バッテリー不要無線センサーの新たな可能性

当レポートでは、バッテリー不要無線センサーについて調査分析し、市場成長への影響因子、市場動向、競合情勢などの情報を提供しています。

目次

戦略的必須事項

• 成長がますます困難になっているのはなぜですか？
• The Strategic Imperative 8（TM）
• バッテリ不要センサーの上位3つの戦略的必須事項の影響
• 成長機会がGrowth Pipeline Engine（TM）を促進
• 調査手法
• 主な調査結果

テクノロジー情勢

• テクノロジースナップショットとビジネスモデル
• テクノロジーの概要と利点
• 利点：低コスト、環境に優しい、展開可能性、柔軟性
• アプリケーション：スマートシティ、家電、VR、製造
• エナジーハーベスティングIoTセンサーのアーキテクチャ
• バッテリー不要センサーの採用を促進する動向
• COVID-19診断のためのハイパースペクトルイメージング

研究開発戦略

• シームレスな信号伝送のためのバッテリレスデバイス
• ユビキタスコンピューティングにおけるバッテリーレス技術
• 連続センシング用サブハーモニックバッテリレスタグ
• 患者モニタリング用バッテリー不要センサー

開発戦略

• 専門知識を補完するパートナーシップ
• 生産を拡大するためのパートナーシップ
• 研究開発投資
• 新製品の開発
• パートナープログラム

実装

• 導入事例1：米国空軍とエバーアクティブ（米国）
• 導入事例2：フランスのジボール高校とドイツのエンオーシャン

競合戦略と成長機会の分析

• 分析範囲
• バッテリー不要センサーが業界全体に与える影響
• 成長促進要因
• 成長抑制要因
• 競合環境
• 世界な機会分析
• 影響指数指標：影響指数を定義する基準の説明
• 地域分析
• SWOT分析
• テクノロジーロードマップ（2022年～2027年）

特許動向分析

• 世界の特許評価
• 特許動向分析

世界の規制

• 米国およびEUにおけるIoTデバイスおよびセキュリティ関連の規制
• APACにおけるIoT規制

主要企業

• Everactive（米国）
• Fuji Electric（日本）
• ON Semiconductor（米国）
• Wiliot（イスラエル）
• EnOcean（ドイツ）

成長機会領域

• 成長機会1：規制と相互運用性
• 成長機会2：スケーラビリティに関する研究開発
• 成長機会3：ステークホルダーアライアンス

主なコンタクト

付録

次のステップ

Innovation Culture and New Product Development to Meet Requirements in Manufacturing, Smart City Infrastructure, Retail, and Healthcare sectors.

Growing global focus on smart city development, IoT infrastructure, and the need to create an energy-efficient environment drives the need for a connected IoT network without batteries. R&D and a high influx of investments are enabling advancements in battery-free sensors that are also becoming an essential component of lowering global CO2 emissions in industrial applications for asset monitoring purposes.

The importance of data analytics in enabling independent decision-making and the growing need for remote factory environments which are completely self-sufficient are some of the key trends driving the technological advancement in battery-free sensors. As a result, the technology is gaining widespread acceptance and adoption across multiple application scenarios.

With increasing government focus on the adoption of connected IoT environments, battery-free sensors will emerge as a major energy-efficient technology driving the IoT environment.

Key Questions Answered in the Technology and Innovation Study:

• What are battery-free sensors? What are the trends driving the adoption of battery-free sensor technology?

• What is the application landscape of battery-less sensor technology and its applicability across different industry verticals?

• What are the influencing factors that are driving the opportunities for battery-free sensors and what is the current competitive landscape and the regional adoption scenario?

• What are the developmental strategies adopted by battery-free sensor manufacturers?

• What are the industry best practices?

• What does the IP scenario and funding analysis show?

• What are the growth opportunities and critical success factors?

Table of Contents

Strategic Imperatives

• Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives of Battery-less Sensors
• Growth Opportunities Fuel the Growth Pipeline Engine™
• Research Methodology
• Key Findings

Technology Landscape

• Technology Snapshot and Business Models
• Technology Overview and Benefits
• Advantages: Low Cost, Eco-Friendly, Deployability, Flexibility
• Applications: Smart City, Consumer Electronics, VR, Manufacturing
• Architecture of Energy Harvesting IoT Sensor
• Trends Driving Adoption of Battery-free Sensors
• Hyperspectral Imaging for COVID-19 Diagnostics

R&D Strategies

• Batteryless Devices for Seamless Signal Transmission
• Battery-free Technology Based on Ubiquitous Computing
• Subharmonic Batteryless Tags for Continuous Sensing
• Battery-free Sensors for Patient Monitoring

Developmental Strategies

• Partnerships that Complement Expertise
• Partnerships to Scale up Production
• R&D Investments
• New Product Development
• Partner Programs

Implementation

• Implementation Case 1: US Air Force and Everactive, US
• Implementation Case 2: Givor High School, France and EnOcean, Germany

Competitor Strategy and Growth Opportunity Analysis

• Scope of Analysis
• Impact of Battery-free Sensors Across Industries
• Growth Drivers
• Growth Restraints
• Competitive Environment
• Global Opportunity Analysis
• Impact Index Indicators: Description of Criteria defining Impact Index
• Regional Analysis
• SWOT Analysis
• Technology Roadmap, 2022-2027

Patent Trend Analysis

• Global Patent Assessment
• Patent Trend Analysis

Global Regulations

• IoT Device- and Security-related Regulations in the US and EU
• IoT Regulations in APAC

Companies to Action

• Everactive, US
• Fuji Electric, Japan
• ON Semiconductor, US
• Wiliot, Israel
• EnOcean, Germany

Growth Opportunity Universe

• Growth Opportunity 1: Regulations and Interoperability
• Growth Opportunity 1: Regulations and Interoperability (continued)
• Growth Opportunity 2: R&D Related to Scalability
• Growth Opportunity 2: R&D Related to Scalability (continued)
• Growth Opportunity 3: Stakeholder Alliance
• Growth Opportunity 3: Stakeholder Alliance (continued)

Key Contacts

• Key Contacts

Appendix

• Technology Readiness Levels (TRL): Explanation

Next Steps

• Your Next Steps
• Why Frost, Why Now?
• Legal Disclaimer