Model Based Manufacturing Technologies Market Global Industry Analysis (2012 - 2016) and Opportunity Assessment (2017 - 2027)

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

2.3. Market Overview

3. Market View Point

3.1. Macro-Economic Factors

3.2. Opportunity Analysis

3.3. Key Regulations

4. Global Market Analysis 2012–2016 and Forecast 2017–2027

4.1. Value Chain

5. North America Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

5.1. Introduction

5.2. Regional Market Dynamics

5.2.1. Drivers

5.2.2. Restraints

5.2.3. Trends

5.3. Market Size (US$ Mn) By Country, 2012-2016

5.3.1. U.S.

5.3.2. Canada

5.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

5.4.1. U.S.

5.4.2. Canada

5.5. Market Size (US$ Mn) and Forecast By Software Type

5.5.1. MES Based (Manufacturing Execution Software ) Systems

5.5.2. ERP Based (Enterprise Resource Planning) Systems

5.5.3. MRP Based (Material Requirements Planning) Systems

5.5.4. CAD Based (Computer Aided Design) & PLM Based (Product Lifecycle Management) Systems

5.5.5. Other MbM Software (Combined Systems/Technologies)Other Sources

5.6. Market Size (US$ Mn) and Forecast By End User Industry

5.6.1. Automotive

5.6.2. Electronics and Semiconductor

5.6.3. Aerospace and Defense

5.6.4. Oil and Gas

5.6.5. Other Industrial Sectors

5.7. Drivers and Restraints: Impact Analysis

5.8. Market Attractiveness Analysis

5.8.1. By Country

5.8.2. By Software Type

5.8.3. By End User Industry

5.9. Market Presence (Intensity Map)

6. Western Europe Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

6.1. Introduction

6.2. Regional Market Dynamics

6.2.1. Drivers

6.2.2. Restraints

6.2.3. Trends

6.3. Market Size (US$ Mn) By Country, 2012-2016

6.3.1. Germany

6.3.2. France

6.3.3. U.K.

6.3.4. Spain

6.3.5. Italy

6.3.6. BENELUX

6.3.7. Nordic

6.3.8. Rest of Western Europe

6.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

6.4.1. Germany

6.4.2. France

6.4.3. U.K.

6.4.4. Spain

6.4.5. Italy

6.4.6. BENELUX

6.4.7. Nordic

6.4.8. Rest of Western Europe

6.5. Market Size (US$ Mn) and Forecast By Software Type

6.5.1. Mechanical Energy

6.5.2. Thermal Energy

6.5.3. Light Energy

6.5.4. Electromagnetic Energy

6.5.5. Other Sources

6.6. Market Size (US$ Mn) and Forecast By End User Industry

6.6.1. Automotive

6.6.2. Electronics and Semiconductor

6.6.3. Aerospace and Defense

6.6.4. Oil and Gas

6.6.5. Other Industrial Sectors

6.7. Drivers and Restraints: Impact Analysis

6.8. Market Attractiveness Analysis

6.8.1. By Country

6.8.2. By Software Type

6.8.3. By End User Industry

6.9. Market Presence (Intensity Map)

7. Eastern Europe Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

7.1. Introduction

7.2. Regional Market Dynamics

7.2.1. Drivers

7.2.2. Restraints

7.2.3. Trends

7.3. Market Size (US$ Mn) By Country, 2012-2016

7.3.1. Russia

7.3.2. Poland

7.3.3. Rest of Eastern Europe

7.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

7.4.1. Russia

7.4.2. Poland

7.4.3. Rest of Eastern Europe

7.5. Market Size (US$ Mn) and Forecast By Software Type

7.5.1. Mechanical Energy

7.5.2. Thermal Energy

7.5.3. Light Energy

7.5.4. Electromagnetic Energy

7.5.5. Other Sources

7.6. Market Size (US$ Mn) and Forecast By End User Industry

7.6.1. Automotive

7.6.2. Electronics and Semiconductor

7.6.3. Aerospace and Defense

7.6.4. Oil and Gas

7.6.5. Other Industrial Sectors

7.7. Drivers and Restraints: Impact Analysis

7.8. Market Attractiveness Analysis

7.8.1. By Country

7.8.2. By Software Type

7.8.3. By End User Industry

7.9. Market Presence (Intensity Map)

8. Latin America Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

8.1. Introduction

8.2. Regional Market Dynamics

8.2.1. Drivers

8.2.2. Restraints

8.2.3. Trends

8.3. Market Size (US$ Mn) By Country, 2012-2016

8.3.1. Brazil

8.3.2. Mexico

8.3.3. Rest of Latin America

8.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

8.4.1. Brazil

8.4.2. Mexico

8.4.3. Rest of Latin America

8.5. Market Size (US$ Mn) and Forecast By Software Type

8.5.1. Mechanical Energy

8.5.2. Thermal Energy

8.5.3. Light Energy

8.5.4. Electromagnetic Energy

8.5.5. Other Sources

8.6. Market Size (US$ Mn) and Forecast By End User Industry

8.6.1. Automotive

8.6.2. Electronics and Semiconductor

8.6.3. Aerospace and Defense

8.6.4. Oil and Gas

8.6.5. Other Industrial Sectors

8.7. Drivers and Restraints: Impact Analysis

8.8. Market Attractiveness Analysis

8.8.1. By Country

8.8.2. By Software Type

8.8.3. By End User Industry

8.9. Market Presence (Intensity Map)

9. Asia Pacific Excluding Japan (APEJ) Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

9.1. Introduction

9.2. Regional Market Dynamics

9.2.1. Drivers

9.2.2. Restraints

9.2.3. Trends

9.3. Market Size (US$ Mn) By Country, 2012-2016

9.3.1. China

9.3.2. India

9.3.3. Australia and New Zealand

9.3.4. ASEAN

9.3.5. Rest of APEJ

9.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

9.4.1. China

9.4.2. India

9.4.3. Australia and New Zealand

9.4.4. ASEAN

9.4.5. Rest of APEJ

9.5. Market Size (US$ Mn) and Forecast By Software Type

9.5.1. Mechanical Energy

9.5.2. Thermal Energy

9.5.3. Light Energy

9.5.4. Electromagnetic Energy

9.5.5. Other Sources

9.6. Market Size (US$ Mn) and Forecast By End User Industry

9.6.1. Automotive

9.6.2. Electronics and Semiconductor

9.6.3. Aerospace and Defense

9.6.4. Oil and Gas

9.6.5. Other Industrial Sectors

9.7. Drivers and Restraints: Impact Analysis

9.8. Market Attractiveness Analysis

9.8.1. By Country

9.8.2. By Software Type

9.8.3. By End User Industry

9.9. Market Presence (Intensity Map)

10. Japan Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

10.1. Introduction

10.2. Regional Market Dynamics

10.2.1. Drivers

10.2.2. Restraints

10.2.3. Trends

10.3. Market Size (US$ Mn) and Forecast By Software Type

10.3.1. Mechanical Energy

10.3.2. Thermal Energy

10.3.3. Light Energy

10.3.4. Electromagnetic Energy

10.3.5. Other Sources

10.4. Market Size (US$ Mn) and Forecast By End User Industry

10.4.1. Automotive

10.4.2. Electronics and Semiconductor

10.4.3. Aerospace and Defense

10.4.4. Oil and Gas

10.4.5. Other Industrial Sectors

10.5. Drivers and Restraints: Impact Analysis

10.6. Market Attractiveness Analysis

10.6.1. By Software Type

10.6.2. By End User Industry

11. Middle East and Africa Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

11.1. Introduction

11.2. Regional Market Dynamics

11.2.1. Drivers

11.2.2. Restraints

11.2.3. Trends

11.3. Market Size (US$ Mn) By Country, 2012-2016

11.3.1. GCC Countries

11.3.2. Turkey

11.3.3. Northern Africa

11.3.4. South Africa

11.3.5. Rest of MEA

11.4. Market Size (US$ Mn) and Forecast By Country, 2017-2027

11.4.1. GCC Countries

11.4.2. Turkey

11.4.3. Northern Africa

11.4.4. South Africa

11.4.5. Rest of MEA

11.5. Market Size (US$ Mn) and Forecast By Software Type

11.5.1. Mechanical Energy

11.5.2. Thermal Energy

11.5.3. Light Energy

11.5.4. Electromagnetic Energy

11.5.5. Other Sources

11.6. Market Size (US$ Mn) and Forecast By End User Industry

11.6.1. Automotive

11.6.2. Electronics and Semiconductor

11.6.3. Aerospace and Defense

11.6.4. Oil and Gas

11.6.5. Other Industrial Sectors

11.7. Drivers and Restraints: Impact Analysis

11.8. Market Attractiveness Analysis

11.8.1. By Country

11.8.2. By Software Type

11.8.3. By End User Industry

11.9. Market Presence (Intensity Map)

12. Terminologies & Acronyms

13. Competition Landscape

13.1. Market Structure

13.2. Cost Analysis & Case Study

13.3. Nazi and South Asian Countries Market Trends

13.4. Product Mapping by Companies

13.5. Competition Trend

13.6. Competition Dashboard

13.7. Company Profiles (Details – Overview, Financials, Strategy, Recent Developments)

13.7.1. Aspen Technology Inc

13.7.2. Oracle Corp.

13.7.3. SAP SE

13.7.4. Honeywell International, Inc.

13.7.5. Ibaset Inc.

13.7.6. Autodesk Inc.

13.7.7. PTC, Inc.

13.7.8. Siemens PLM Software Inc.

13.7.9. Rockwell Automation, Inc.

13.7.10. Dassault Systemes

13.8. Other Players

13.8.1. Schneider Electric SE

13.8.2. ABB Ltd

13.8.3. Seabrook Technology Group

13.8.4. Vero Software Ltd

13.8.5. Sogeti High Tech SAS

13.8.6. KPIT Technologies Limited

13.8.7. General Electric Company

13.8.8. Statii Ltd

13.8.9. CNC Software, Inc.

13.8.10. Cimatron Technologies, Inc.

14. Global Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027

14.1. Market Size and Y-o-Y Growth

14.2. Market Size (US$ Mn) and Forecast By Region

14.2.1. North America

14.2.2. Western Europe

14.2.3. Eastern Europe

14.2.4. Latin America

14.2.5. Asia Pacific Excluding Japan

14.2.6. Japan

14.2.7. Middle East and Africa

14.3. Market Attractiveness Analysis By Region

15. Global Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027, By Software Type

15.1. Market Size (US$ Mn) and Forecast By Software Type

15.1.1. Mechanical Energy

15.1.2. Thermal Energy

15.1.3. Light Energy

15.1.4. Electromagnetic Energy

15.1.5. Other Sources

15.2. Market Attractiveness Analysis By Software Type

16. Global Model Based Manufacturing Technologies Market Analysis 2012–2016 and Forecast 2017–2027, By End User Industry

16.1. Market Size (US$ Mn) and Forecast By End User Industry

16.1.1. Automotive

16.1.2. Electronics and Semiconductor

16.1.3. Aerospace and Defense

16.1.4. Oil and Gas

16.1.5. Other Industrial Sectors

16.2. Market Attractiveness Analysis By End User Industry

Model Based Manufacturing Technologies Market Global Industry Analysis (2012 - 2016) and Opportunity Assessment (2017 - 2027)

What is the competition trend in the global model based manufacturing technologies market?

Among the key players profiled in our report, global partnerships is one of the key strategies adopted by market players, with approximately 50% of the leading players entering into collaborations in the last three years. This trend is projected to continue over the next five years. Most of the model based manufacturing technologies providers are entering into strategic partnerships to improve their product offerings. One such player is Autodesk, which has entered into a partnership with Vera Security, Inc., a data-centric security solutions provider and PTC, which is a Computer-aided design (CAD) solutions provider with an objective to provide data protection for CAD and product lifecycle management (PLM) and to control access and permissions for CAD files. Another key strategy followed by top market players is new product launch with about 25% of the leading players having launched new products in the past three years. Companies such as SAP SE, Dassault Systemes, Ibaset Inc. and Aspen Technology Inc. are heavily adopting the new product launch strategy.

MEA regional market for model based manufacturing technologies is expected to witness significant growth owing to increasing plant productivity and reduced inventory costs

Software-as-a-Service (SaaS) ERP systems are expected to drive the growth of the model based manufacturing technologies market in the Middle East. Companies in this region are more focussed on the adoption of SaaS ERP systems. SaaS vendors are investing significantly in SaaS ERP systems to succeed and grow in this highly competitive and lucrative market and are also making strategic investments and implementing stringent security infrastructure in order to safeguard customer data. They also provide SaaS contracts to ensure a high level of transparency so that customers own their data and can retrieve it on demand.

Increasing plant productivity and reduced inventory costs is another factor which is fuelling the growth of the model based manufacturing technologies market in MEA. Due to advancement in technologies, manufacturing companies are installing new software and tools for optimum resource utilisation. An increasing variety in product development is likely to eventually lead to increase in production capacity, which will ultimately lead to lack of quality in products. To overcome this inherent quality challenge, automatic manufacturing equipment and technologies help in the production process by reducing inventory costs as the inventory will be tracked using automated information technology systems. This will subsequently lead to decreasing capital costs due to decreased inventory levels and optimal use of production resources.

Mobile device explosion is anticipated to drive Enterprise Resource Planning growth in the MEA region. Increasing usage of smart mobile devices such as smartphones and tablets in the Middle East countries is expected to offer opportunities to Enterprise Resource Planning (ERP) vendors looking to tap the market in this region. The staff working in logistics, warehouse management, manufacturing and field sales depends primarily on mobile ERP apps. ERP apps are enabled on workers’ devices in all departments that facilitate easy access to data and enable the initiation of ERP processes from anywhere. Companies are looking to ERP vendors to deliver assurances surrounding application and data security integration and management in smartphones/tablet PCs. MEA is the second largest region in term of CAGR in the global model based manufacturing technologies market during the period of assessment

Although MEA is projected to grab a tiny share of the global model based manufacturing technologies market in 2017, it is the second largest region in terms of CAGR. The MEA model based manufacturing technologies market is expected to expand at a CAGR of 11.7%. In 2017, the market in MEA is estimated to be valued at more than US$ 1,300 Mn and is expected to witness steady growth in terms of revenue throughout the forecast period.