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非医療用バイオミメティクスロボット(生体模倣ロボット)の世界市場の分析

Global Market Study on Non-Medical Biomimetic Robots: Defense Sector to Become One of the Early Adopters of This Technology

発行 Persistence Market Research 商品コード 729921
出版日 ページ情報 英文 167 Pages
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=114.65円で換算しております。
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非医療用バイオミメティクスロボット(生体模倣ロボット)の世界市場の分析 Global Market Study on Non-Medical Biomimetic Robots: Defense Sector to Become One of the Early Adopters of This Technology
出版日: 2018年10月04日 ページ情報: 英文 167 Pages
概要

非医療用バイオミメティクスロボット(生体模倣ロボット)は、昆虫、鳥類、動物、ヒト、魚などの生物に着想を得て開発されたロボットです。これらは、検査、監視、輸送、物流、マテリアルハンドリング、製造、個人使用、在宅介護など、幅広い用途に使用されています。

当レポートでは、世界の非医療用バイオミメティクスロボット(生体模倣ロボット)市場を調査し、市場の概要、非医療用バイオミメティクスロボットの潜在性の分析、各産業分野におけるバイオミメティクス技術、商業化の段階、市場規模の推移と予測、市場動向、価格分析、競合情勢、主要企業のプロファイルなど、包括的な情報を提供しています。

目次

第1章 エグゼクティブサマリー

第2章 市場の分類

第3章 市場の定義

第4章 バイオミメティクスロボットの沿革

  • 技術ロードマップ

第5章 自然物から着想を得たデザイン:業種別

  • 輸送産業におけるバイオミメティクス(生体模倣)
  • 自動車産業におけるバイオミメティクス
  • エネルギー・発電産業におけるバイオミメティクス
  • ビル・建設産業におけるバイオミメティクス
  • 繊維・材料産業におけるバイオミメティクス
  • 化学産業におけるバイオミメティクス
  • バイオミメティクスの浸透度
  • 製品/技術の成熟度(概念、試作、テスト、商品化)
  • バイオミメティクス製品の企業リスト
  • 特許分析
    • 特許一覧
    • 特許の比率:用途別
    • 特許の比率:業種別

第6章 ロボット工学におけるバイオミメティクスの必要性

  • 従来のロボットとバイオミメティクスロボットの比較

第7章 世界のロボット産業の概要

  • ロボット革命:産業の新たな次元を創出
  • 世界のロボット売上数と先進国、開発国、後進国におけるオートメーションの浸透度
  • 主要国における従業員1万人当たりの産業用ロボットの設置数
  • 産業用ロボット市場の概要:エンドユーザー産業・地域別
  • オートメーションコストと人件費
  • 世界の軍事用ロボット市場の概要

第8章 一般的に使用される非医療用バイオミメティクスロボットの例

  • チーターロボット
  • ハミングロボット
  • トカゲに着想を得たバイオミメティクスロボット
  • サメに着想を得たバイオミメティクスロボット
  • コウモリに着想を得たバイオミメティクスロボット
  • 魚に着想を得たバイオミメティクスロボット
  • トンボに着想を得たバイオミメティクスロボット
  • ロブスターに着想を得たバイオミメティクスロボット
  • 蠕動運動およびヘビに着想を得たバイオミメティクスロボット
  • 人間に着想を得たバイオミメティクスロボット
  • Spotmini(四足歩行ロボット)& Cassie(二足歩行ロボット)

第9章 市場力学

  • 成長要因
  • 阻害要因
  • 市場動向

第10章 破壊的技術をもつバイオミメティクスロボット市場のベンチマーキング

  • 破壊的技術:上位20位
  • 破壊的技術の商業化段階
  • 破壊的技術の導入評価
  • エンドユーザー産業における商品化までの時間
  • エンドユーザー産業における採用時間の比較
  • エンドユーザー産業に破壊的技術が採用される可能性
  • 前記技術と非医療用バイオミメティクスロボット市場との関連性
  • エンドユーザー産業でロボットが果たす役割
  • 最終用途と応用分野の分析
  • バイオミメティクスロボット:商業化段階
  • 今後5年間で最大の破壊的技術を有する産業分野

第11章 非医療用バイオミメティクスロボット市場の潜在性

  • 資金調達:非医療用生体模倣ロボット
  • 平均価格の分析
  • ロボットの平均コストの内訳と分析
  • 市場予測:地域別(数量ベース)
  • 市場予測:地域別(金額ベース)
  • 市場の潜在性:エンドユーザー産業別
  • 商業化段階:エンドユーザー産業別
  • 潜在性の分析:用途別
  • 市場概要:ロボット産業における浸透率

第12章 非医療用バイオミメティクスロボット市場:地域別

  • 北米
  • 欧州
  • ラテンアメリカ・中東・アフリカ
  • 中国
  • 日本
  • アジア太平洋地域
  • 競合分析
  • 市場潜在性の分析:上位国別
  • 市場潜在性の分析:最終用途別
  • 市場潜在性の分析:業種別
  • 市場概要:地域別
  • ライフサイクル分析:地域別
  • 市場分析:最終用途・地域別
  • 非医療用生体模倣ロボットの導入度合い:業種別
  • 非医療用生体模倣ロボットの導入度合い:最終用途別

第13章 1次調査

第14章 競合情勢

  • コンペティションダッシュボード
  • 市場構造の分析
  • 参入企業(メーカー、インテグレーター、部品サプライヤーなど)
  • 企業プロファイル
    • Boston Dynamics
    • Festo Group
    • Vincross Inc.
    • Agility Robotics
    • XITM (Bionic bird)
    • AeroVironment, Inc.
    • The University of California
    • Massachusetts Institute of Technology
    • KUKA AG
    • ABB Group

第15章 調査方法

第16章 前提条件と頭字語

図表

List of Tables

  • Table: 01 Non Medical Biomimetic Robot Market Potential (US$ '000) Analysis and Forecast By Region
  • Table: 02 Non Medical Biomimetic Robot Market Potential (US$ '000) Analysis and Forecast By End Use Industry
  • Table: 03 Non Medical Biomimetic Robot Market Potential (US$ '000) Analysis and Forecast By Application

List of Figures

  • Figure 01: Bioinspired Innovation's Present Scenario Overview By End Use Industry, Penetration scale, 2017 A
  • Figure 02: Global Industrial Robots Sales ('000 units), 2005-2017
  • Figure 03: Worldwide annual supply of industrial robots at year end by regions 2015-2017
  • Figure 04: Worldwide annual supply of industrial robots at year end by industries 2015-2017
  • Figure 05: Worldwide annual supply of industrial robots at year end main markets 2015-2017
  • Figure 06: Cost of Automation
  • Figure 07: Global Spending on robots US$ Bn
  • Figure 08: U.S. Department of Defense Unmanned Systems Funding (US$ Mn)
  • Figure 09: Non-Medical Biomimetic Robot Market Volume Analysis and Forecast By Region
  • Figure 10: Non-Medical Biomimetic Robot Market Potential Analysis and Forecast By Region
  • Figure 11: Non-Medical Biomimetic Robot Market Potential Analysis and Forecast By End Use Industry
  • Figure 12: Non-Medical Biomimetic Robot Market Potential Analysis and Forecast By Application
  • Figure 13: North America Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 14: North America Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • Figure 15: Europe Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 16: Europe Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • Figure 17: LAMEA Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 18: LAMEA Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • Figure 19: China Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 20: China Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • Figure 21: Japan Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 22: Japan Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • Figure 23: South East Asia & Pacific Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
  • Figure 24: South East Asia & Pacific Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
目次

This PMR study offers detailed insights and in-depth research on the global non-medical biomimetic robots market between 2018 and 2028. This study highlights the non-medical biomimetic robot market potential over three intervals, i.e. short term (2019-2020), medium term (2023-24) and long term (2026-28). The non-medical biomimetic market is projected to register exponential growth over the forecast period. The study tries to cover various perspectives of the non-medical biomimetic robots market such as the evolution of non-medical biomimetic robots, market dynamics, value chain, pricing analysis, list of funding companies and organizations, competition analysis and a regional scenario overview. It also highlights various macro-economic factors at a regional level and for the top countries. The non-medical biomimetic robot market report also covers a comprehensive analysis by various end-use segments and applications. Increase in funding by government organizations for the research and development of robots for military applications is creating significant opportunities for non-medical biomimetic robots.

The Persistence Market Research report on non-medical biomimetic robots carefully analyses the market at a global and regional level through market segmentation on the basis of key parameters such as end use industry and application. The primary objective of the report is to offer key insights on market updates, competition positioning, current trends, market potential, growth rates and other relevant information and statistics in a suitable manner to the readers or various stakeholders of the non-medical biomimetic robot market.

Non-medical biomimetic robots are the robots inspired from natural living organisms such as insects, birds, animals, humanoids and fish. Non-medical biomimetic robots have shown improved performance in areas where there has been a need for flexible structure and other industrial robots could not be used. These are used for a wide variety of applications such as inspection, surveillance, transportation and logistics, material handling, manufacturing, personal use and home assistance

The non-medical biomimetic robot market report has been formulated in a way that the reader can develop a thorough understanding about the market. It begins with market definitions, an overview of the overall biomimetic market potential, followed by the market background, market dynamics and market analysis by key segments, regional analysis and competition landscape. Each section covers a qualitative and quantitative assessment of the non-medical biomimetic robots market on the basis of facts, historical developments and key opinions collected from industry participants, researchers through dedicated interviews and trends in the market.

The non-medical biomimetic robot report begins with a market introduction, defining the term biomimetic and the examples of common products and structures made from bio-inspired creatures. This section also covers market taxonomy and product definitions regarding the global non-medical biomimetic robots market. The next section of the non-medical biomimetic robot report highlights the overall global biomimetic market, technology roadmap, market analysis by end-use industries such as building and construction, transportation, automotive, energy and power generation, textile and materials and chemical, amongst others. The section also highlights the various products across each-use industries in research, prototype, trial and testing and commercialization. It includes a list of market participants that have launched their products inspired from a biological origin.

The section of the non-medical biomimetic robot report that follows includes a comparative study of the conventionally-used and non-medical biomimetic robots, highlighting why non-medical biomimetic robots outperform in real time situations. The section also covers an overview of the overall robotics industry, primarily focusing on industrial and military robots.

The next section of the non-medical biomimetic robot report covers a detailed description of the various prototypes of non-medical biomimetic robots developed so far, such as snake robot, fish, cheetah, humming bird, crawler, bat and ATLAS humanoid, among others.

This section of the non-medical biomimetic robots market report is followed by market dynamics, which include various drivers and restraints that are projected to fuel or hamper the market growth. It also highlights the ongoing trends in the market and factors that might affect automation across regions.

The next section of the non-medical biomimetic robots market report depicts the analysis of non-medical biomimetic robots by drawing analogy with other similar disruptive technologies such as cloud computing, artificial intelligence, cognitive computing, block chain, internet of things, cyber security and biometrics, among others. This section also highlights the commercialization stages of the each of these disruptive technologies across various end-use industries. This helps in drawing analogy and estimating the average time of commercialization and adoption rate of non-medical biomimetic robots across these industries.

The following section highlights the non-medical biomimetic robots market potential in US$ (Mn). The section also provides an estimated market volume for non-medical biomimetic robots and a weighted average pricing analysis.

The global numbers, i.e. market potential for non-medical biomimetic robots, have been derived from the individual regions, covering major countries by following a bottom-up approach. The non-medical biomimetic robots report also provides responses gathered from primary survey respondents, which have been taken into consideration while estimating the market potential.

The last section of the non-medical biomimetic robot report is a competition landscape, which identifies the companies and research organizations that have been actively participating in the development of non-medical biomimetic robots. The non-medical biomimetic robot report covers the market structure and competition dashboard to provide an overall glimpse of the market. This section is primarily designed to provide clients with an objective and detailed comparative assessment of the key providers specific to a market segment in the value chain of the non-medical biomimetic robots. Examples of some of the key competitors covered in the non-medical biomimetic robot report includes Boston Dynamics, Festo Group, Agility Robotics, AeroVironment, Inc., The University of California, Massachusetts Institute of Technology, KUKA AG and ABB Group, among others.

The last sections provide a step-by-step analysis of the methodology used to arrive at the market potential, keeping in mind the various macro-economic factors and dynamics of the non-medical biomimetic robots market.

Table of Contents

1. Executive Summary

  • 1.1. Market Overview
  • 1.2. Market Analysis
  • 1.3. PMR Analysis and Recommendations

2. Market Taxonomy

3. Market Definition

4. How has biomimetic evolved?

  • 4.1. Technology Roadmap

5. Examples of common nature inspired designs across various industries

  • 5.1. Biomimetics in transportation industry
  • 5.2. Biomimetics in automotive industry
  • 5.3. Biomimetics in energy and power generation industry
  • 5.4. Biomimetics in building and construction industry
  • 5.5. Biomimetics in textile and materials industry
  • 5.6. Biomimetics in chemical industry
  • 5.7. Level of adaption of biomimetics across various end use industries
  • 5.8. Product/ Technology Maturity Scale ( concept, prototype, trial and testing, commercialization)
  • 5.9. List of companies actively launching products inspired from biological origin
  • 5.10. Global biomimetics market patent analysis
    • 5.10.1. List of patents
    • 5.10.2. Patent share by applicants
    • 5.10.3. Patent share by end use industry

6. The need for biomimetic in robotics

  • 6.1. Comparison of conventional and biomimetic robots

7. An overview of the global robotics industry

  • 7.1. The Robotic Revolution: Adding A New Dimension To The Industries
  • 7.2. Global Robots sales volume overview and degree of automation in developed, developing and underdeveloped economies
  • 7.3. Industrial robots installation per 10000 employees by top countries
  • 7.4. Industrial robots market overview by region and by end use industry
  • 7.5. Cost of automation and labor cost overview
  • 7.6. Global Military robots market overview

8. Examples of commonly used non-medical biomimetic robots

  • 8.1. Cheetah Robot
  • 8.2. Humming bird robot
  • 8.3. Crawling lizard robot
  • 8.4. Shark inspired robot
  • 8.5. Bat inspired robot
  • 8.6. Fish inspired robot
  • 8.7. Dragonfly inspired robot
  • 8.8. Lobster inspired robot
  • 8.9. Mesh worm and snake inspired robot
  • 8.10. Human inspired robot
  • 8.11. Spotmini (dog) and Cassie (Bird) inspired robot

9. Market Dynamics

  • 9.1. Drivers
  • 9.2. Restraints
  • 9.3. Trends
  • 9.4. Factors affecting the pace and extent of automation

10. Benchmarking biomimetic robots market potential with major disruptive technologies

  • 10.1. Overview of top 20 disruptive technologies
  • 10.2. Commercialization stages for major disruptive technologies
  • 10.3. Disruptive technology implementation assessment
  • 10.4. Time to commercialize across respective end use industries
  • 10.5. Relative time of adaption across end use industries-calculating deviation
  • 10.6. Probability of a disruptive technology to get adapted across end use industries
  • 10.7. How the evolution of listed technologies is related to non-medical biomimetic robots market
  • 10.8. What role does robots play across various end use industry
  • 10.9. End use vs application matrix
  • 10.10. Biomimetic robots: Commercialization stage
  • 10.11. Top Industries with greatest disruptive index in the coming five years

11. Global non-medical biomimetic robots market potential analysis

  • 11.1. Funding: Non-medical biomimetic robots
  • 11.2. Global non-medical biomimetic robots market average pricing analysis
  • 11.3. Global robots market cost breakdown analysis
  • 11.4. Global non-medical biomimetic robots market volume potential analysis by region
  • 11.5. Global non-medical biomimetic robots market value potential analysis by region
  • 11.6. Global non-medical biomimetic robots market potential analysis by end use industry
  • 11.7. Non-medical biomimetic robots market: level of commercialization across end use industry
  • 11.8. Global non-medical biomimetic robots market potential analysis by application
  • 11.9. Percentage penetration in conventional robotics industry: Global non-medical biomimetics robots market overview

12. Non-medical biomimetic robots market overview by region

  • 12.1. North America market overview
    • 12.1.1. North America market overview
      • 12.1.1.1. By Country
      • 12.1.1.2. Overall level of automation
      • 12.1.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.1.1.4. Robotics market volume (units), Growth rate %
      • 12.1.1.5. Major players in the market
      • 12.1.1.6. Level of automation by end use industry
    • 12.1.2. North America Biomimetic Robots Market Potential Analysis
      • 12.1.2.1. Market potential volume, 2019-28
      • 12.1.2.2. Market potential value, 2019-28
      • 12.1.2.3. North America Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.1.2.4. North America Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.2. Europe market overview
    • 12.2.1. Europe market overview
      • 12.2.1.1. By Country
      • 12.2.1.2. Overall level of automation
      • 12.2.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.2.1.4. Robotics market volume (units), Growth rate %
      • 12.2.1.5. Major players in the market
      • 12.2.1.6. Level of automation by end use industry
    • 12.2.2. Europe Biomimetic Robots Market Potential Analysis
      • 12.2.2.1. Market potential volume, 2019-28
      • 12.2.2.2. Market potential value, 2019-28
      • 12.2.2.3. Europe Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.2.2.4. Europe Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.3. LAMEA market overview
    • 12.3.1. LAMEA market overview
      • 12.3.1.1. By Country
      • 12.3.1.2. Overall level of automation
      • 12.3.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.3.1.4. Robotics market volume (units), Growth rate %
      • 12.3.1.5. Major players in the market
      • 12.3.1.6. Level of automation by end use industry
    • 12.3.2. LAMEA Biomimetic Robots Market Potential Analysis
      • 12.3.2.1. Market potential volume, 2019-28
      • 12.3.2.2. Market potential value, 2019-28
      • 12.3.2.3. LAMEA Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.3.2.4. LAMEA Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.4. China market overview
    • 12.4.1. China market overview
      • 12.4.1.1. By Country
      • 12.4.1.2. Overall level of automation
      • 12.4.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.4.1.4. Robotics market volume (units), Growth rate %
      • 12.4.1.5. Major players in the market
      • 12.4.1.6. Level of automation by end use industry
    • 12.4.2. China Biomimetic Robots Market Potential Analysis
      • 12.4.2.1. Market potential volume, 2019-28
      • 12.4.2.2. Market potential value, 2019-28
      • 12.4.2.3. China Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.4.2.4. China Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.5. Japan market overview
    • 12.5.1. Japan market overview
      • 12.5.1.1. By Country
      • 12.5.1.2. Overall level of automation
      • 12.5.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.5.1.4. Robotics market volume (units), Growth rate %
      • 12.5.1.5. Major players in the market
      • 12.5.1.6. Level of automation by end use industry
    • 12.5.2. Japan Biomimetic Robots Market Potential Analysis
      • 12.5.2.1. Market potential volume, 2019-28
      • 12.5.2.2. Market potential value, 2019-28
      • 12.5.2.3. Japan Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.5.2.4. Japan Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.6. SEA and Pacific market overview
    • 12.6.1. SEA and Pacific market overview
      • 12.6.1.1. By Country
      • 12.6.1.2. Overall level of automation
      • 12.6.1.3. Military Expenditure, US$ Mn, Military expenditure as % of GDP
      • 12.6.1.4. Robotics market volume (units), Growth rate %
      • 12.6.1.5. Major players in the market
      • 12.6.1.6. Level of automation by end use industry
    • 12.6.2. SEA and Pacific Biomimetic Robots Market Potential Analysis
      • 12.6.2.1. Market potential volume, 2019-28
      • 12.6.2.2. Market potential value, 2019-28
      • 12.6.2.3. SEA and Pacific Non-Medical Biomimetic Robot Market Potential Analysis By End Use (2019-2020)
      • 12.6.2.4. SEA and Pacific Non-Medical Biomimetic Robot Market Potential Analysis By Application (2019-2020)
  • 12.7. Comparative analysis for global trading indicators
  • 12.8. Global non-medical biomimetic robots market potential analysis by top countries
  • 12.9. Global non-medical biomimetic robots market potential analysis by end use sectors
  • 12.10. Global non-medical biomimetic robots market potential analysis by key industries
  • 12.11. Global non-medical biomimetic robots market overview by region
  • 12.12. Life cycle analysis of non-medical biomimetic robots by regions
  • 12.13. Global non-medical biomimetic robots market analysis by region and end use industries
  • 12.14. Overview of robots applications by major end use industries
  • 12.15. Scale of adaption of non-medical biomimetic robots by industries
  • 12.16. Scale of adaption of non-medical biomimetic robots by end use sector

13. Primary Survey: Non-Medical biomimetic robots

14. Competition Landscape

  • 14.1. Competition dashboard
  • 14.2. Market structure analysis
  • 14.3. List of market participants ( manufacturers, integrators, component suppliers amongst others)
  • 14.4. Company Profiles
    • 14.4.1. Boston Dynamics
    • 14.4.2. Festo Group
    • 14.4.3. Vincross Inc.
    • 14.4.4. Agility Robotics
    • 14.4.5. XITM (Bionic bird)
    • 14.4.6. AeroVironment, Inc.
    • 14.4.7. The University of California
    • 14.4.8. Massachusetts Institute of Technology
    • 14.4.9. KUKA AG
    • 14.4.10. ABB Group

15. Research Methodology

16. Assumptions and acronyms used

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