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市場調查報告書

Internet of People:各種相關技術展望

Internet of People: Technology 2015-2025

出版商 IDTechEx Ltd. 商品編碼 301237
出版日期 內容資訊 英文 163 Pages
商品交期: 最快1-2個工作天內
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Internet of People:各種相關技術展望 Internet of People: Technology 2015-2025
出版日期: 2014年07月01日 內容資訊: 英文 163 Pages
簡介

新登場的「Internet of People(IoP)」這個用語,是指可對應網路的各種個人電子產品、為近年成長變慢的行動電話平板等家電設備、相關網絡與服務市場添加了新的成長力並且急速普及。最近Google Glass與智慧手錶、可放在纖維產品之中的各種周邊設備、使用新材料與生產技術製造、包含了最佳人機介面的產品也陸續登場。使用了可戴式技術的產品市場規模約有50億美金、預計是將會急速成長的市場、Samsung與Apple、Goole、Microsoft等大型企業間的競爭也即將展開。

本報告針對可摺疊縮小的顯示器、行動電話高階共用感測融合技術、印刷電子、入侵防禦系統(IPS)、近距離無線通訊(NFC)、即時定位系統(RTLS)等市場發展不可缺少的技術,提供IoP未來展望、各種技術開發企業調查訪問,目錄介紹如下。

第1章 摘要與結論

第2章 介紹

  • 網路、雲端、霧運算
  • Internet of People
  • 夢與現實
  • 行動電話的改良
  • 專家意見

第3章 人機介面改善與醫療

  • 設備可相互連接的人機感應器
  • 彈性電話
  • 可摺疊螢幕、太陽電池、鍵盤
  • 可戴式電子
  • 醫療
  • 語音技術

第4章 可摺疊縮小的顯示器技術

  • 技術概要
  • 彈性透明導電膜
  • 技術評價
  • 市場評價
  • 主要企業
  • 彈性電子與保形電子市場

第5章 行動電話高階共用感測融合技術與Internet of Everything

  • 高階共用感測融合技術
  • 智能交互感應器
  • 使用NFC的高階共用感測融合技術

第6章 入侵防禦系統(IPS)

  • In-Location Alliance
  • RTLS
  • 使用RTLS與IPS的定位原理
  • 基本設施的選擇
  • 不需基本設施技術
  • 強化基本設施
  • 專用基本設施
  • IPS基本設施趨勢
  • 定位訊號說明技術的選擇
  • 用途、保全侵害、價值鏈
  • IPS/RTLS相關企業訪問
    • CSR
    • DecaWave
    • Ekahau
    • In-Location Alliance
    • Redpine Signals
    • Ubisense
    • Zebra Technologies

第7章 近距離無線通訊(NFC)

  • NFC普及預測
  • 2014∼2024年預測
  • NFC目的
  • NFC Forum
  • 2013年在法國尼斯舉辦的NFC World Congress主要內容
  • NFC相關企業訪問
    • Cubic Transportation Systems, Inc,
    • MeaWallet
    • Nissin Czech Republic
    • RBR
    • Smart-TEC
    • Tag & Play
    • Ticketmobile
    • 日本企業

第8章 印刷/可印刷電子與電氣

  • 彈性OLED顯示器
  • 彈性金流
  • 彈性電池
  • 石墨烯
  • 新金屬化墨水
  • 可戴式電子
  • 印刷電子相關企業訪問
    • Bayer MaterialScience - Artificial Muscle Inc
    • CAP-XX
    • ISORG
    • KWJ Engineering Inc
    • Paper Battery Co
    • Peratech Ltd
    • Synkera Technologies Inc
    • Tactonic
  • IDTechEx印刷電子相關電子學

第9章 未來電源與各種新技術

  • 新電池與超級電容器技術
  • 太陽光發電技術與非洲
  • 3D印刷
  • 彈性觸覺式鍵盤
  • 掃瞄器、影印機、分離型彈性顯示器、環境發電、電池推助器
  • 可對應環境發電的電子設備進步

圖表

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目錄

"55 billion IoP devices could be sold in 2025"

The new term Internet of People (IoP) encompasses internet-enabled personal electronics. It is rapidly spreading into the fabric of society giving a burst of new growth to add to the easing growth of mobile phones, tablets and other conventional personal electronics and associated networks and services. Many internet-enabled peripherals and alternatives are arriving that are worn, embedded in textiles and in products. This is thanks to new materials and ways of making electronics and more suitable human interfaces. As yet, little is written about IoP as a big picture, though reviews of such things as Google Glass and smart watches and speculation about new products abounds on the web. This report provides what is missing - forecasts for the big picture down to the materials and technologies involved that will cause disruptive change such as invisible, stretchable, woven and disposable electronics.

Samsung, Apple, Google, Adidas, Reebock, Nike, Microsoft, SAP and Roche are among the many giant companies clashing horns on this so called "new mobile phone" ie potentially huge market. Even software companies are saying, "hardware is the new software". The $5 billion wearable technology market is now entering a rapid growth phase. Consider lead indicators such as relevant Google Trends, relevant patent filings over the years, incidence of diabetes (treatment being a major sector of wearable technology already), cost reduction of the key enabling technologies, increase in functionality that is becoming possible and interest in fitness monitors another early success story. All show that very rapid growth is in prospect.

This report covers the technologies that will be required to drive the market forward, from tightly rollable display technology, phone sensor fusion and printed electronics to indoor positioning systems (IPS), near field communication (NFC) and real-time locating systems (RTLS). It discusses the most viable markets and megatrends, provides forecasts and timelines to 2025, and includes expert opinions and direct company interviews.

Table of Contents

1. EXECUTIVE SUMMARY AND CONCLUSIONS

  • 1.1. IoP in context
    • 1.1.1. Definitions
    • 1.1.2. Why now?
    • 1.1.3. Forecasts for mobile phones, tablets, monitors, films, inks, haptics
  • 1.2. Drivers and investment
    • 1.2.1. Megatrend drivers
    • 1.2.2. Investment
  • 1.3. Future IoP device technologies
    • 1.3.1. Breakneck speed
    • 1.3.2. Needs driven by new behaviour and demographics
  • 1.4. Future needs
  • 1.5. Technology required
  • 1.6. Hardware is key for future mobile phones
  • 1.7. Key future system technologies
    • 1.7.1. Sensor fusion
    • 1.7.2. Indoor Positioning Systems IPS
    • 1.7.3. Near Field Communication NFC
  • 1.8. Future device technologies
    • 1.8.1. Electrical power, multiple energy harvesting
  • 1.9. Impediments to progress
  • 1.10. The dark side - privacy, security, injury
  • 1.11. Apple iBeacon

2. INTRODUCTION

  • 2.1. The internet, cloud, fog
    • 2.1.1. Cloud and Fog computing
  • 2.2. Internet of People
  • 2.3. Dreams and realities for mobile phones, etc
  • 2.4. Mobile phone improvements - responses from general survey
  • 2.5. Expert opinions

3. IMPROVED HUMAN INTERFACE AND HEALTHCARE

  • 3.1. Human senses that can interact with a device or be a feature
    • 3.1.1. What is wanted?
  • 3.2. Flexible phones: ruggedness and more
  • 3.3. Roll out screen, photovoltaics, keyboard
  • 3.4. Wearable electronics
    • 3.4.1. Wearable electronic devices
    • 3.4.2. Derivative technology
    • 3.4.3. Advantages of wearable electronics
    • 3.4.4. Two basic types of wearable electronics
    • 3.4.5. Considerable evidence of rapid adoption to come
    • 3.4.6. Rapid increase in investment
    • 3.4.7. Projections
  • 3.5. Healthcare
    • 3.5.1. Food poisoning
    • 3.5.2. Diagnostics and more
  • 3.6. Sound
    • 3.6.1. Sound fidelity and localisation
    • 3.6.2. Throat tattoo and lie detector

4. TIGHTLY ROLLABLE DISPLAY TECHNOLOGY

  • 4.1. Summary of technologies
  • 4.2. Flexible transparent conducting film
  • 4.3. Technology Assessment
  • 4.4. Market Assessment
  • 4.5. Players
  • 4.6. Market for flexible and conformal electronics

5. PHONE SENSOR FUSION & INTERNET OF EVERYTHING

  • 5.1. Sensor fusion
  • 5.2. Intelligent contextual sensing
  • 5.3. Sensor fusion leveraging NFC

6. INDOOR POSITIONING SYSTEMS (IPS)

  • 6.1. In-Location Alliance
  • 6.2. RTLS
  • 6.3. Principles of locating using RTLS and IPS
  • 6.4. Choice of infrastructure
  • 6.5. No infrastructure as an option
    • 6.5.1. Inertial/ dead reckoning measurements
  • 6.6. Enhanced infrastructure
  • 6.7. Dedicated infrastructure
  • 6.8. Trend for IPS infrastructure
  • 6.9. Choices of signal interpretation to find position
  • 6.10. Apple iBeacon
  • 6.11. IPS/RTLS Interviews
    • 6.11.1. CSR (formerly Cambridge Silicon Radio) USA
    • 6.11.2. Decawave Ireland
    • 6.11.3. Ekahau Finland
    • 6.11.4. In-Location Alliance UK
    • 6.11.5. Redpine Signals USA
    • 6.11.6. Ubisense UK
    • 6.11.7. Zebra Technologies

7. NEAR FIELD COMMUNICATION

  • 7.1. Timelines for NFC adoption
  • 7.2. Forecasts 2014-2024
  • 7.3. NFC Interviews
    • 7.3.1. Cubic Transportation Systems, Inc, USA
    • 7.3.2. MeaWallet, Norway
    • 7.3.3. Nissin Czech Republic
    • 7.3.4. RBR, UK
    • 7.3.5. Smart-TEC, Germany
    • 7.3.6. Tag & Play, France
    • 7.3.7. Ticketmobile, Norway
    • 7.3.8. Interview in Japan

8. PRINTED AND PRINTABLE ELECTRONICS AND ELECTRICS

  • 8.1. Flexible OLED displays
  • 8.2. Flexible memory
  • 8.3. Flexible batteries
  • 8.4. Graphene
  • 8.5. Emerging metallisation inks
  • 8.6. Wearable electronics
  • 8.7. Printed electronics and allied interviews
    • 8.7.1. Bayer MaterialScience - Artificial Muscle Inc Germany
    • 8.7.2. CAP-XX Australia
    • 8.7.3. ISORG France
    • 8.7.4. KWJ Engineering Inc USA
    • 8.7.5. Paper Battery Co USA
    • 8.7.6. Peratech Ltd UK
    • 8.7.7. Synkera Technologies Inc USA
    • 8.7.8. Tactonic

9. FUTURE ELECTRICAL POWER AND OTHER EMERGING TECHNOLOGIES

  • 9.1. New battery and supercapacitor technologies
    • 9.1.1. Li-ion batteries
  • 9.2. Photovoltaics technologies and Africa
  • 9.3. 3D Printing
  • 9.4. Flexible haptic keyboards
  • 9.5. Scanner, printer, separate flexible display and energy harvesting, battery boosters
  • 9.6. Progress with harvesting tolerant electronics

IDTECHEX MARKET INTELLIGENCE PORTAL

IDTECHEX RESEARCH REPORTS

IDTECHEX CONSULTANCY

TABLES

  • 1.1. Evolution of the IoP and allied matters 2015-2030 plus forecasts by others that may be over-optimistic
  • 1.2. Internet enabled personal devices IoP numbers in place (billion) 2015-2025
  • 1.3. Some megatrends affecting the Internet of Things
  • 1.4. Examples of IoP and IoT acquisitions and investments in 2014
  • 1.5. League table of most active IoT investors
  • 1.6. Examples of identified future needs and need for improved hardware/firmware and/or system/infrastructure changes are needed to achieve them
  • 1.7. Some emerging mobile phone candidate technologies and the demands they may help to satisfy in the future
  • 2.1. Expert forecasts in the last few months of future changes in mobile phones
  • 3.1. Advantages of wearable electronics
  • 3.2. The main wearable technology market sectors 2014-2024
  • 3.3. Some of the investment in wearable technology 2013-4
  • 3.4. Global number of wearable electronics devices 2014-2024
  • 4.1. Candidates for ITO replacement and flexible screens
  • 4.2. Benchmarking different TCF and TCG technologies on the basis of sheet resistance, optical transmission, ease of customisation, haze, ease of patterning, thinness, stability, flexibility, reflection and low cost. The technology com
  • 4.3. Market value $ billions of only flexible/conformal electronics 2012-2022
  • 6.1. Official list of In-Location members
  • 6.2. Choices of infrastructure
  • 6.3. Comparison of options for basic measuring principle to find position
  • 6.4. Forecast of global RTLS market by value in millions of dollars 2012-2023
  • 6.5. Primary market objective for IPS vs RTLS
  • 7.1. Important milestones in the adoption and use of NFC 2014-2024
  • 7.2. IDTechEx conclusions about the status and potential of NFC technology
  • 7.3. Comments by supporters and skeptics of NFC in 2013
  • 7.4. Worldwide shipments of PCs, mobile phones, tablets and derivatives, millions 2012-2024 with the most NFC friendly devices highlighted
  • 7.5. Sales of NFC enabled phones vs all mobile phones millions 2012-2024 with % penetration
  • 9.1. 142 manufacturers and putative manufacturers of lithium-based rechargeable batteries with country, cathode and anode chemistry, electrolyte morphology, case type, applicational priorities and customer relationships, if any, in sel

FIGURES

  • 1.1. Definition of IoT vs IoP and intermediate Internet-protocol directly-connected products
  • 1.2. IoT vs IoP by application, maturity and other factors
  • 1.3. Evolution of the internet
  • 1.4. IoT technology roadmap 2000 to 2025 as the focus changes from dumb RFID tags not directly connected to the new focus of smart sensing objects with unique IP addresses directly connected to the internet
  • 1.5. Internet enabled personal devices IoP numbers in place (billion) 2015-2025
  • 1.6. Mobile sale forecasts used
  • 1.7. Tablet sale forecasts used
  • 1.8. Notebook sale forecasts used
  • 1.9. Monitors sale forecasts used
  • 1.10. Transparent conductive films in the mobile phone industry
  • 1.11. Transparent conductive films in monitors
  • 1.12. Transparent conductive films in notebooks
  • 1.13. Transparent conductive films in tablets
  • 1.14. Conductive inks and pastes in touch screens (edge electrodes)
  • 1.15. Base line
  • 1.16. Conservative
  • 1.17. Optimistic
  • 1.18. Some statistics relevant to the potential for the Internet of People
  • 1.19. Tightly rollable display promised by Samsung
  • 1.20. Structure of the value offering of IPS vs RTLS
  • 1.21. IPS principle of operation
  • 1.22. GPS location (left) compared with the more detailed IPS (right)
  • 1.23. Power requirements of small electronic products including Wireless Sensor Networks (WSN) and GSM mobile phones and the types of battery employed
  • 2.1. How certain applicational segments are best addressed by the Internet of People IoP or the Internet of Things IoT or both
  • 3.1. Samsung promise of a mobile phone derivative with tightly rollable display
  • 3.2. Polymer Vision concept of a PDA with rollable display
  • 3.3. Possible wearable technologies
  • 3.4. Two basic types of wearable electronics - the devices and the more futuristic woven smart textiles and smart apparel
  • 3.5. Where will it be on your body?
  • 4.1. Examples of flexible displays
  • 4.2. TCF technology market share in the smart phone sector
  • 4.3. Mobile phones
  • 4.4. Market value $ billions of only flexible/conformal electronics 2012-2022
  • 5.1. ISMB gesture recognition by sensor fusion
  • 6.1. Structure of the value offering of IPS vs RTLS
  • 6.2. IPS principle of operation
  • 6.3. GPS location shown left compared with the more detailed IPS right
  • 6.4. RTLS schematic
  • 6.5. Samsung RTLS objectives
  • 6.6. RTLS, IPS and OPS compared
  • 6.7. The most popular forms of RTLS based on RFID
  • 6.8. Forecast of global RTLS market by value in millions of dollars 2012-2023
  • 6.9. Survey of 74 case studies of RTLS by application
  • 6.10. Relative emphasis on IPS, RTLS or both in the value chain by number of organisations identified in the survey.
  • 6.11. Basic RF measuring principle - relative popularity vs ultrasound
  • 7.1. Worldwide shipments of PCs, mobile phones, tablets and derivatives, millions 2012-2024 with the most NFC friendly devices highlighted
  • 7.2. Sales of NFC enabled phones vs all mobile phones millions 2012-2024 with % penetration
  • 7.3. Some of the potential stakeholders in the NFC phone value chain
  • 8.1. Add Vision process
  • 8.2. Thinfilm printed memory
  • 8.3. IDTechEx view of potential for graphene in electronics and electrics.
  • 8.4. IDTechEx assessment of emerging metallisation inks
  • 8.5. IDTechEx assessment of emerging transparent conductors
  • 8.6. Plastic Logic view of wearables
  • 8.7. Plastic foil of organic photodetectors
  • 8.8. Printed temperature sensor
  • 8.9. OPD for object detection by smart systems: logistics, retail, Point-Of-Sales display
  • 9.1. IDTechEx view of OPV
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