall Market Overview
4.1 2013-2018E Overall Market Analysis
4.2 Capacity Analysis
4.2.1 2013-2018E Global Electricity Submetering For Smart Grid Capacity and Growth Rate Analysis
4.2.2 2017 Electricity Submetering For Smart Grid Capacity Analysis (Company Segment)
4.3 Sales Analysis
4.3.1 2013-2018E Global Electricity Submetering For Smart Grid Sales and Growth Rate Analysis
4.3.2 2017 Electricity Submetering For Smart Grid Sales Analysis (Company Segment)
4.4 Sales Price Analysis
4.4.1 2013-2018E Global Electricity Submetering For Smart Grid Sales Price
4.4.2 2017 Electricity Submetering For Smart Grid Sales Price Analysis (Company Segment)

5 Electricity Submetering For Smart Grid Regional Market Analysis
5.1 North America Electricity Submetering For Smart Grid Market Analysis
5.1.1 North America Electricity Submetering For Smart Grid Market Overview
5.1.2 North America 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, export, Local Consumption Analysis
5.1.3 North America 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.1.4 North America 2017 Electricity Submetering For Smart Grid Market Share Analysis
5.2 Europe Electricity Submetering For Smart Grid Market Analysis
5.2.1 Europe Electricity Submetering For Smart Grid Market Overview
5.2.2 Europe 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, Export, Local consumption Analysis
5.2.3 Europe 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.2.4 Europe 2017 Electricity Submetering For Smart Grid Market Share Analysis
5.3 China Electricity Submetering For Smart Grid Market Analysis
5.3.1 China Electricity Submetering For Smart Grid Market Overview
5.3.2 China 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, Export, Local Consumption Analysis
5.3.3 China 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.3.4 China 2017 Electricity Submetering For Smart Grid Market Share Analysis
5.4 Japan Electricity Submetering For Smart Grid Market Analysis
5.4.1 Japan Electricity Submetering For Smart Grid Market Overview
5.4.2 Japan 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, Export, Local Consumption Analysis
5.4.3 Japan 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.4.4 Japan 2017 Electricity Submetering For Smart Grid Market Share Analysis
5.5 Southeast Asia Electricity Submetering For Smart Grid Market Analysis
5.5.1 Southeast Asia Electricity Submetering For Smart Grid Market Overview
5.5.2 Southeast Asia 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, Export, Local Consumption Analysis
5.5.3 Southeast Asia 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.5.4 Southeast Asia 2017 Electricity Submetering For Smart Grid Market Share Analysis
5.6 India Electricity Submetering For Smart Grid Market Analysis
5.6.1 India Electricity Submetering For Smart Grid Market Overview
5.6.2 India 2013-2018E Electricity Submetering For Smart Grid Local Supply, Import, Export, Local Consumption Analysis
5.6.3 India 2013-2018E Electricity Submetering For Smart Grid Sales Price Analysis
5.6.4 India 2017 Electricity Submetering For Smart Grid Market Share Analysis

6 Global 2013-2018E Electricity Submetering For Smart Grid Segment Market Analysis (by Type)
6.1 Global 2013-2018E Electricity Submetering For Smart Grid Sales by Type
6.2 Different Types of Electricity Submetering For Smart Grid Product Interview Price Analysis
6.3 Different Types of Electricity Submetering For Smart Grid Product Driving Factors Analysis
6.3.1 Class 100 Meter Growth Driving Factor Analysis
6.3.2 Class 200 Meter Growth Driving Factor Analysis
6.3.3 Class 320 Meter Growth Driving Factor Analysis
6.3.4 Class 340 Meter Growth Driving Factor Analysis
6.3.5 Class 500 Meter Growth Driving Factor Analysis

7 Global 2013-2018E Electricity Submetering For Smart Grid Segment Market Analysis (by Application)
7.1 Global 2013-2018E Electricity Submetering For Smart Grid Consumption by Application
7.2 Different Application of Electricity Submetering For Smart Grid Product Interview Price Analysis
7.3 Different Application of Electricity Submetering For Smart Grid Product Driving Factors Analysis
7.3.1 Utilities of Electricity Submetering For Smart Grid Growth Driving Factor Analysis
7.3.2 Home of Electricity Submetering For Smart Grid Growth Driving Factor Analysis

8 Major Manufacturers Analysis of Electricity Submetering For Smart Grid
8.1 ABB
8.1.1 Company Profile
8.1.2 Product Picture and Specifications
8.1.2.1 Product A
8.1.2.2 Product B
8.1.3 ABB 2017 Electricity Submetering For Smart Grid Sales, Ex-factory Price, Revenue, Gross Margin Analysis
8.1.4 ABB 2017 Electricity Submetering For Smart Grid Business Region Distribution Analysis
8.2 Cisco
8.2.1 Company Profile
8.2.2 Product Picture and Specifications
8.2.2.1 Product A
8.2.2.2 Product B
8.2.3 Cisco 2017 Electricity Submetering For Smart Grid Sales, Ex-factory Price, Revenue, Gross Margin Analysis
8.2.4 Cisco 2017 Electricity Submetering For Smart Grid Business Region Distribution Analysis

Continued..
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