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Cyber-Physical System Market: Will China be Able to Surpass Western Europe in Terms of Growth in the Coming Years: Global Industry Analysis (2013 - 2017) & Opportunity Assessment (2018 - 2028)

Cyber-Physical System Market: Will China be Able to Surpass Western Europe in Terms of Growth in the Coming Years: Global Industry Analysis (2013 - 2017) & Opportunity Assessment (2018 - 2028)

Technological progressions have led to a conversion towards automation and digitalization to reduce human tasks and errors. Many regions such as North America, Europe, China, and Japan, among others incessantly focus on innovating the existing products and on implementing all technological advancements in their products to transit towards automation. The affluence in operation and user friendliness offered by such products results in an increased demand for the same. Cyber-physical systems promote the link between the cyber and physical, which is driven by the high demand for digitalization and automation.

The U.S. and European countries are presently projected to remain the important regions in the global cyber-physical system market, owing to the presence of advanced technologies and relevant skilled labor to implement CPS, and increasing adoption of CPS for applications such as smart factories and smart grids. Significant market potential exists in countries in the Asia Pacific, such as India, China, and Japan.

Among all the regions, North America is expected to be at the forefront

North America is always at the forefront when it comes to the adoption of any new or flourishing technology. The incorporation of cyber-physical systems in the region has enabled the introduction of automated products such as autonomous or self-driving cars, medical robots that are employed for complex surgeries, and industrial robots as a replacement for human labor, among others. Manufacturing industries in the region are continuously focusing on introducing a larger volume of such automated products, with the intention of offering a seamless experience to end users. As technology is expected to advance, and as artificial intelligence is expected to proliferate, the application of cyber-physical systems in the aforesaid products is expected to boom in North America. Moreover, the research and development initiatives in the region is further a much needed addition for market development. For instance, in 2014, the University of Pennsylvania participated with NSF (National Science Foundation) to advance cyber-physical systems with medical applications. NSF is continuously advancing its research on healthcare systems to introduce robotic surgery and interoperable personalized medical devices. The declining prices of sensors and other devices is also anticipated to have a positive impact on the growth of the market.

Western Europe is expected to slowly catch up with North America in terms of adoption

The European Commission is known for investing heavily on the research and development of new products and for the adoption of new products and services. Due to the benefits associated with cyber-physical systems and the intricacies associated with the employment of the same, initiatives have been taken by the governments of various nations by investing some sums of money for allowing the implementation of the same in their respective nations. This encourages the adoption of cyber-physical systems, which as a result boosts the growth of the cyber-physical system market in Europe. Western Europe is in the limelight in the global market because of the presence of leading players in the region who are constantly innovating in order to stay competitive in the market and also to retain their user base in both Western and Eastern Europe.


1. Executive Summary
1.1. Market Overview
1.2. Market Analysis
1.3. FMI Analysis and Recommendations
1.4. Wheel of Fortune
2. Market Introduction
2.1. Market Definition
2.2. Market Taxonomy
3. Market Background
3.1. Macro-Economic Factors
3.2. Forecast Factors – Relevance & Impact
3.3. Value Chain
3.4. Market Dynamics
3.4.1. Drivers
3.4.2. Restraints
3.4.3. Trends
3.5. Opportunity Analysis
4. Market Forecast
4.1. Market Size and Y-o-Y Growth
4.2. Absolute $ Opportunity
5. Global Cyber-Physical System Market Analysis By Component
5.1. Introduction
5.1.1. Market Value Share Analysis By Component
5.1.2. Y-o-Y Growth Analysis By Component
5.2. Historical Market Size (US$ Mn) Analysis 2013-2017 By Component
5.2.1. Hardware
5.2.2. Software
5.2.3. Services
5.3. Current Market Size (US$ Mn) and Forecast 2018-2028 By Component
5.3.1. Hardware
5.3.2. Software
5.3.3. Services
5.4. Market Attractiveness Analysis By Component
6. Global Cyber-Physical System Market Analysis By Vertical
6.1. Introduction
6.1.1. Market Value Share Analysis By Vertical
6.1.2. Y-o-Y Growth Analysis By Vertical
6.2. Historical Market Size (US$ Mn) Analysis 2013-2017 By Vertical
6.2.1. Aerospace & Defense
6.2.2. Automotive
6.2.3. Energy & Utility
6.2.4. Healthcare
6.2.5. Manufacturing
6.2.6. Consumer Electronics
6.2.7. Others
6.3. Current Market Size (US$ Mn) and Forecast 2018-2028 By Vertical
6.3.1. Aerospace & Defense
6.3.2. Automotive
6.3.3. Energy & Utility
6.3.4. Healthcare
6.3.5. Manufacturing
6.3.6. Consumer Electronics
6.3.7. Others
6.4. Market Attractiveness Analysis By Vertical
7. Global Cyber-Physical System Market Analysis By Region
7.1. Introduction
7.1.1. Market Value Share Analysis By Region
7.1.2. Y-o-Y Growth Analysis By Region
7.2. Historical Market Size (US$ Mn) Analysis 2013-2017 By Region
7.2.1. North America
7.2.2. Latin America
7.2.3. Western Europe
7.2.4. Eastern Europe
7.2.5. China
7.2.6. Japan
7.2.7. Asia Pacific
7.2.8. MEA
7.3. Current Market Size (US$ Mn) and Forecast 2018-2028 By Region
7.3.1. North America
7.3.2. Latin America
7.3.3. Western Europe
7.3.4. Eastern Europe
7.3.5. China
7.3.6. Japan
7.3.7. Asia Pacific
7.3.8. MEA
7.4. Market Attractiveness Analysis By Region
8. North America Cyber-Physical System Market Analysis
8.1. Introduction
8.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
8.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
8.3.1. By Country
8.3.1.1. U.S.
8.3.1.2. Canada
8.3.2. By Component
8.3.3. By Vertical
8.4. Key Market Participants – Intensity Mapping
8.5. Drivers and Restraints – Impact Analysis
9. Latin America Cyber-Physical System Market Analysis
9.1. Introduction
9.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
9.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
9.3.1. By Country
9.3.1.1. Brazil
9.3.1.2. Mexico
9.3.1.3. Rest of Latin America
9.3.2. By Component
9.3.3. By Component
9.3.4. By Vertical
9.4. Key Market Participants – Intensity Mapping
9.5. Drivers and Restraints – Impact Analysis
10. Western Europe Cyber-Physical System Market Analysis
10.1. Introduction
10.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
10.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
10.3.1. By Country
10.3.1.1. Germany
10.3.1.2. Italy
10.3.1.3. France
10.3.1.4. Spain
10.3.1.5. U.K.
10.3.1.6. BENELUX
10.3.1.7. Rest of Western Europe
10.3.2. By Component
10.3.3. By Vertical
10.4. Key Market Participants – Intensity Mapping
10.5. Drivers and Restraints – Impact Analysis
11. Eastern Europe Cyber-Physical System Market Analysis
11.1. Introduction
11.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
11.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
11.3.1. By Country
11.3.1.1. Russia
11.3.1.2. Poland
11.3.1.3. Rest of Eastern Europe
11.3.2. By Component
11.3.3. By Vertical
11.4. Key Market Participants – Intensity Mapping
11.5. Drivers and Restraints – Impact Analysis
12. China Cyber-Physical System Market Analysis
12.1. Introduction
12.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
12.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
12.3.1. By Component
12.3.2. By Vertical
12.4. Key Market Participants – Intensity Mapping
12.5. Drivers and Restraints – Impact Analysis
13. Japan Cyber-Physical System Market Analysis
13.1. Introduction
13.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
13.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
13.3.1. By Component
13.3.2. By Vertical
13.4. Key Market Participants – Intensity Mapping
13.5. Drivers and Restraints – Impact Analysis
14. Asia Pacific Cyber-Physical System Market Analysis
14.1. Introduction
14.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
14.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
14.3.1. By Country
14.3.1.1. India
14.3.1.2. ASEAN
14.3.1.3. Australia and New Zealand
14.3.1.4. Rest of APAC
14.3.2. By Component
14.3.3. By Vertical
14.4. Key Market Participants – Intensity Mapping
14.5. Drivers and Restraints – Impact Analysis
15. MEA Cyber-Physical System Market Analysis
15.1. Introduction
15.2. Historical Market Size (US$ Mn) Analysis By Market Segment 2013-2017
15.3. Market Size (US$ Mn) and Forecast By Market Segments, 2018-2028
15.3.1. By Country
15.3.1.1. Northern Africa
15.3.1.2. GCC Countries
15.3.1.3. South Africa
15.3.1.4. Turkey
15.3.1.5. Rest of Middle East and Africa
15.3.2. By Component
15.3.3. By Vertical
15.4. Key Market Participants – Intensity Mapping
15.5. Drivers and Restraints – Impact Analysis
16. Market Structure Analysis
16.1. Market Analysis by Tier of Companies
16.1.1. By Large, Medium and Small
16.2. Market Concentration
16.3. Market Share Analysis of Top 10 Players
16.4. Market Presence Analysis
16.4.1. Regional footprint of Players
16.4.2. Product foot print by Players
17. Competition Analysis
17.1. Competition Dashboard
17.2. Competition Benchmarking
17.3. Competition Developments
17.4. Competition Deep Dive
17.4.1. IBM Corporation
17.4.1.1. Overview
17.4.1.2. Product Portfolio
17.4.1.3. Production Footprint
17.4.1.4. Sales Footprint
17.4.1.5. Channel Footprint
17.4.1.6. Competition Benchmarking
17.4.1.7. Strategy
17.4.1.7.1. Marketing Strategy
17.4.1.7.2. Product Strategy
17.4.1.7.3. Channel Strategy
17.4.2. Microsoft Corporation
17.4.3. Dell EMC
17.4.4. VMware Inc.
17.4.5. Hewlett Packard Enterprise
17.4.6. Schneider Electric
17.4.7. SAP SE
17.4.8. Honeywell International Inc.
17.4.9. Hitachi Vantara
17.4.10. Oracle
18. Assumptions and Acronyms
19. Research Methodology

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