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将来の農業を刺激する新興技術

Emerging Technologies Stimulating the Future of Agriculture

発行 Frost & Sullivan 商品コード 422218
出版日 ページ情報 英文 122 Pages
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=107.57円で換算しております。
将来の農業を刺激する新興技術 Emerging Technologies Stimulating the Future of Agriculture
出版日: 2016年12月30日 ページ情報: 英文 122 Pages
概要

当レポートでは、農業部門における各種新興技術の動向を調査し、農業の需要性と将来のニーズ、ニーズ充足のための各種新興技術、12の主要新興技術の概要、導入推進因子と課題、企業による取り組み、市場機会の分析と成功・成長のための必須要件などをまとめています。

第1章 エグゼクティブサマリー

第2章 農業部門の概要

  • 農業の重要性:新興国にとっての主な雇用産業
  • 農業の将来のニーズ:収量拡大が需要充足のための最大の課題
  • 将来のニーズを満たす12の新興技術
  • 産業推進因子と障壁
  • 産業バリューチェーン

第3章 主な新興技術

  • 精密農業
  • 垂直農法
  • 総合的病害虫管理 (IPM:Integrated Pest Management)
  • 水保全技術
  • 高効率肥料 (EEF:Enhanced Efficiency Fertilizers)
  • 農業用ロボット
  • 大気造水
  • LEDによる屋内作物栽培技術
  • 農業廃棄物のアップサイクリング (AWU:AGRICULTURAL WASTE UPCYCLING)
  • 機器テレマティクス
  • 家畜のバイオメトリクス
  • 作物センサー
    • 地域動向
    • 推進因子と障壁
    • 企業の取り組み

第4章 成長機会

  • 成長機会:持続可能な農業の実践 - 新しい能力
  • 成長機会:持続可能な農業の実践 - 地域的拡張
  • 成長機会:収量の拡大 - 新しい能力
  • 成長機会:収量の拡大 - 地域的拡張
  • 成長機会:インテリジェント農場 - 新しい能力
  • 成長機会:インテリジェント農場 - 地域的拡張
  • 成功・成長の戦略的必須要件
  • 技術ロードマップ:将来実行されうる新興動向

第5章 アナリストの見解

第6章 主な特許・コンタクト先

第7章 FROST & SULLIVANについて

目次
Product Code: D72A

Emerging technologies in agriculture will play a significant role in improving the efficiency and predictability of agriculture

Exponential increase in the global population and the astronomical decrease in the fertile agricultural lands have compelled everyone to focus on emerging technologies which lays emphasis on weather tracking, satellite imaging, vertical farming, precision agriculture, crop sensors and water conservation technologies. The research study discusses several emerging technologies along with the respective drivers and challenges for each in detail and also provides a spotlight for various industrial stakeholders and academic participants who have strived hard to improve the quality of futuristic technologies which shall impact the future of the agricultural sector. The research study also provides useful insights which can be helpful in enhancing the agricultural efficiency and also provides sustainable approaches that can make this world a better place to live in.

Table of Contents

1. 1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Process and Methodology
  • 1.3. Key Findings
  • 1.3. Key Findings (continued)

2. 2.0. AGRICULTURAL SECTOR OVERVIEW

  • 2.1. Significance of Agriculture: Agriculture is a Major Employment Provider in Developing Countries
  • 2.2. Future Needs of Agriculture : Increased Yield is of Utmost Necessity to Meet the Growing Demand for Food
  • 2.3. Emerging Technologies in Agriculture Addressing the Future Needs: 12 Emerging Technologies Have Been Identified
  • 2.4. Industry Drivers and Restraints : Higher Yields Are Expected to Act as a Major Driver for the Adoption of Emerging Agricultural Technologies
  • 2.4. Industry Drivers and Restraints (continued)
  • 2.5. Industry Value Chain: The Value Chain Consists of Six Major Elements
  • 2.5. Industry Value Chain (continued)
  • 2.5. Industry Value Chain (continued)

3. 3.0. KEY EMERGING TECHNOLOGIES

  • 3.1.1. Precision Agriculture: Accurate Data Enables Improved Crop Yields
  • 3.1.2. Regional Trends: The Maximum Number of Patents Is Witnessed in the US
  • 3.1.3. Drivers and Restraints: Precision Agriculture Enables Increased Profitability
  • 3.1.4. Drivers and Restraints: Sensors Play A Major Role in Reducing Water and Nutrient Requirements
  • 3.1.5. Companies Use Yield Mapping and Crop Health Monitoring in Precision Agriculture to Increase Crop Production

4. 3.2. VERTICAL FARMING

  • 3.2.1. Vertical Farming
  • 3.2.2. Regional Trends: US Has the Maximum Number of Patents Filed
  • 3.2.3. Drivers and Restraints: High Capital Expenditure Acts as a Major Deterrent for Adoption of Vertical Farming
  • 3.2.4. Drivers and Restraints: Better Crop Characteristics Act as a Major Driver For Adoption
  • 3.2.5. Companies Following Hydroponic and Aeroponic Techniques in Vertical Farming Have High Productivity and Yield Per Area

5. 3.3. INTEGRATED PEST MANAGEMENT

  • 3.3.1. Integrated Pest Management (IPM)
  • 3.3.2. Regional Trends: Significant Levels of Technology Adoption Observed in North America with Increased Funding and IP
  • 3.3.3. Drivers and Restraints: IPM Reduces the Level of Pesticides in the Food Value Chain
  • 3.3.4. Drivers and Restraints: IPM Reduces Elimination of Beneficial Organisms from the Ecosystem
  • 3.3.5. Companies Focus on Natural Pest Control Methods in IPM to Increase Crop Protection

6. 3.4. WATER CONSERVATION TECHNOLOGIES

  • 3.4.1. Water Conservation Technologies in Agriculture
  • 3.4.2. Regional Trends: Increasing Adoption of Water Conservation Technologies Is Seen in North America and China
  • 3.4.3. Drivers and Restraints: Scarce availability of Water Resources propels the Adoption of Water Conservation Technologies
  • 3.4.4. Drivers and Restraints: Real Time Measurement Of Water Utilization is the Preliminary Step Towards Reducing Water Usage
  • 3.4.5. Companies Introduce Microirrigation Systems and Leakage Monitoring in Water Management to Reduce Excess Utilization of Fresh Water Resources

7. 3.5. ENHANCED EFFICIENCY FERTILIZERS

  • 3.5.1. Enhanced Efficiency Fertilizers (EEFs)
  • 3.5.2. Regional Trends: US Leads in the Number of Patents Filed
  • 3.5.3. Drivers and Restraints: EEF Reduces Soil and Environmental Pollution to a Significant Extent
  • 3.5.4. Drivers and Restraints: Enhanced Efficiency Fertilizers Enables Increased Profitability
  • 3.5.5. Companies Strive to Maintain Nutrient Levels in the Soil Using EFFs to Increase Crop Yield Per Hectare

8. 3.6. AGRICULTURAL ROBOTS

  • 3.6.1. Agricultural Robots
  • 3.6.2. Regional Trends: Sizable Funding Is Available in the North American and European Regions
  • 3.6.3. Drivers and Restraints: Farm Labor Shortage Is a Major Driving Factor for Adoption of Agricultural Robots
  • 3.6.4. Drivers and Restraints: Agricultural Robots Enable Improved Optimization in Harvest Timings
  • 3.6.5. UAVs with Computer Control Systems Are Incorporated to Reduce Manual Labor and Increase Efficiency

9. 3.7. ATMOSPHERIC WATER GENERATION

  • 3.7.1. Atmospheric Water Generator
  • 3.7.2. Regional Trends: AWG Has Been Attracting Funding in all Major Regions across the Globe
  • 3.7.3. Drivers and Restraints: Water Scarcity in Many Regions are Driving Interest toward AWG Development
  • 3.7.4. Drivers and Restraints: AWGs Utilizing RE Would Reduce Dependence on Fossil Fuels
  • 3.7.5. Companies Generate Water from Atmosphere without Using Water Source as Input Source

10. 3.8. LED INDOOR CROP TECHNOLOGY

  • 3.8.1. LED Indoor Crop Technology
  • 3.8.2. Regional Trends: Highest Funding Activity Was Observed in APAC
  • 3.8.3. Drivers and Restraints: Technology Enables Reduced Interference from Weather Vagaries
  • 3.8.4. Drivers and Restraints: LED Technology Enables Prolonged Photosynthetic Processes
  • 3.8.5. Companies with LED Light-based Intense Farming for Nutritious Crops with High Yield and Faster Harvest Cycles

11. 3.9. AGRICULTURAL WASTE UPCYCLING (AWU)

  • 3.9.1. Agricultural Waste Upcycling
  • 3.9.2. Regional Trends: North America Has the Maximum Number of Patents
  • 3.9.3. Drivers and Restraints: Agricultural Waste Upcycling Enables Reduced Green House Gas Emissions
  • 3.9.4. Drivers and Restraints: Agricultural Waste Upcycling Drives Reduced GHG Emissions, Waste Generation and Energy Consumption
  • 3.9.5. Companies Follow Advanced Waste Recycling Solutions to Reduce Workload on Landfills and Managing Waste to Establish Sustainability

12. 3.10. EQUIPMENT TELEMATICS

  • 3.10.1. Equipment Telematics for Agriculture
  • 3.10.2. Regional Trends: North America Sees the Highest Number of Patents
  • 3.10.3. Drivers and Restraints: Real-time Information Drives the Increase in Fuel Efficiency Usage
  • 3.10.4. Drivers and Restraints: Quick Response Time is Increasingly Driving the Adoption of Equipment Telematics
  • 3.10.5. Companies Innovate Using Machine-to-Machine Interaction to Enhance Agriculture in an Efficient Way

13. 3.11. LIVESTOCK BIOMETRICS

  • 3.11.1. Livestock Biometrics
  • 3.11.2. Funding and Patent Patterns: Specific Funding Avenues for Technology Development Are Low
  • 3.11.3. Drivers and Restraints: Improved Accuracy in Monitoring and Increased Productivity are the Major Drivers for Livestock Biometrics
  • 3.11.4. Drivers and Restraints: Non-invasive Biometric Technologies are not Vulnerable to Losses or Duplications
  • 3.11.5. Livestock Biometrics Is Increasingly Becoming an Important Part of Efficient Agriculture

14. 3.12. CROP SENSORS

  • 3.12.1. Crop Sensors
  • 3.12.2. Funding and Patent Patterns: Funding Sources for Technology Development Are Mostly Private in Nature
  • 3.12.3. Drivers and Restraints: Significant Capital Investment Hinder the Adoption of the Technology
  • 3.12.4. Drivers and Restraints: Low Connectivity in Certain Regions is Hindering the Adoption of Sensors
  • 3.12.5. Nitrogen Measurement in Crops Is One of the Major Focal Areas for Crop Sensors

15. 4.0. GROWTH OPPORTUNITIES

  • 4.1. Growth Opportunity 1: Sustainable Agricultural Practices - New Capabilities
  • 4.2. Growth Opportunity 1: Sustainable Agricultural Practices -Geographic Expansion
  • 4.3. Growth Opportunity 2: Increased Crop Output - New Capabilities
  • 4.4. Growth Opportunity 2: Increased Crop Output - Geographic Expansion
  • 4.5. Growth Opportunity 3: Intelligent Farms - New Capabilities
  • 4.6. Growth Opportunity 2: Intelligent Farms - Geographic Expansion
  • 4.7. Strategic Imperatives for Success and Growth
  • 4.8. Technology Roadmap : Emerging Trends that can be Implemented in the Future

16. 5.0. ANALYST INSIGHTS

  • 5.1The Agricultural Sector Is Expected to Experience Maximum Growth in the Asia-Pacific Region
  • 5.2Utilization of Technologies Makes Agriculture More Efficient and Productive

17. 6.0. KEY PATENTS AND CONTACTS

  • 6.1. Key Patents Related to Precision Agriculture and Crop Sensors
  • 6.2. Key Patents Related to Agricultural Robots and Vertical Farming
  • 6.3. Key Patents for Integrated Pest Management and Enhanced Efficiency Fertilizers
  • 6.4. Key Patents for Water Conservation Technologies and Livestock Biometrics
  • 6.5. Key Patents for Atmospheric Water Generation and Agricultural Waste Upcycling
  • 6.6. Key Patents for Equipment Telematics and LED Indoor Crop Technology
  • 6.7. Key Contacts
  • Legal Disclaimer

18. 7.0. THE FROST & SULLIVAN STORY

  • 7.1. The Frost & Sullivan Story
  • 7.2. Value Proposition: Future of Your Company and Career
  • 7.3. Global Perspective
  • 7.4. Industry Convergence
  • 7.5. 360° Research Perspective
  • 7.6. Implementation Excellence
  • 7.7. Our Blue Ocean Strategy