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市場調查報告書

新興國防技術

Emerging Technologies for Defense

出版商 Frost & Sullivan 商品編碼 563581
出版日期 內容資訊 英文 87 Pages
商品交期: 最快1-2個工作天內
價格
新興國防技術 Emerging Technologies for Defense
出版日期: 2017年09月14日內容資訊: 英文 87 Pages
簡介

本報告研究可能對國防市場帶來破壞性革新的新興技術,詳細分析了人工智能(AI)、小數據、超材料、奈米鍍膜、生物感應器、穿戴式裝置、外骨骼機器人、可見光通訊(VLC)、燃料電池及微網格等技術。

第1章 執行摘要

第2章 超材料

  • 由於美國主導研究活動,因此研發重視先進通訊網路
  • 世界各國政府的資金增加促進了研發活動
  • 新興企業與其他企業的角色越來越吃重,因此大學裡的開發活動也很活躍
  • 當前重點是產品開發和成本降低: 長遠來看, 許多破壞性設備將會商業化

第3章 奈米鍍膜

  • 防蝕、保護的奈米鍍膜最有可能引進
  • 美國及歐盟領導了專利申請,但美國和中國也引領了政府資金倡議
  • 大多數公司都傾力於超疏水性奈米鍍膜對市場具有重大影響的技術
  • 未來動態為聚焦於開發、引進智慧防彈衣等破壞性藝術和產品

第4章 人工智能(AI)

  • 人工智能對國防市場有什麼影響?
  • 在國防和安全市場的應用
  • 國防工業的供應商
  • 中國是國防用AI新的首選投資標的
  • 依法律框架建立的AI軍需工業合作有助於建立國防能力

第5章 小數據

  • 小數據對國防市場有何影響?
  • 在國防工業中的應用
  • 國防工業的供應商
  • 跨境資訊共用是引進全球小數據的主要推動因素
  • 以小數據為依據的Actionable Insight對於未來實戰極為重要

第6章 生物感應器

  • 在醫療等領域受到越來越多的關注, 國防領域也聚焦於此
  • 可穿戴科技及奈米科技的進步促進了生物感應器的開發
  • 戰爭和重要任務的潛在應用
  • 在爆炸物檢測和疾病診斷中的潛在應用
  • 包含應用、製造和技術的專利主題
  • 聚焦於性能強化及嶄新應用的主要資金倡議
  • 軍事和國防市場的生物感應器產業倡議
  • 引進流程圖:預測成長機會
  • 公司及主要創新

第7章 外骨骼機器人

  • 外骨骼機器人的性能
  • 促進外骨骼機器人市場成長的趨勢
  • 技術上的好處
  • 主要應用趨勢
  • 對輕量材料的開發興趣與日俱增
  • 應用擴大與投資增加連動
  • 執行示例
  • 外骨骼機器人的未來
  • 應注目的公司

第8章 穿戴式

  • 破壞性潛力
  • IoT、聯網士兵、士兵著裝系統促進了穿戴式技術的進步
  • 技術上的好處
  • 主要應用趨勢
  • 美國佔61%,於發行專利佔領先地位
  • 資金援助集中於技術推廣
  • 產業倡議促進了軍事、國防用穿戴式技術的開發
  • 軍事、國防穿戴式技術的未來
  • 預測在不久的將來會影響穿戴式市場的公司

第9章 可見光通訊(VLC)

  • 技術能力
  • 促進 VLC 發展的趨勢
  • 高速資料、資料安全和降低功耗促進了 VLC 的發展
  • 主要應用趨勢
  • 中國領導 VLC 的專利發行
  • 對原型的鼓勵是研究和資助的重要焦點
  • 未來前景和成長機會
  • 預測在不久的將來會影響VLC市場的公司

第10章 燃料電池

  • 新一代士兵需要安全, 但高性能的可攜式電源
  • 最受燃料電池影響的是步兵和自治系統
  • 美國是燃料電池的主要引進國家
  • 燃料電池的資金援助幾乎全數來自政府
  • 燃料電池的成本、燃料和尺寸的進步
  • 戰略規劃的主要疑問點

第11章 微網格

  • 停電的經濟影響是引進微網格的主要促進因素
  • 在國防基地的居住設施可搭載微網格
  • 美國有望在發展解決方案中發揮重要作用
  • 政府專案和資金援助由民間利害相關者的解決方案及氧化支持
  • 引進微網格的解決方案與技術進展
目錄
Product Code: D7D1

Technologies That Will Transform The Face of Security

Emerging Technologies for defense are those that have the capability to make existing systems obsolete or disrupt the balance of power between players on the international stage. Most technologies that will impact the future of defense arise from non-defense sources such as commercial R&D activity, scientific and technological innovation from non-military sectors such as research labs, universities, and small organizations globally.

In the area of innovation, defense companies will have to develop the capacity to recognize key technological innovations outside the defense space, and find ways to exploit these opportunities through advantageous partnerships. This report outlines the emerging technologies most likely to disrupt the defense sector , and include artificial intelligence, small data, metamaterials, nanocoatings, biosensors, wearable devices, robotic exoskeletons, visible light communications, fuel cells and microgrids.

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Key Findings
  • 1.2. Key Findings (continued)
  • 1.2. Key Findings (continued)

2.0. METAMATERIALS

  • 2.1. R&D Focus on Advanced Communication Networks With US Dominant in Research Activities
  • 2.2. Increasing Government Funding Globally Drives Research and Developmental Efforts
  • 2.3. Academia is Very Active in Developmental Efforts with Rising Presence of Start-Ups and Other Companies
  • 2.4. Current Focus is on Product Development and Cost Reduction:Most Disruptive Devices to be Commercialized in the Long Term

3.0. NANOCOATINGS

  • 3.1. Anti-Corrosion and Protective Nanocoatings Have the Highest Adoption Potential
  • 3.2. The US and EU Lead in Patent Filing, while US and China Lead in Government Funding Initiatives
  • 3.3. Most of the Companies Focusing on Technologies with High Market Impact such as Anti-corrosion or Superhydrophobic Nanocoatings
  • 3.4. Future Trends is Focused on Development and Adoption of Disruptive Technologies and Products Such as Smart Body Armors

4.0. ARTIFICIAL INTELLIGENCE

  • 4.1. How Will Artificial Intelligence Impact the Defense Sector?
  • 4.2. Applications in the Defense and Security Sector
  • 4.3. Vendors in the Defense Industry
  • 4.4. China Will be the New Preferred Destination for Investments in AI for Defense Applications
  • 4.5. Military Industry Collaboration in AI Through Legislative Framework will be Instrumental in Building National Defense Capabilities

5.0. SMALL DATA

  • 5.1. How Will Small Data Impact the Defense sector?
  • 5.2. Applications in the Defense Industry
  • 5.3. Vendors in the Defense Industry
  • 5.4. Information Sharing across Borders is a Key Driver for Small Data Adoption around the World
  • 5.5. Actionable Insights from Small Data Will be Crucial to Fight Future Wars

6.0. BIOSENSORS

  • 6.1. Growing Interest In Sectors Such As Healthcare, Defense Attracts Interest
  • 6.2. Advancements in Wearables and Nanotechnology Encourage Development of Biosensors
  • 6.3. Potential Applications in Warfare and Critical Missions
  • 6.4. Potential Applications in Explosive Detection and Disease Diagnosis
  • 6.5. Patent Themes include Applications, Manufacturing, and Technology
  • 6.6. Key Funding Initiatives Focussing on Performance Enhancement and New Applications
  • 6.7. Biosensor Industry Initiatives in Military and Defense Sectors
  • 6.8. Adoption Roadmap - Growth Opportunity Forecast
  • 6.9. Companies and their Key Innovations

7.0. ROBOTIC EXOSKELETON

  • 7.1. Capabilities of Robotic Exoskeletons
  • 7.2. Trends Driving Growth of the Robotic Exoskeleton Market
  • 7.3. Technology Benefits
  • 7.4. Key Trending Applications
  • 7.5. Increased Focus in Developing Light Weight Materials
  • 7.6. Growth in Investment Geared towards Expanding Applications
  • 7.7. Implementation Case
  • 7.8. The Future of Robotic Exoskeletons
  • 7.9. Companies to Watch

8.0. WEARABLES

  • 8.1. Disruptive Potential
  • 8.2. IoT, Connected Soldiers, and Soldier-worn Systems Drive Advancements in Wearables
  • 8.3. Technology Benefits
  • 8.4. Key Trending Applications
  • 8.5. US Leads Patent Publication by 61%; Encouraging Development of Prototypes is Prime Focus of Research and Funding
  • 8.6. Funding Focuses in Propelling Technology Adoption
  • 8.7. Industry Initiatives Encouraging Development of Wearables in Military and Defense
  • 8.8. Future of Wearables in Military and Defense
  • 8.9. Companies Expected to Impact the Wearables Market in the Near Term

9.0. VISIBLE LIGHT COMMUNICATION

  • 9.1. Technology Capability
  • 9.2. Trends Driving Advancements In VLC
  • 9.3. High Data Speed, Data Security, and Reduced Power Consumption Drive Advancements in VLC
  • 9.4. Key Trending Applications
  • 9.5. China Leads Patent Publication in VLC
  • 9.6. Encouraging Prototyping is the Key Focus of Research and Funding
  • 9.7. Future Prospects and Growth Opportunities
  • 9.8. Companies Expected to Impact the VLC Market in the Near Term

10.0. FUEL CELLS

  • 10.1. Next-generation Soldiers Require Safe, Yet High-capacity Portable Power
  • 10.2. Infantry Soldiers and Autonomous System Impacted the Most by Fuel Cells
  • 10.3. The United States is the Major Adopter of Fuel Cells
  • 10.4. Funding of Fuel Cells is Dominated by Governments
  • 10.5. Advancements of Fuel Cells are in Cost, Fuel, and Size
  • 10.6. Key Questions for Strategy Planning

11.0. MICROGRIDS

  • 11.1. Economic Impact of Power Outages is a Major Driver for Microgrid Adoption
  • 11.2. Residential buildings in Defense Bases can be Powered by Microgrids
  • 11.3. The US is Expected to Play a Significant Role in Developing Solutions
  • 11.4. Government Projects and Funding are Supported by Private Stakeholder Solutions and Participation
  • 11.5. Advancements in Microgrid Solutions and Technologies Adopted
  • 11.6. Key Questions for Strategy Planning
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