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市場調查報告書

無人機及自主式機器人用電力源技術

Power Technologies for Drones and Autonomous Robots

出版商 Technical Insights (Frost & Sullivan) 商品編碼 358061
出版日期 內容資訊 英文 64 Pages
商品交期: 最快1-2個工作天內
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無人機及自主式機器人用電力源技術 Power Technologies for Drones and Autonomous Robots
出版日期: 2016年05月10日 內容資訊: 英文 64 Pages
簡介

無人機和自主式機器人在各種產業…尤其是醫療和國防工業,以及工業領域都在踏實地日益引進。其電源必須要能在嚴苛的條件下或極端的環境條件下也能支援無人機和機器人。

本報告特定以各種產業中無人機和自主式機器人能使用的電力源為焦點,精查這些電源需求的要件。 再評估現行技術及新技術,並利用方案模擬手法進行各種電源的未來引進預測。

第1章 摘要整理

  • 調查範圍
  • 調查手法
  • 重要的調查結果
  • 自主式機器人所採用的電力源
  • 自主式機器人序論

第2章 需求面分析

  • 主要的終端用戶的需求: 醫療機器人
  • 主要的終端用戶的需求: 個人機器人
  • 主要的終端用戶的需求: 軍用機器人
  • 主要的終端用戶的需求: 商用機器人

第3章 目前技術分析

  • 鋰電池: 小型且高電力密度
  • 鉛型蓄電池: 安全穩定的電力源
  • 壓縮天然氣: 高輸出的重量比平衡在處理要注意
  • 內燃引擎: 輸出大效率低
  • 成長推動因素: 成本及容易理解的機制等優點是現有技術的推動要素
  • 成長阻礙因素: 低功率抗性限制採用

第4章 新技術分析

  • 燃料電池: 立刻能得到高性能。無延遲又清潔的能源來源
  • 能源採集: 適合低電力機器人
  • 超級電容: 可由薄型設備短時間得到大出力
  • 太陽能電池: 可維持空力學的薄且極富彈性的系統
  • 混合電力源: 2個不同世界的最佳組合
  • 無線充電: 充電流程簡單化
  • 成長推動因素: 創新的Start-Ups企業推動技術開發
  • 成長推動因素: 奈米材料開拓新的可能性
  • 成長阻礙因素: 性能的穩定性至今還遠遠未能商用化

第5章 革新模式

  • 革新模式: 公共系統形成革新·生態系統
  • 革新模式: 由於缺乑國家性關注,知識流通量不能說強
  • 有力革新

第6章 方案模擬 - 未來的選擇分析

  • 方案定義用的參數
  • 方案定義
  • 對現行技術的採用方案帶來的影響分析
  • 對新技術的採用方案帶來的影響分析
  • 方案的結論

第7章 主要專利

  • 主要專利

第8章 其他

  • 聯繫處詳細內容
  • 免責事項

第9章 關於Frost&Sullivan

目錄
Product Code: D6E1-01-00-00-00

Lithium Batteries to be the most preferred choice despite increasing competition from emerging technologies

Adoption of Drones and Autonomous robots are steadily increasing in various industries, foremost being healthcare, defense and industrial. Therefore, it's very important that the power sources used in these bots and drones support them to sustain in tough conditions and extreme environment. This research study focuses on identifying the various power sources that can be used for drones and bots across various industries along with the key expectations that these power sources should satisfy. The study also assess the current and emerging power technologies and utilizes a scenario modeling approach to forecast the future adoption potential of various power sources.

Table of Contents

1. EXECUTIVE SUMMARY

  • 1. Research Scope
  • 2. Research Process and Methodology
  • 3. Key Findings
  • 4. Mapping of Power Sources Used for Autonomous Robots
  • 5. Introduction to Autonomous Robots

2. DEMAND SIDE ANALYSIS

  • 1. Key End-users' Needs: Healthcare Robots
  • 2. Key End-users' Needs: Personal Robots
  • 3. Key End-users' Needs: Military Robots
  • 4. Key End-users' Needs: Commercial Robots

3. CURRENT TECHNOLOGY ANALYSIS

  • 1. Lithium Batteries: High Energy Density in Compact Size
  • 2. Lead based Batteries: Safety and Stable Power Source
  • 3. Compressed Gas: High Power-to-Weight Ratio but Needs Careful Handling
  • 4. Combustion Engine: Powerful but Low Efficiency
  • 5. Drivers: Cost and Understandable Mechanism Drives Incumbent Technologies
  • 6. Barriers: Low-power Endurance Limits Adoption

4. EMERGING TECHNOLOGY ANALYSIS

  • 1. Fuel Cells: Immediate High Performance, Clean Energy Source without Lag
  • 2. Energy Harvesting: Suitable for Low-power Robots
  • 3. Supercapacitors: Provide Short Burst of Power from Thin Devices
  • 4. Solar Cells: Provides Thin and Highly Flexible System to Maintain Aerodynamics
  • 5. Hybrid Power Sources: Combination of the Best of Two Worlds
  • 6. Wireless Charging: Simplify the Charging Process
  • 7. Drivers: Innovative Start-ups Drive Technology Development
  • 8. Drivers: Nanomaterials Opens Up New Possibilities
  • 9. Barriers: Stability of Performance Still far from Commercialization

5. INNOVATION MODELS

  • 1. Innovation Models: Public System Shapes Innovation Ecosystem
  • 2. Innovation Models: Knowledge Flow is Not Dynamic Due to Lack of National Interest
  • 3. Movers and Shakers

6. SCENARIO MODELING-FUTURE OPTION ANALYSIS

  • 1. Parameters Used to Define Scenario
  • 2. Parameters Used to Define Scenario (continued)
  • 3. Scenario Definition
  • 4. Analysis of Scenarios' Impact on Adoption of Current Technologies
  • 5. Analysis of Scenarios' Impact on Adoption of Current Technologies (continued)
  • 6. Analysis of Scenarios' Impact on Adoption of Current Technologies (continued)
  • 7. Analysis of Scenarios' Impact on Adoption of Emerging Technologies
  • 8. Analysis of Scenarios' Impact on Adoption of Emerging Technologies (continued)
  • 9. Analysis of Scenarios' Impact on Adoption of Emerging Technologies (continued)
  • 10. Analysis of Scenarios' Impact on Adoption of Emerging Technologies (continued)
  • 11. Analysis of Scenarios' Impact on Adoption of Emerging Technologies (continued)
  • 12. Scenario Conclusion
  • 13. Scenario Conclusion (continued)

7. KEY PATENTS

  • 1. Key Patents
  • 2. Key Patents (continued)
  • 3. Key Patents (continued)

8. KEY PATENTS

  • 1. Contact Details
  • 2. Legal Disclaimer

9. THE FROST & SULLIVAN STORY

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
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