株式会社グローバルインフォメーション
TEL: 044-952-0102
表紙
市場調査レポート

eテキスタイルの技術・市場・企業:2017-2027年

E-textiles 2017-2027: Technologies, Markets, Players

発行 IDTechEx Ltd. 商品コード 297671
出版日 ページ情報 英文 185 Slides
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=113.77円で換算しております。
Back to Top
eテキスタイルの技術・市場・企業:2017-2027年 E-textiles 2017-2027: Technologies, Markets, Players
出版日: 2017年02月24日 ページ情報: 英文 185 Slides
概要

当レポートは、世界のeテキスタイルの技術および市場を調査し、製品・技術の定義と概要、eテキスタイルの各種用途・目的、材料・コンポーネントの種類と概要、各種実現技術の動向と企業および大学による取り組み、ケーススタディ、製品タイプ・産業部門別の市場規模の推移と予測、主要企業のプロファイル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 イントロダクション

  • 定義
  • eテキスタイル:テキスタイルとエレクトロニクスの融合
  • エレクトロニクス産業とテキスタイル産業の交わり
  • 今日のeテキスタイル製品の例
  • より広いテーマにおける意味合い:ウェアラブル技術
  • ウェアラブル技術の主要動向
  • テクニカルテキスタイルにおける関連用途
  • Woven Electronics®
  • eテキスタイルの主要関連領域
    • 電磁遮蔽
    • 帯電防止用保護着
    • 抗菌性テキスタイル
    • テキスタイルの熱制御
    • 耐衝撃性防護服、など
  • テキスタイル統合エレクトロニクスの創出戦略
  • eテキスタイル部門への参入時の課題
  • テキスタイルのイノベーションへの並行投資

第3章 eテキスタイルの材料・コンポーネント

  • 今日のeテキスタイル材料利用
  • 繊維・ヤーン・テキスタイル
  • 完全に金属のファブリック
  • 金属プレートのファブリック
  • 金属プレートテキスタイルの主なエッチング
  • 金属ケーブルの利用
  • テキスタイルケーブリング
  • 繊維とヤーン
  • テキスタイルとファブリック
  • インクと封止
  • 導電性ポリマー
  • 各材料タイプのサプライヤーの例
  • 従来型エレクトロニクスとの関係
  • eテキスタイルのコネクター
  • コネクターの選択肢
  • スナップファスナー
  • 熱可塑性樹脂系接着剤:Fraunhofer IZM
  • はんだづけ
  • 導電性接着剤
  • 金属製接触部:従来型・特注型、など

第4章 将来のeテキスタイルの実現技術

  • 電気的に活性の繊維・テキスタイルの新しいタイプ
  • ECによるプロジェクト
  • 産業界および学術部門からの新しい導電性繊維
  • 導電性テキスタイルの新しいアプローチ:CNT & グラフェン
  • アセットトラッキングのためのRFIDヤーン
  • 他のエレクトロニクスのヤーンへの統合
  • 半導体チップの封止
  • 伸縮性導電性繊維の例
  • Energy harvesting techniques in textiles
  • Photovoltaic Fibres
  • Multi-mode energy harvesting in textiles
  • テキスタイルスーパーコンデンサー
  • Flexible Woven Batteries
  • Logic and Memory

第5章 ケーススタディ:スマート衣類の過去・現在・未来

  • 「スマート衣類」の75年
  • 初期の商用化の例:Infineon・Philips・O'Neill
  • 関連製品:HRMチェストストラップ
  • HRMの衣類への統合
  • ウェアラブル技術のブーム
  • スマート衣類におけるBLEの影響
  • スマート衣類の利用者
  • 主要部門からの例
  • 大規模企業の参入:3つの戦略、など

第6章 eテキスタイル市場

  • 市場部門別のカテゴリー化
  • スポーツ&フィットネス:概要
  • スポーツ&フィットネス:主な製品の特徴
  • スポーツ&フィットネス:VC出資の影響
  • スポーツ&フィットネス:主要企業
  • ウェルネス
  • 医療・ヘルスケア
  • ホーム&ライフスタイル
  • ホスピタリティ市場
  • 工業・商業・軍用
  • ファッション
  • ハイファッション・オーダーメイドの例
  • その他:自動車内装、など

第7章 市場予測

  • eテキスタイルの市場予測:産業部門別
  • 売上の過去の推移と予測
  • CAGR (年間複合成長率):産業部門別
  • 収益:製品タイプ別
  • 出荷量:製品タイプ別

第8章 主要展示会などにおける一次調査・インタビュー

第9章 IDTECHEXローデータ

第10章 インタビューに基づく企業プロファイル

  • adidas Wearable Sports Electronics
  • AiQ Smart Clothing
  • BeBop Sensors
  • Brochier Technologies
  • Cityzen Sciences
  • Clim8
  • Clothing+
  • Directa Plus
  • Eurecat - CETEMMSA
  • Flex - Fashion and Apparel division
  • Footfalls and Heartbeats
  • Forster Rohner Textile Innovations
  • Hexoskin
  • IMEC - Wearable Health Monitoring
  • Infi-tex
  • Intelligent Textiles Limited
  • Interactive Wear AG
  • Luminet Technologies
  • Medical Design Solutions
  • Ohmatex ApS
  • Samsara S.r.l. - Dreamlux
  • Sarvint Technologies
  • Sensing Tex
  • Sensoria
  • Smartlife
  • V Technical Textiles
  • Vitali
  • Wearable Life Science

このページに掲載されている内容は最新版と異なる場合があります。詳細はお問い合わせください。

目次

We are in contact with textiles for up to 90% of our lives, and they are starting to become intelligent. The basis of this new functionality is the integration of textiles and electronics. From clothing to bandages, bed linen to industrial fabrics, new products integrating e-textiles are being created. The market has been slow to start due to many challenges, but with large companies investing heavily and releasing early products, this industry is poised to change very quickly as soon as the right conditions are achieved.

In their purest form according to the definition, e-textiles based on the integration of inherently electrically or electronically active fibres have begun to see integration into early products. However, with many associated challenges around reliability, performance and comfort, there has been a strong push towards other solutions that can achieve better properties including washability, stretchability and new functionalities. The result is a complex ecosystem of different material, component and connection options that are now available for product designers.

image1

This report covers the entire e-textiles value chain, covering the wide range of materials (including metals, polymers, fibres, yarns, textiles (knitted, woven, embroidered, non-woven) and emerging materials) and components (sensors, connectors and the interface to traditional electronics, etc.) used today. It also presents a roadmap for the future, detailing over 30 different academic and early prototype products in areas such as new conductive fibres, stretchable electronics, energy harvesting, energy storage, logic and memory.

IDTechEx have produced a comprehensive guide to all of the key techniques in use throughout industry and research today. Key advances in the last five years have led to early commercial products, with the market having grown at double digit rate to reach around $100m in annual wholesale revenue today. However, with global giants from both apparel and electronics assessing the sector and building their strategies, IDTechEx detail a likely scenario for growth over the coming decade. Specifically, the report describes how the significant investments being made will eventually enable mainstream commercial products, leading to a market approaching $5bn by 2027.

The report describes the full value chain, looking from the material and component options, to the manufacturing challenges, through to the applications, markets and key end users. Trends by market sector are crucial, as the addressable markets are both large and diverse. The report characterises key market sectors including 'Sports & Fitness', 'Medical & Healthcare', 'Wellness', 'Home & Lifestyle', 'Industrial, commercial, military', 'Fashion' and 'Others' (including automotive). For each, we report on progress amongst key players and projects, as well as outlining the unmet needs and growth potential of each.

The forecasts for each sector are accompanied by detailed qualitative discussion for each sector. In fact, the forecast description cites examples of over 110 separate e-textiles projects grouped by company, with additional projects referenced throughout the report. This information has been compiled by IDTechEx via extensive primary research, with the report also containing summaries from key industry events, presentations and an additional 28 separate interview-based company profiles detailing key players.

With continuous parallel research across the emerging technology ecosystem (including reports on conductive inks, stretchable electronics, wearable technology, printed electronics, printed and flexible sensors, the Internet of Things, emerging energy storage, and many more) IDTechEx has leveraged a broad network and experience across the team of expert analysts for this research. On top of this, IDTechEx hosts leading events covering e-textile technology, and the analyst team travels, speaks and meets companies globally each year. The result of these efforts enables this report to be the most comprehensive characterisation of the e-textiles industry today, and an excellent resource for any player involved or actively investigating this space.

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Table of Contents

1. EXECUTIVE SUMMARY

  • 1.1. Market forecast for e-textiles - 2017-2027 (by industry sector)
  • 1.2. Historic sales: 2014-2016 by sector
  • 1.3. Smart textile industry topics and value chain
  • 1.4. Commercial progress with e-textile projects

2. INTRODUCTION

  • 2.1. Definitions
  • 2.2. E-Textiles: Where textiles meet electronics
  • 2.3. The intersection of electronics and textiles industries
  • 2.4. Examples of e-textile products today
  • 2.5. Context within the broader subject: Wearable Technology
  • 2.6. Key trends in wearable technology
  • 2.7. Related applications in Technical Textiles
  • 2.8. Modern developments in context: Woven Electronics®
  • 2.9. Prominent related areas to e-textiles
    • 2.9.1. Electromagnetic Shielding
    • 2.9.2. Antistatic protective clothing
    • 2.9.3. Antimicrobial textiles
    • 2.9.4. Thermal regulation in textiles
    • 2.9.5. Protective clothing for impact resistance
    • 2.9.6. Colour changes in textiles
  • 2.10. Strategies for creating textile-integrated electronics
  • 2.11. Challenges when moving into the e-textiles space
  • 2.12. Parallel investments in textile innovation

3. E-TEXTILE MATERIALS AND COMPONENTS

  • 3.1. E-textiles materials use today
  • 3.2. Introduction: Fibres, yarns and textiles
  • 3.3. Entirely metallic fabrics
  • 3.4. Metal-plated fabrics
  • 3.5. Selective etching of metal-plated textiles
  • 3.6. Use of metal cabling
  • 3.7. Textile Cabling
  • 3.8. Metal wiring integrated into textiles
  • 3.9. Fibres & Yarns
  • 3.10. Conductive yarns from Natural Fibre Welding
  • 3.11. Hybrid yarns can be conductive, elastic and comfortable
  • 3.12. Textiles and Fabrics
  • 3.13. Woven e-textiles
  • 3.14. Example: Project Jacquard
  • 3.15. Knitted e-textiles
  • 3.16. Example: Knitted conductors by Gunze, Japan
  • 3.17. Embroidered e-textiles
  • 3.18. Inks and Encapsulation
  • 3.19. An explosion in ink suppliers for e-textiles
  • 3.20. Conductive polymers
  • 3.21. Polymeric electrodes in compression garments
  • 3.22. Example suppliers for each material type
  • 3.23. Working alongside conventional electronics
  • 3.24. Connectors for e-textiles
  • 3.25. Connector options today
  • 3.26. Snap fasteners
  • 3.27. Thermoplastic adhesive bonding: Fraunhofer IZM
  • 3.28. Soldering
  • 3.29. Conductive adhesives
  • 3.30. Metallic contacts: conventional and bespoke
  • 3.31. Embroidery
  • 3.32. Component types: who is making what?

4. ENABLING TECHNOLOGIES FOR THE FUTURE OF E-TEXTILES

  • 4.1. Emerging types of electrically active fibres and textiles
  • 4.2. European Commission projects
  • 4.3. New conductive fibres from industry and academia
  • 4.4. Novel approaches to conductive textiles: CNT & graphene
  • 4.5. RFID Yarns for asset tracking
  • 4.6. Integrating other electronics within yarns
  • 4.7. Encapsulation of semiconductor chips within yarns
  • 4.8. Examples of stretchable conductive fibres
    • 4.8.1. UT, Dallas: SEBS / NTS stretchable wires
    • 4.8.2. Sungkyunkwan University - PU & Ag nanoflowers
    • 4.8.3. MIT: Stretch sensors using CNTs on polybutyrate
  • 4.9. Energy harvesting techniques in textiles
    • 4.9.1. Piezoelectric fibres: Georgia Institute of Technology, USA
    • 4.9.2. Piezoelectric fibres: University of Bolton, UK
    • 4.9.3. Piezoelectric Fabric
    • 4.9.4. Piezoelectric Fabric: University of Bolton, UK
    • 4.9.5. Piezoelectric Fabric: University of Bolton, UK
    • 4.9.6. Concordia University XS Labs, Canada
    • 4.9.7. Cornell University, USA
    • 4.9.8. Cornell University, USA
    • 4.9.9. Georgia Institute of Technology, USA
    • 4.9.10. Southampton University, UK
    • 4.9.11. University of California Berkeley, USA
    • 4.9.12. Energy-Scavenging Nanofibers: UC Berkeley, USA
  • 4.10. Photovoltaic Fibres
    • 4.10.1. Illuminex, USA
    • 4.10.2. Penn State University, USA
    • 4.10.3. University of Southampton, UK
  • 4.11. Multi-mode energy harvesting in textiles
  • 4.12. Textile Supercapacitors
    • 4.12.1. Drexel University, USA
    • 4.12.2. Imperial College London, UK
    • 4.12.3. Stanford University, USA
    • 4.12.4. University of Delaware, USA
    • 4.12.5. University of Wollongong, Australia
  • 4.13. Flexible Woven Batteries
    • 4.13.1. Polytechnic School of Montreal, Canada
  • 4.14. Logic and Memory

5. CASE STUDY - SMART CLOTHING: PAST, PRESENT, FUTURE

  • 5.1. 75 years of 'Smart Clothing'
  • 5.2. Early commercial examples: Infineon, Philips, O'Neill
  • 5.3. Related products: HRM Chest Straps
  • 5.4. Integrating HRM into clothing
  • 5.5. The wearable technology boom
  • 5.6. The implications of BLE for smart clothing
  • 5.7. Who uses smart clothing today?
  • 5.8. Examples from key sectors
  • 5.9. Large players enter the market: 3 strategies
  • 5.10. When will we see the first mass market e-textile product?

6. E-TEXTILES MARKETS

  • 6.1. Categorisation by market sector
  • 6.2. Sports & Fitness: Overview
  • 6.3. Sports & Fitness: Key product characteristics
  • 6.4. Sports & Fitness: The impact of VC funding
  • 6.5. Sports & Fitness: Key Players
  • 6.6. Wellness
  • 6.7. Medical & Healthcare
  • 6.8. Example: Pressure ulcer monitoring in hospitals
  • 6.9. Home & Lifestyle
  • 6.10. Hospitality markets
  • 6.11. Industrial, Commercial, Military
  • 6.12. Fashion
  • 6.13. Examples of high fashion and bespoke work
  • 6.14. Others: Vehicular interiors
  • 6.15. Others: Vehicular Interiors
  • 6.16. Others: Wearable Technology for animals

7. MARKET FORECASTS 2017-2027

  • 7.1. Market forecast for e-textiles - by industry sector
  • 7.2. Historic sales (2014 - 2016) and expectations for 2017
  • 7.3. CAGR by industry sector
  • 7.4. Market forecast for e-textiles: by product type (revenue)
  • 7.5. Market forecast for e-textiles: by product type (volume)
  • 7.6. Consumer apparel & Fashion
  • 7.7. Sport & Fitness
  • 7.8. Home & lifestyle
  • 7.9. Medical & Healthcare
  • 7.10. Wellness
  • 7.11. Industrial, Commercial, Military
  • 7.12. Other Markets
  • 7.13. Technology development (pre-market)

8. PRIMARY RESEARCH AND INTERVIEWS FROM MAJOR EVENTS

  • 8.1. The IDTechEx Show! - Santa Clara, CA (November 2016)
    • 8.1.1. Bando Chemical
    • 8.1.2. Fisk Alloy
    • 8.1.3. Hitachi Chemical
    • 8.1.4. Holst Centre
    • 8.1.5. KIMS & KIMM: conductive textiles
    • 8.1.6. MAS Holdings / Flex
    • 8.1.7. Myant
    • 8.1.8. Panasonic
    • 8.1.9. Parker Hannifin
    • 8.1.10. Polymatech
    • 8.1.11. Sensing Tex
    • 8.1.12. Stretchsense
    • 8.1.13. Toyobo
    • 8.1.14. Vista Medical
  • 8.2. CES 2017 - Las Vegas, NV (January 2017)
    • 8.2.1. Clim8
    • 8.2.2. CloudTot
    • 8.2.3. Conscious Labs
    • 8.2.4. Evalu
    • 8.2.5. King Abdullah University, Saudi Arabia
    • 8.2.6. Under Armour
    • 8.2.7. Vitali

9. IDTECHEX RAW DATA

  • 9.1. E-Textiles (by sector) - number of units sold in millions
  • 9.2. E-Textiles (by sector) - total revenue in USD millions
  • 9.3. E-Textiles (by product) - number of units sold in millions
  • 9.4. E-Textiles (by product) - total revenue in USD millions

10. INTERVIEW BASED COMPANY PROFILES

  • 10.1. adidas Wearable Sports Electronics
  • 10.2. AiQ Smart Clothing
  • 10.3. BeBop Sensors
  • 10.4. Brochier Technologies
  • 10.5. Cityzen Sciences
  • 10.6. Clim8
  • 10.7. Clothing+
  • 10.8. Directa Plus
  • 10.9. Eurecat - CETEMMSA
  • 10.10. Flex - Fashion and Apparel division
  • 10.11. Footfalls and Heartbeats
  • 10.12. Forster Rohner Textile Innovations
  • 10.13. Hexoskin
  • 10.14. IMEC - Wearable Health Monitoring
  • 10.15. Infi-tex
  • 10.16. Intelligent Textiles Limited
  • 10.17. Interactive Wear AG
  • 10.18. Luminet Technologies
  • 10.19. Medical Design Solutions
  • 10.20. Ohmatex ApS
  • 10.21. Samsara S.r.l. - Dreamlux
  • 10.22. Sarvint Technologies
  • 10.23. Sensing Tex
  • 10.24. Sensoria
  • 10.25. Smartlife
  • 10.26. V Technical Textiles
  • 10.27. Vitali
  • 10.28. Wearable Life Science
Back to Top