ロボット工学におけるサイバーセキュリティの世界市場:産業分析および機会分析

【英語タイトル】Cyber Security in Robotics Market - Global Industry Analysis and Opportunity Assessment, 2019-2029

Future Market Insightsが出版した調査資料(FMI20JA065)・商品コード:FMI20JA065
・発行会社(調査会社):Future Market Insights
・発行日:2019年9月27日
・ページ数:300
・レポート言語:英語
・レポート形式:PDF
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本調査はロボット工学におけるサイバーセキュリティの現状および将来展望について、エグゼクティブサマリー、市場概要、市場動向、需要分析、市場背景、市場構造分析、攻撃タイプ、ソリューション別(認証、アクセス制御、安全な通信、暗号化、サービス拒否保護)分析、サービス別(セキュリティテスト、アップグレードとパッチ管理、セキュリティ評価)分析、用途別(産業用ロボット、医療用ロボット、協調ロボット、防衛ロボット、その他)分析、地域別分析、競争分析、調査手法に区分して掲載しています。
・エグゼクティブサマリー
・市場概要
・市場動向
・需要分析
・市場背景
・市場構造分析
・ロボット工学におけるサイバーセキュリティの世界市場:攻撃タイプ
・ロボット工学におけるサイバーセキュリティの世界市場:ソリューション別(認証、アクセス制御、安全な通信、暗号化、サービス拒否保護)
・ロボット工学におけるサイバーセキュリティの世界市場:サービス別(セキュリティテスト、アップグレードとパッチ管理、セキュリティ評価)
・ロボット工学におけるサイバーセキュリティの世界市場:用途別(産業用ロボット、医療用ロボット、協調ロボット、防衛ロボット、その他)
・ロボット工学におけるサイバーセキュリティの世界市場:地域別
・競争分析
・調査手法
【レポートの概要】

Cyber Security in Robotics Market Analysis 2019-2029
A recent market study published by FMI on the cyber security in robotics market include a global industry analysis 2014-2018 & an opportunity assessment 2019-2029, and delivers a comprehensive assessment of the most important market dynamics. After conducting thorough research on the historical as well as current growth parameters of this market, growth prospects of the market are obtained with maximum precision.

Chapter 01 – Executive Summary
The report initiates with the executive summary of the cyber security in robotics market, which includes a summary of the key findings and statistics of the market.

Chapter 02 – Market Overview
Readers can find the definition and a detailed taxonomy of the cyber security in robotics market in this chapter, which will help them to understand the basic information about the cyber security in robotics market. Along with this, comprehensive information pertaining to cyber security in robotics and their properties are provided in this section. This section also highlights the inclusions and exclusions, which help the reader understand the scope of the cyber security in robotics market report.

Chapter 03 – Key Market Trends
The cyber security in robotics market report provides the key market trends that are expected to significantly impact the market growth during the forecast period. Detailed industry trends are also provided in this section.

Chapter 04 – Key Success Factors
This section includes the factors that have emerged as a key successful factors and the strategies adopted by key market participants.

Chapter 05 – Global Cyber Security in Robotics Market Demand Analysis 2014-2018 & Opportunity Assessment 2019-2029
This section explains the global market value analysis and forecast for the cyber security in robotics market between the forecast period of 2019-2029. This chapter includes a detailed analysis of the historical cyber security in robotics market, along with an opportunity analysis of the future. Readers can also find the absolute $ opportunity for the current year (2019), and an incremental $ opportunity for the forecast period (2019–2029). Along with this, the pricing analysis of the cyber security in robotics market at the regional level has been provided in this section.

Chapter 06 – Market Background
This chapter explains the key macro-economic factors that are expected to influence the growth of the cyber security in robotics market over the forecast period. Along with the macroeconomic factors, this section also highlights the value chain, supply chain, forecast factors, and value chain analysis of the cyber security in robotics market. Moreover, in-depth information about the market dynamics and their impact analysis on the market have been provided in the successive section.

Chapter 07 – Global Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029, by Solution
Based on the Solution, the cyber security in robotics market is segmented into authentication, secure communication, encryption, denial of service protection, and risk & vulnerability management. In this chapter, readers can find information about the key trends and developments in the cyber security in robotics market and market attractiveness analysis based on the Solution.

Chapter 08 – Global Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029, by Service
Based on the application, the cyber security in robotics market is segmented into Security testing upgradation & patch management, and security assessment. In this chapter, readers can find information about the developments and key trends in the cyber security in robotics market attractiveness analysis based on the service.

Chapter 09 – Global Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029, by Robot Type
This chapter provides details about the cyber security in robotics market based on the end-use industry, and has been classified into industrial robot, medical robot, collaborative robot, defense robot, others. In this chapter, readers can understand the market attractive analysis based on the robot type.

Chapter 10 – Global Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029, by Region
This chapter explains how the cyber security in robotics market will grow across various geographic regions such as North America, Latin America, Western Europe, Eastern Europe, APEJ (Asia-Pacific excluding Japan), Japan, and Middle East & Africa.

Chapter 11 – North America Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This chapter includes a detailed analysis of the growth of the North America cyber security in robotics market, along with a country-wise assessment that includes the U.S. and Canada. Readers can also find pricing analysis, regional trends, and the market growth based on the solution, service, and robot type and countries in North America.

Chapter 12 – Latin America Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This chapter provides the growth scenario of the cyber security in robotics market in Latin American countries such as Brazil, Mexico, and the Rest of Latin America. Along with this, assessment of the market across target segments that has been provided.

Chapter 13 – Western Europe Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
Important growth prospects of the cyber security in robotics market based on its end users in several countries, such as Germany, the UK, France, Spain, Italy, BENELUX, and the Rest of Europe, are included in this chapter.

Chapter 14 – Eastern Europe Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This chapter provides the growth scenario of the cyber security in robotics market in Eastern Europe countries such as Russia, Poland, and Rest of the Eastern Europe.

Chapter 15 – Asia-Pacific excluding Japan Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This chapter highlights the growth of the cyber security in robotics market in APEJ by focusing on China, India, ASEAN, Australia & New Zealand, and the rest of APEJ. This section also help readers understand the key factors that are responsible for the growth of the cyber security in robotics market in APEJ.

Chapter 16 – Japan Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This section also help readers understand the key factors that are responsible for the growth of the cyber security in robotics market in Japan.

Chapter 17 – MEA Cyber Security in Robotics Market Analysis 2014-2018 & Opportunity Assessment 2019-2029
This chapter provides information about how the cyber security in robotics market will grow in major countries in the MEA region, such as GCC Countries, South Africa, North Africa, Turkey, and the Rest of MEA, during the forecast period of 2019-2029.

Chapter 18 – Market Structure Analysis
In this chapter, readers can find detailed information about the tier analysis and market concentration of key players in the cyber security in robotics market, along with their market presence analysis by region and product portfolio.

Chapter 19 – Competition Analysis
In this chapter, readers can find a comprehensive list of all the prominent stakeholders in the cyber security in robotics market, along with the detailed information about each company, which includes the company overview, revenue shares, strategic overview, and recent company developments. Some of the market players featured in the report are McAfee, Aujas Cybersecurity, TUV Rheinland, Trojan Horse Security, Beyond Security, Alias Robotics, Exida, Skyhopper, Cloudflare, Akamai Technologies, Symantec, Karamba Security, Cyberbit, and Radware among others.

Chapter 20 – Assumptions and Acronyms
This chapter includes a list of acronyms and assumptions that provides a base to the information and statistics included in the cyber security in robotics market report.

Chapter 21 – Research Methodology
This chapter help readers understand the research methodology followed to obtain various conclusions as well as important qualitative and quantitative information about the Cyber Security in Robotics Market.

【レポートの目次】

1. Executive Summary

1.1. Market Overview

1.2. Market Analysis

1.3. Analysis and Recommendations

2. Market Introduction

2.1. Market Definition

2.2. Market Segment

3. Key Market Trends

3.1. Key Trends Impacting the Market

3.2. Development Trends

4. Global Cyber Security in Robotics Market Demand Analysis 2014-2018 and Forecast, 2019-2029

4.1. Historical Market (Mn Units) Analysis, 2014-2018

4.2. Current and Future Market (Mn Units) Projections, 2019-2029

4.3. Y-o-Y Growth Trend Analysis

5. Global Cyber Security in Robotics Market Demand (in Value or Size in US$ Mn) Analysis 2014-2018 and Forecast, 2019-2029

5.1. Historical Market Value (US$ Mn) Analysis, 2014-2018

5.2. Current and Future Market Value (US$ Mn) Projections, 2019-2029

5.2.1. Y-o-Y Growth Trend Analysis

5.2.2. Absolute $ Opportunity Analysis

6. Market Background

6.1. Macro-Economic Factors

6.2. Forecast Factors

6.3. Value chain

6.4. Market Dynamics

6.4.1. Drivers

6.4.2. Restraints

6.4.3. Opportunity Analysis

7. Market Structure Analysis

7.1. Market Analysis by Tier of Companies (Cyber Security in Robotics )

7.2. Market Concentration

7.3. Market Share Analysis of Top Players

7.4. Market Presence Analysis

7.4.1. By Regional footprint of Players

7.4.2. Product foot print by Players

7.4.3. Channel Foot Print by Players

8. Global Cyber Security in Robotics Market Analysis of Attack Types

8.1. Introduction / Key Findings

8.2. Current and Future Market Scenario

8.2.1. Hardware

8.2.2. OS

8.2.3. Application

9. Global Cyber Security in Robotics Market Analysis by Solution

9.1. Introduction / Key Findings

9.2. Historical Market Size (US$ Mn) and Analysis By Solution, 2014 – 2018

9.3. Current and Future Market Size (US$ Mn) and Analysis and Forecast By Solution, 2019 – 2029

9.3.1. Authentication

9.3.2. Access Control

9.3.3. Secure Communication

9.3.4. Encryption

9.3.5. Denial of Service Protection

9.3.6. Risk & Vulnerability Management

9.4. Market Attractiveness Analysis by Solution

10. Global Cyber Security in Robotics Market Analysis by Service

10.1. Introduction / Key Findings

10.2. Historical Market Size (US$ Mn) and Analysis By Service, 2014 – 2018

10.3. Current and Future Market Size (US$ Mn) and Analysis and Forecast By Service, 2019 – 2029

10.3.1. Security Testing

10.3.2. Upgradation & Patch Management

10.3.3. Security Assessment

10.4. Market Attractiveness Analysis by Service

11. Global Cyber Security in Robotics Market Analysis By Application

11.1. Introduction / Key Findings

11.2. Historical Market Size (US$ Mn) and Analysis By Application, 2014 – 2018

11.3. Current and Future Market Size (US$ Mn) and Analysis and Forecast By Application, 2019 – 2029

11.3.1. Industrial Robot

11.3.2. Medical Robot

11.3.3. Collaborative Robot

11.3.4. Defense Robot

11.3.5. Others

11.4. Market Attractiveness Analysis By Application

12. Global Cyber Security in Robotics Market Analysis by Region

12.1. Introduction

12.2. Historical Market Size (US$ Mn) and Analysis By Region, 2014 – 2018

12.3. Current Market Size (US$ Mn) and Analysis and Forecast By Region, 2019 – 2029

12.3.1. North America

12.3.2. Latin America

12.3.3. Western Europe

12.3.4. Eastern Europe

12.3.5. Asia Pacific excluding Japan (APEJ)

12.3.6. Japan

12.3.7. Middle East & Africa (MEA)

12.4. Market Attractiveness Analysis by Region

13. North America Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

13.1. Introduction

13.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

13.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

13.3.1. By Country

13.3.1.1. U.S.

13.3.1.2. Canada

13.3.2. By Solution

13.3.3. By Service

13.3.4. By Application

13.4. Market Attractiveness Analysis

13.4.1. By Country

13.4.2. By Solution

13.4.3. By Service

13.4.4. By Application

13.5. Market Trends

13.6. Key Market Participants – Intensity Mapping

13.7. Drivers and Restraints – Impact Analysis

14. Latin America Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

14.1. Introduction

14.2. Historical Market Size (US$ Mn) Analysis By Market Taxonomy, 2014 – 2018

14.3. Market Size (US$ Mn) Forecast By Market Taxonomy, 2019 – 2029

14.3.1. By Country

14.3.1.1. Brazil

14.3.1.2. Mexico

14.3.1.3. Rest of Latin America

14.3.2. By Solution

14.3.3. By Service

14.3.4. By Application

14.4. Market Attractiveness Analysis

14.4.1. By Country

14.4.2. By Solution

14.4.3. By Service

14.4.4. By Application

14.5. Market Trends

14.6. Key Market Participants – Intensity Mapping

14.7. Drivers and Restraints – Impact Analysis

15. Western Europe Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

15.1. Introduction

15.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

15.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

15.3.1. By Country

15.3.1.1. Germany

15.3.1.2. Italy

15.3.1.3. France

15.3.1.4. U.K.

15.3.1.5. Spain

15.3.1.6. BENELUX

15.3.1.7. Rest of Europe

15.3.2. By Solution

15.3.3. By Service

15.3.4. By Application

15.4. Market Attractiveness Analysis

15.4.1. By Country

15.4.2. By Solution

15.4.3. By Service

15.4.4. By Application

15.5. Market Trends

15.6. Key Market Participants – Intensity Mapping

15.7. Drivers and Restraints – Impact Analysis

16. Eastern Europe Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

16.1. Introduction

16.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

16.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

16.3.1. By Country

16.3.1.1. Russia

16.3.1.2. Poland

16.3.1.3. Rest of Eastern Europe

16.3.2. By Solution

16.3.3. By Service

16.3.4. By Application

16.4. Market Attractiveness Analysis

16.4.1. By Country

16.4.2. By Solution

16.4.3. By Service

16.4.4. By Application

16.5. Market Trends

16.6. Key Market Participants – Intensity Mapping

16.7. Drivers and Restraints – Impact Analysis

17. Asia Pacific excluding Japan Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

17.1. Introduction

17.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

17.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

17.3.1. By Country

17.3.1.1. China

17.3.1.2. India

17.3.1.3. Indonesia

17.3.1.4. Malaysia

17.3.1.5. South Korea

17.3.2. By Solution

17.3.3. By Service

17.3.4. By Application

17.4. Market Attractiveness Analysis

17.4.1. By Country

17.4.2. By Solution

17.4.3. By Service

17.4.4. By Application

17.5. Market Trends

17.6. Key Market Participants – Intensity Mapping

17.7. Drivers and Restraints – Impact Analysis

18. Japan Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

18.1. Introduction

18.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

18.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

18.3.1. By Solution

18.3.2. By Service

18.3.3. By Application

18.4. Market Attractiveness Analysis

18.4.1. By Country

18.4.2. By Solution

18.4.3. By Service

18.4.4. By Application

18.5. Market Trends

18.6. Key Market Participants – Intensity Mapping

18.7. Drivers and Restraints – Impact Analysis

19. Middle East and Africa Cyber Security in Robotics Market Analysis 2014–2018 and Forecast 2019-2029

19.1. Introduction

19.2. Historical Market Size (US$ Mn) and Trend Analysis By Market Taxonomy, 2014 – 2018

19.3. Market Size (US$ Mn) and Forecast By Market Taxonomy, 2019 – 2029

19.3.1. By Country

19.3.1.1. GCC Countries

19.3.1.2. Turkey

19.3.1.3. Northern Africa

19.3.1.4. South Africa

19.3.1.5. Rest of Middle East and Africa

19.3.2. By Solution

19.3.3. By Service

19.3.4. By Application

19.4. Market Attractiveness Analysis

19.4.1. By Country

19.4.2. By Solution

19.4.3. By Service

19.4.4. By Application

19.5. Market Trends

19.6. Key Market Participants – Intensity Mapping

19.7. Drivers and Restraints – Impact Analysis

20. Competition Analysis

20.1. Competition Dashboard

20.2. Competition Benchmarking

20.3. Competition Development

20.4. Competition Deep Dive

20.4.1. McAfee

20.4.1.1. Overview

20.4.1.2. Product Portfolio

20.4.1.3. Profitability by Market Segments (Product/Channel/Region)

20.4.1.4. Sales Footprint

20.4.1.5. Strategy Overview

20.4.1.5.1. Marketing Strategy

20.4.1.5.2. Product Strategy

20.4.1.5.3. Channel Strategy

20.4.2. Aujas Cyber security

20.4.2.1. Overview

20.4.2.2. Product Portfolio

20.4.2.3. Profitability by Market Segments (Product/Channel/Region)

20.4.2.4. Sales Footprint

20.4.2.5. Strategy Overview

20.4.2.5.1. Marketing Strategy

20.4.2.5.2. Product Strategy

20.4.2.5.3. Channel Strategy

20.4.3. TUV Rheinland

20.4.3.1. Overview

20.4.3.2. Product Portfolio

20.4.3.3. Profitability by Market Segments (Product/Channel/Region)

20.4.3.4. Sales Footprint

20.4.3.5. Strategy Overview

20.4.3.5.1. Marketing Strategy

20.4.3.5.2. Product Strategy

20.4.3.5.3. Channel Strategy

20.4.4. Trojan Horse Security

20.4.4.1. Overview

20.4.4.2. Product Portfolio

20.4.4.3. Profitability by Market Segments (Product/Channel/Region)

20.4.4.4. Sales Footprint

20.4.4.5. Strategy Overview

20.4.4.5.1. Marketing Strategy

20.4.4.5.2. Product Strategy

20.4.4.5.3. Channel Strategy

20.4.5. Beyond Security

20.4.5.1. Overview

20.4.5.2. Product Portfolio

20.4.5.3. Profitability by Market Segments (Product/Channel/Region)

20.4.5.4. Sales Footprint

20.4.5.5. Strategy Overview

20.4.5.5.1. Marketing Strategy

20.4.5.5.2. Product Strategy

20.4.5.5.3. Channel Strategy

20.4.6. Alias Robotics

20.4.6.1. Overview

20.4.6.2. Product Portfolio

20.4.6.3. Profitability by Market Segments (Product/Channel/Region)

20.4.6.4. Sales Footprint

20.4.6.5. Strategy Overview

20.4.6.5.1. Marketing Strategy

20.4.6.5.2. Product Strategy

20.4.6.5.3. Channel Strategy

20.4.7. NTT Data

20.4.7.1. Overview

20.4.7.2. Product Portfolio

20.4.7.3. Profitability by Market Segments (Product/Channel/Region)

20.4.7.4. Sales Footprint

20.4.7.5. Strategy Overview

20.4.7.5.1. Marketing Strategy

20.4.7.5.2. Product Strategy

20.4.7.5.3. Channel Strategy

20.4.8. Xelium Tech Solution

20.4.8.1. Overview

20.4.8.2. Product Portfolio

20.4.8.3. Profitability by Market Segments (Product/Channel/Region)

20.4.8.4. Sales Footprint

20.4.8.5. Strategy Overview

20.4.8.5.1. Marketing Strategy

20.4.8.5.2. Product Strategy

20.4.8.5.3. Channel Strategy

20.4.9. Exida

20.4.9.1. Overview

20.4.9.2. Product Portfolio

20.4.9.3. Profitability by Market Segments (Product/Channel/Region)

20.4.9.4. Sales Footprint

20.4.9.5. Strategy Overview

20.4.9.5.1. Marketing Strategy

20.4.9.5.2. Product Strategy

20.4.9.5.3. Channel Strategy

20.4.10. NTT Data Services

20.4.10.1. Overview

20.4.10.2. Product Portfolio

20.4.10.3. Profitability by Market Segments (Product/Channel/Region)

20.4.10.4. Sales Footprint

20.4.10.5. Strategy Overview

20.4.10.5.1. Marketing Strategy

20.4.10.5.2. Product Strategy

20.4.10.5.3. Channel Strategy

20.4.11. Skyhopper

20.4.11.1. Overview

20.4.11.2. Product Portfolio

20.4.11.3. Profitability by Market Segments (Product/Channel/Region)

20.4.11.4. Sales Footprint

20.4.11.5. Strategy Overview

20.4.11.5.1. Marketing Strategy

20.4.11.5.2. Product Strategy

20.4.11.5.3. Channel Strategy

20.4.12. DXC Technology

20.4.12.1. Overview

20.4.12.2. Product Portfolio

20.4.12.3. Profitability by Market Segments (Product/Channel/Region)

20.4.12.4. Sales Footprint

20.4.12.5. Strategy Overview

20.4.12.5.1. Marketing Strategy

20.4.12.5.2. Product Strategy

20.4.12.5.3. Channel Strategy

20.4.13. Cloud Flare

20.4.13.1. Overview

20.4.13.2. Product Portfolio

20.4.13.3. Profitability by Market Segments (Product/Channel/Region)

20.4.13.4. Sales Footprint

20.4.13.5. Strategy Overview

20.4.13.5.1. Marketing Strategy

20.4.13.5.2. Product Strategy

20.4.13.5.3. Channel Strategy

20.4.14. Infosec

20.4.14.1. Overview

20.4.14.2. Product Portfolio

20.4.14.3. Profitability by Market Segments (Product/Channel/Region)

20.4.14.4. Sales Footprint

20.4.14.5. Strategy Overview

20.4.14.5.1. Marketing Strategy

20.4.14.5.2. Product Strategy

20.4.14.5.3. Channel Strategy

20.4.15. Akamai

20.4.15.1. Overview

20.4.15.2. Product Portfolio

20.4.15.3. Profitability by Market Segments (Product/Channel/Region)

20.4.15.4. Sales Footprint

20.4.15.5. Strategy Overview

20.4.15.5.1. Marketing Strategy

20.4.15.5.2. Product Strategy

20.4.15.5.3. Channel Strategy

20.4.16. Radware

20.4.16.1. Overview

20.4.16.2. Product Portfolio

20.4.16.3. Profitability by Market Segments (Product/Channel/Region)

20.4.16.4. Sales Footprint

20.4.16.5. Strategy Overview

20.4.16.5.1. Marketing Strategy

20.4.16.5.2. Product Strategy

20.4.16.5.3. Channel Strategy

21. Assumptions and Acronyms Used

22. Research Methodology



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