Report Summary
Eternity Insights has published a new study on Global Industrial Inertial Systems Market focusing on key segments as by Type (Gyroscopes, Accelerometers, Inertial Measurement Units, GPS/INS, Multi-Axis Sensors), by Application (Industrial OEM, Defense, Energy & Infrastructure, Transportation, Civil Aviation), and by region. This deep dive re-search report highlights the market and competitive intelligence across the key segments of the mar-ket. The report also considers the impact of COVID-19 on the global Industrial Inertial Systems Market.
The report considers 2018-2020 as historic period, 2021 as base year, and 2022-2028 as forecast period. The report includes quantitative analysis of the market supported by the market drivers, challenges, and trends to accurately map the market scenario and competition. Moreover, key insights related to market having direct impact on the market will also be covered.
Industrial Inertial Systems Market report is based on robust research methodology designed using blend of research ap-proaches developed using secondary/desk research and validated through the primary research and expert insights. Eternity Insights also uses paid data bases such as FACIVA, Hoovers, and other bench-marking and forecasting tools to provide accurate statistical analysis of supply and demand trends.
Global Industrial Inertial Systems Market Size, 2018-2028 (USD Million)
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Global Industrial Inertial Systems Market Segmentation:
Industrial Inertial Systems Market, By Type
- Gyroscopes
- Accelerometers
- Inertial Measurement Units
- GPS/INS
- Multi-Axis Sensors
Industrial Inertial Systems Market, By Application
- Industrial OEM
- Defense
- Energy & Infrastructure
- Transportation
- Civil Aviation
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Geographically, the market is categorized in to five regions as North America, Europe, Asia Pacific, Latin America, and the Middle East and Africa. North America region dominates the global Industrial Inertial Systems market in terms of demand generation. The Industrial Inertial Systems market in Asia Pacific region is expected to grow at significantly high growth rate. The regional market is further sub-segmented and analyzed at granular level across key countries. The report will include market size and forecast for Industrial Inertial Systems market for below listed coun-tries across each region.
North America (U.S. and Canada), Europe (Germany, France, Italy, UK, Spain, and Rest of Europe), Asia Pacific (China, India, Japan, Australia, and Rest of Asia Pacific region); Latin America (Brazil, Mexico, and rest of the Latin America); Middle East and Africa (GCC, South Africa, and Rest of the Middle East and Africa).
Global Industrial Inertial Systems Market Taxonomy:
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Global Industrial Inertial Systems Market Competitive Landscape
The global Industrial Inertial Systems market analysis report covers detailed analysis of competitive scenario across globe. The report includes profiles of leading players covering below details
- Company Overview
- Financial Analysis
- Product Portfolio Analysis
- Strategic Overview
- SWOT Analysis
List of Companies Profiled in the report:
- Aeron Systems
- Memsic Technology
- Systron
- Trimble
- LORD MicroStrain
- VectorNav Technologies
- L3 Technologies
- Safran
- iXblue
- Honeywell
- SBG Systems
- Xsens
- Moog
- Other Players of Specific Interest can be added based on requirement
Market Segmentation
| Report Attributes |
Details |
| The market size value in 2021 |
USD XX.XX Million |
| CAGR (2021 - 2028) |
XX.XX % |
| The Revenue forecast in 2028 |
USD XX.XX Million |
| Base year for estimation |
2021 |
| Historical data |
2018-2019 |
| Forecast period |
2022-2028 |
| Quantitative units |
- Revenue in USD Million
- CAGR from 2021 to 2028
|
| Report coverage |
Revenue forecast, company ranking, competitive landscape, growth factors, and trends |
| Segments covered |
By Type Outlook, Application Outlook, Regional Outlook |
| By Type Outlook |
Gyroscopes, Accelerometers, Inertial Measurement Units, GPS/INS, Multi-Axis Sensors |
| By Application Outlook |
Industrial OEM, Defense, Energy & Infrastructure, Transportation, Civil Aviation |
| Regional scope |
North America, Europe, Asia Pacific, Latin America, Middle East & Africa |
| Country scope |
U.S., Canada, U.K., Germany, France, BENELUX, China, India, Japan, South Korea, Brazil, Saudi Arabia, UAE, Turkey |
| Key companies profiled |
Aeron Systems, Memsic Technology, Systron, Trimble, LORD MicroStrain, VectorNav Technologies, L3 Technologies, Safran, iXblue, Honeywell, SBG Systems, Xsens, Moog |
| Customization Available |
Yes, the report can be tailored to meet your specific requirements. |
Key Benefits to the stake holders
- Qualitative and quantitative analysis of the market based on segmentation involving both economic as well as non-economic factors
- Provision of market value (USD Billion) and volume (Tons) data for each segment and sub-segment
- Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market
- Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region
- Competitive landscape which incorporates the market ranking of the major players, along with new service/product launches, partnerships, business expansions and acquisitions in the past five years of companies profiled
- Extensive company profiles comprising of company overview, company insights, product benchmarking and SWOT analysis for the major market players
- The current as well as the future market outlook of the industry with respect to recent developments (which involve growth opportunities and drivers as well as challenges and restraints of both emerging as well as developed regions
- Includes an in-depth analysis of the market of various perspectives through Porter’s five forces analysis
- Provides insight into the market through Value Chain
- Market dynamics scenario, along with growth opportunities of the market in the years to come
Table Of Contents
Table of Contents
1 Study Coverage
1.1 Industrial Inertial Systems Product
1.2 Key Market Segments in This Study
1.3 Key Manufacturers Covered
1.4 Market by Type
1.4.1 Global Industrial Inertial Systems Market Size Growth Rate by Type
1.4.2 Gyroscopes
1.4.3 Accelerometers
1.4.4 Inertial Measurement Units
1.4.5 GPS/INS
1.4.6 Multi-Axis Sensors
1.5 Market by Application
1.5.1 Global Industrial Inertial Systems Market Size Growth Rate by Application
1.5.2 Industrial OEM
1.5.3 Defense
1.5.4 Energy & Infrastructure
1.5.5 Transportation
1.5.6 Civil Aviation
1.6 Study Objectives
1.7 Years Considered
2 Executive Summary
2.1 Global Industrial Inertial Systems Market Size
2.1.1 Global Industrial Inertial Systems Revenue 2014-2025
2.1.2 Global Industrial Inertial Systems Production 2014-2025
2.2 Industrial Inertial Systems Growth Rate (CAGR) 2021-2027
2.3 Analysis of Competitive Landscape
2.3.1 Manufacturers Market Concentration Ratio (CR5 and HHI)
2.3.2 Key Industrial Inertial Systems Manufacturers
2.3.2.1 Industrial Inertial Systems Manufacturing Base Distribution, Headquarters
2.3.2.2 Manufacturers Industrial Inertial Systems Product Offered
2.3.2.3 Date of Manufacturers Enter into Industrial Inertial Systems Market
2.4 Key Trends for Industrial Inertial Systems Markets & Products
3 Market Size by Manufacturers
3.1 Industrial Inertial Systems Production by Manufacturers
3.1.1 Industrial Inertial Systems Production by Manufacturers
3.1.2 Industrial Inertial Systems Production Market Share by Manufacturers
3.2 Industrial Inertial Systems Revenue by Manufacturers
3.2.1 Industrial Inertial Systems Revenue by Manufacturers (2017-2020)
3.2.2 Industrial Inertial Systems Revenue Share by Manufacturers (2017-2020)
3.3 Industrial Inertial Systems Price by Manufacturers
3.4 Mergers & Acquisitions, Expansion Plans
4 Industrial Inertial Systems Production by Regions
4.1 Global Industrial Inertial Systems Production by Regions
4.1.1 Global Industrial Inertial Systems Production Market Share by Regions
4.1.2 Global Industrial Inertial Systems Revenue Market Share by Regions
4.2 United States
4.2.1 United States Industrial Inertial Systems Production
4.2.2 United States Industrial Inertial Systems Revenue
4.2.3 Key Players in United States
4.2.4 United States Industrial Inertial Systems Import & Export
4.3 Europe
4.3.1 Europe Industrial Inertial Systems Production
4.3.2 Europe Industrial Inertial Systems Revenue
4.3.3 Key Players in Europe
4.3.4 Europe Industrial Inertial Systems Import & Export
4.4 China
4.4.1 China Industrial Inertial Systems Production
4.4.2 China Industrial Inertial Systems Revenue
4.4.3 Key Players in China
4.4.4 China Industrial Inertial Systems Import & Export
4.5 Japan
4.5.1 Japan Industrial Inertial Systems Production
4.5.2 Japan Industrial Inertial Systems Revenue
4.5.3 Key Players in Japan
4.5.4 Japan Industrial Inertial Systems Import & Export
4.6 Other Regions
4.6.1 South Korea
4.6.2 India
4.6.3 Southeast Asia
5 Industrial Inertial Systems Consumption by Regions
5.1 Global Industrial Inertial Systems Consumption by Regions
5.1.1 Global Industrial Inertial Systems Consumption by Regions
5.1.2 Global Industrial Inertial Systems Consumption Market Share by Regions
5.2 North America
5.2.1 North America Industrial Inertial Systems Consumption by Application
5.2.2 North America Industrial Inertial Systems Consumption by Countries
5.2.3 United States
5.2.4 Canada
5.2.5 Mexico
5.3 Europe
5.3.1 Europe Industrial Inertial Systems Consumption by Application
5.3.2 Europe Industrial Inertial Systems Consumption by Countries
5.3.3 Germany
5.3.4 France
5.3.5 UK
5.3.6 Italy
5.3.7 Russia
5.4 Asia Pacific
5.4.1 Asia Pacific Industrial Inertial Systems Consumption by Application
5.4.2 Asia Pacific Industrial Inertial Systems Consumption by Countries
5.4.3 China
5.4.4 Japan
5.4.5 South Korea
5.4.6 India
5.4.7 Australia
5.4.8 Indonesia
5.4.9 Thailand
5.4.10 Malaysia
5.4.11 Philippines
5.4.12 Vietnam
5.5 Central & South America
5.5.1 Central & South America Industrial Inertial Systems Consumption by Application
5.5.2 Central & South America Industrial Inertial Systems Consumption by Country
5.5.3 Brazil
5.6 Middle East and Africa
5.6.1 Middle East and Africa Industrial Inertial Systems Consumption by Application
5.6.2 Middle East and Africa Industrial Inertial Systems Consumption by Countries
5.6.3 GCC Countries
5.6.4 Egypt
5.6.5 South Africa
6 Market Size by Type
6.1 Global Industrial Inertial Systems Production by Type
6.2 Global Industrial Inertial Systems Revenue by Type
6.3 Industrial Inertial Systems Price by Type
7 Market Size by Application
7.1 Overview
7.2 Global Industrial Inertial Systems Breakdown Dada by Application
7.2.1 Global Industrial Inertial Systems Consumption by Application
7.2.2 Global Industrial Inertial Systems Consumption Market Share by Application (2017-2020)
8 Manufacturers Profiles
8.1 Aeron Systems
8.1.1 Aeron Systems Company Details
8.1.2 Company Overview
8.1.3 Aeron Systems Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.1.4 Aeron Systems Industrial Inertial Systems Product Description
8.1.5 Aeron Systems Recent Development
8.2 Memsic Technology
8.2.1 Memsic Technology Company Details
8.2.2 Company Overview
8.2.3 Memsic Technology Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.2.4 Memsic Technology Industrial Inertial Systems Product Description
8.2.5 Memsic Technology Recent Development
8.3 Systron
8.3.1 Systron Company Details
8.3.2 Company Overview
8.3.3 Systron Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.3.4 Systron Industrial Inertial Systems Product Description
8.3.5 Systron Recent Development
8.4 Trimble
8.4.1 Trimble Company Details
8.4.2 Company Overview
8.4.3 Trimble Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.4.4 Trimble Industrial Inertial Systems Product Description
8.4.5 Trimble Recent Development
8.5 LORD MicroStrain
8.5.1 LORD MicroStrain Company Details
8.5.2 Company Overview
8.5.3 LORD MicroStrain Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.5.4 LORD MicroStrain Industrial Inertial Systems Product Description
8.5.5 LORD MicroStrain Recent Development
8.6 VectorNav Technologies
8.6.1 VectorNav Technologies Company Details
8.6.2 Company Overview
8.6.3 VectorNav Technologies Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.6.4 VectorNav Technologies Industrial Inertial Systems Product Description
8.6.5 VectorNav Technologies Recent Development
8.7 L3 Technologies
8.7.1 L3 Technologies Company Details
8.7.2 Company Overview
8.7.3 L3 Technologies Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.7.4 L3 Technologies Industrial Inertial Systems Product Description
8.7.5 L3 Technologies Recent Development
8.8 Safran
8.8.1 Safran Company Details
8.8.2 Company Overview
8.8.3 Safran Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.8.4 Safran Industrial Inertial Systems Product Description
8.8.5 Safran Recent Development
8.9 iXblue
8.9.1 iXblue Company Details
8.9.2 Company Overview
8.9.3 iXblue Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.9.4 iXblue Industrial Inertial Systems Product Description
8.9.5 iXblue Recent Development
8.10 Honeywell
8.10.1 Honeywell Company Details
8.10.2 Company Overview
8.10.3 Honeywell Industrial Inertial Systems Production Revenue and Gross Margin (2017-2020)
8.10.4 Honeywell Industrial Inertial Systems Product Description
8.10.5 Honeywell Recent Development
8.11 SBG Systems
8.12 Xsens
8.13 Moog
9 Production Forecasts
9.1 Industrial Inertial Systems Production and Revenue Forecast
9.1.1 Global Industrial Inertial Systems Production Forecast 2021-2027
9.1.2 Global Industrial Inertial Systems Revenue Forecast 2021-2027
9.2 Industrial Inertial Systems Production and Revenue Forecast by Regions
9.2.1 Global Industrial Inertial Systems Revenue Forecast by Regions
9.2.2 Global Industrial Inertial Systems Production Forecast by Regions
9.3 Industrial Inertial Systems Key Producers Forecast
9.3.1 United States
9.3.2 Europe
9.3.3 China
9.3.4 Japan
9.4 Forecast by Type
9.4.1 Global Industrial Inertial Systems Production Forecast by Type
9.4.2 Global Industrial Inertial Systems Revenue Forecast by Type
10 Consumption Forecast
10.1 Industrial Inertial Systems Consumption Forecast by Application
10.2 Industrial Inertial Systems Consumption Forecast by Regions
10.3 North America Market Consumption Forecast
10.3.1 North America Industrial Inertial Systems Consumption Forecast by Regions 2021-2027
10.3.2 United States
10.3.3 Canada
10.3.4 Mexico
10.4 Europe Market Consumption Forecast
10.4.1 Europe Industrial Inertial Systems Consumption Forecast by Regions 2021-2027
10.4.2 Germany
10.4.3 France
10.4.4 UK
10.4.5 Italy
10.4.6 Russia
10.5 Asia Pacific Market Consumption Forecast
10.5.1 Asia Pacific Industrial Inertial Systems Consumption Forecast by Regions 2021-2027
10.5.2 China
10.5.3 Japan
10.5.4 South Korea
10.5.5 India
10.5.6 Australia
10.5.7 Indonesia
10.5.8 Thailand
10.5.9 Malaysia
10.5.10 Philippines
10.5.11 Vietnam
10.6 Central & South America Market Consumption Forecast
10.6.1 Central & South America Industrial Inertial Systems Consumption Forecast by Regions 2021-2027
10.6.2 Brazil
10.7 Middle East and Africa Market Consumption Forecast
10.7.1 Middle East and Africa Industrial Inertial Systems Consumption Forecast by Regions 2021-2027
10.7.2 GCC Countries
10.7.3 Egypt
10.7.4 South Africa
11 Value Chain and Sales Channels Analysis
11.1 Value Chain Analysis
11.2 Sales Channels Analysis
11.2.1 Industrial Inertial Systems Sales Channels
11.2.2 Industrial Inertial Systems Distributors
11.3 Industrial Inertial Systems Customers
12 Market Opportunities & Challenges, Risks and Influences Factors Analysis
12.1 Market Opportunities and Drivers
12.2 Market Challenges
12.3 Market Risks/Restraints
13 Key Findings in the Global Industrial Inertial Systems Study
14 Appendix
14.1 Research Methodology
14.1.1 Methodology/Research Approach
14.1.1.1 Research Programs/Design
14.1.1.2 Market Size Estimation
14.1.1.3 Market Breakdown and Data Triangulation
14.1.2 Data Source
14.1.2.1 Secondary Sources
14.1.2.2 Primary Sources
14.2 Author Details
14.3 Disclaimer
