|
1. |
EXECUTIVE SUMMARY |
|
1.1. |
Introduction to wearable technology and report scope |
|
1.2. |
Industry Overview |
|
1.3. |
How can technology be made 'wearable'? |
|
1.4. |
What does wearable technology do? |
|
1.5. |
What is the most important value proposition for all wearable technology? |
|
1.6. |
What are the target markets and applications of wearable technology |
|
1.7. |
Global challenges facing the modern consumer |
|
1.8. |
Specific drivers for wearable adoption and innovation |
|
1.9. |
Future trends in wearable technology innovation segmented by core function |
|
1.10. |
Overall wearable technology roadmap, segmented by function |
|
1.11. |
Market Outlook |
|
1.12. |
Wearable Technology Market Forecasts: Annual Revenue 2023-2033 |
|
1.13. |
Wearable Technology Market Forecasts: Market share by device type 2023-2033 |
|
1.14. |
Wearable Technology Market Forecasts 2023-2033 |
|
1.15. |
Roadmap of market trends for wrist-worn wearables broken down by sector (consumer, sport, medical and enterprise) |
|
1.16. |
Outlook and conclusions for wrist-worn wearables |
|
1.17. |
Roadmap of market trends for hearables broken down by sector (consumer, sport, medical and enterprise) |
|
1.18. |
Outlook and conclusions for hearables |
|
1.19. |
Timeline of modern VR |
|
1.20. |
VR Outlook and Conclusions: Change is underway after a period of slowdown |
|
1.21. |
AR headsets as a replacement for other smart devices |
|
1.22. |
AR Outlook and conclusions: AR success remains tough to achieve |
|
1.23. |
Roadmap of market trends for skin-patches broken down by sector (consumer, sport, medical and enterprise) |
|
1.24. |
Outlook and conclusions for skin patches |
|
1.25. |
Roadmap of market trends for smart clothing and accessories broken down by sector (consumer, sport, medical and enterprise) |
|
1.26. |
Conclusions for smart clothing: biometric monitoring |
|
1.27. |
Conclusions for wearable accessories |
|
1.28. |
Overview of wearable technology granular forecasts and historic data |
|
2. |
INTRODUCTION TO WEARABLE TECHNOLOGY |
|
2.1. |
Chapter overview |
|
2.1.1. |
Introduction to wearable technology and report scope |
|
2.1.2. |
How can technology be made 'wearable'? |
|
2.1.3. |
What does wearable technology do? |
|
2.1.4. |
What is the most important value proposition for all wearable technology? |
|
2.1.5. |
What are the target markets and applications of wearable technology |
|
2.2. |
Wearable Sensors |
|
2.2.1. |
Overview of wearable sensor types |
|
2.2.2. |
Overview of biometrics accessible through wearable sensors |
|
2.2.3. |
Roadmap of wearable sensor technology segmented by key biometrics (1) |
|
2.2.4. |
Roadmap of wearable sensor technology segmented by key biometrics |
|
2.3. |
Wearable Actuators |
|
2.3.1. |
Overview of wearable actuator technology and applications |
|
2.3.2. |
Introduction to electrical stimulation |
|
2.3.3. |
Differentiation of electrical stimulation |
|
2.3.4. |
Application of NMES/EMS |
|
2.3.5. |
The emerging market for wearable therapy is poorly regulated |
|
2.3.6. |
Wearable batteries, displays and communication systems |
|
2.3.7. |
An opportunity for Li-ion battery alternatives for wearable technology |
|
2.3.8. |
Trends in wearable display technology |
|
2.3.9. |
Overview of wireless technologies for wearable communications |
|
2.4. |
Opportunities and challenges for the wearable technology industry |
|
2.4.1. |
Global challenges facing the modern consumer |
|
2.4.2. |
Wearable sensor innovation is driving interest in health |
|
2.4.3. |
Specific drivers for wearable adoption and innovation |
|
2.4.4. |
Reimbursement drives commercialization strategy for medical wearables |
|
2.4.5. |
Healthcare applications of wearables face privacy and data utility challenges |
|
2.4.6. |
Future trends in wearable technology innovation segmented by core function |
|
2.4.7. |
What determines which wearables are adopted and where are the opportunities? |
|
2.4.8. |
Industry challenges: wearables are a luxury consumers struggle to afford |
|
2.4.9. |
Overall wearable technology roadmap, segmented by function |
|
3. |
WRIST-WORN WEARABLES |
|
3.1. |
Wrist-worn wearable: chapter overview |
|
3.2. |
Overview of wrist-worn technology |
|
3.2.1. |
Introduction to wrist-worn wearables |
|
3.2.2. |
Timeline and value evolution of wrist-worn wearables |
|
3.2.3. |
What is the difference between fitness trackers, sports-watches and smart-watches |
|
3.3. |
Wrist-worn Technology: Sensing |
|
3.3.1. |
Sensing at the wrist: activity tracking (1) |
|
3.3.2. |
Sensing at the wrist: activity tracking (2) |
|
3.3.3. |
Sensing at the wrist: advanced biometrics |
|
3.3.4. |
Sensing at the wrist: advanced biometrics from activity monitoring sensors - blood oxygen and respiration rate |
|
3.3.5. |
Sensing at the wrist: advanced biometrics from established sensor hardware - ECG and temperature |
|
3.3.6. |
Sensing at the wrist: advanced biometrics - blood pressure |
|
3.3.7. |
Calibration free solutions demonstrated at CES 2023 still pursue FDA clearance |
|
3.3.8. |
Sensing at the wrist : market outlook and technology readiness of wearable blood pressure |
|
3.3.9. |
Sensing at the wrist: advanced biometrics - 'clinic on the wrist' via spectroscopy |
|
3.3.10. |
Sensing at the wrist: near-infrared spectroscopy faces challenges from overlapping bands |
|
3.3.11. |
Sensing at the wrist: non-invasive glucose monitoring has limited potential |
|
3.3.12. |
Sensing at the wrist: minimally invasive glucose monitoring with a skin patch |
|
3.3.13. |
Communication at the wrist: convenient and continuous smart-phone access |
|
3.3.14. |
The commoditization of fitness trackers and the dominance of smart-watches |
|
3.3.15. |
Traditional and designer watch makers are adding 'smart' product lines to protect their market share |
|
3.3.16. |
Consumer trends: smart-straps could take control in the meta-verse |
|
3.3.17. |
Consumer trends: driver monitoring could incorporate smart-watch biometrics |
|
3.4. |
Wrist-worn technology: Actuating |
|
3.4.1. |
Overview of actuating at the wrist |
|
3.4.2. |
Actuating at the wrist: electrical stimulation for nausea |
|
3.4.3. |
Wearable actuating: Thermoelectric cooling at the wrist for hot flushes |
|
3.4.4. |
Actuating at the wrist: light therapy for pain relief |
|
3.4.5. |
Actuating at the wrist: mm-wave stimulation for chronic pain |
|
3.4.6. |
Could the high-value problem in proving the efficacy of pain relief be solved stress sensors? |
|
3.5. |
Wrist-worn wearables: Key players |
|
3.5.1. |
Wrist worn technology: Key players segmented by application |
|
3.5.2. |
Comparing the market share of wrist-worn wearable players |
|
3.5.3. |
Comparing key smart-watch players and global pressures on the sector |
|
3.5.4. |
Factions of the healthcare market leverages the popularity of wrist-worn devices for 'BYOD' business models |
|
3.6. |
Sector Summary |
|
3.6.1. |
Roadmap of market trends for wrist-worn wearables broken down by sector (consumer, sport, medical and enterprise) |
|
3.6.2. |
Wrist-worn wearables - SWOT analysis |
|
3.6.3. |
Outlook and Conclusions |
|
4. |
HEARABLES (EAR-WORN) |
|
4.1. |
Hearables: chapter overview |
|
4.2. |
Overview of Hearable Technology |
|
4.2.1. |
Introduction to hearables |
|
4.2.2. |
The main technology themes within hearables |
|
4.2.3. |
Timeline and value evolution of ear-worn wearables |
|
4.3. |
Hearable technology: Audio and Hearing assistance |
|
4.3.1. |
Headphones product categories: This report |
|
4.3.2. |
Hearing assistance technology, product types overview |
|
4.3.3. |
The prevalence of hearing loss |
|
4.3.4. |
Hearing assistance technology, product examples |
|
4.3.5. |
Traditional hearing assistance devices |
|
4.3.6. |
Historic data: Hearing assistance sales volumes |
|
4.3.7. |
Opportunities to address in each hearables sector |
|
4.3.8. |
A timeline towards OTC hearing aids (1) |
|
4.3.9. |
A timeline towards OTC hearing aids (2): The impact of COVID-19, and implementation in 2022 |
|
4.3.10. |
Over the counter hearing aids highlighted at CES 2023 |
|
4.4. |
Hearable technology: Biometric Monitoring |
|
4.4.1. |
From the wrist to the ear: Placement of wearable sensors |
|
4.4.2. |
Biometric monitoring in hearables has historically been a niche market compared to hearing support |
|
4.4.3. |
Summary of sensing options in the ear |
|
4.4.4. |
Timeline for commercialisation |
|
4.4.5. |
First market tests for HRM in sports headphones |
|
4.4.6. |
Hearing aids with biometric monitoring have high interest but longer regulatory processes |
|
4.4.7. |
Towards more advanced sensing options |
|
4.4.8. |
Advantages and limitations for blood pressure hearables. |
|
4.4.9. |
Sleep market for EEG in competition with the wider sleep-tech sector |
|
4.4.10. |
Hearable EEG for seizure prediction closing in on FDA approval |
|
4.4.11. |
Emotional state monitoring in consumer hearables as an opportunity for marketeers |
|
4.4.12. |
Ear computers could enable the next revolution in brain computer interfacing and healthcare |
|
4.4.13. |
How quickly will biometric sensors be introduced? |
|
4.5. |
Hearable technology: Key players |
|
4.5.1. |
Key hearable technology players segmented by application |
|
4.5.2. |
Players: Hearing assistance |
|
4.5.3. |
Players: OTC hearing aids |
|
4.5.4. |
Players: Smart feature integration (voice assistant, spatial audio, "AI", etc.) |
|
4.5.5. |
Players: Biometrics |
|
4.6. |
Hearable technology: Sector Summary |
|
4.6.1. |
Roadmap of market trends for hearables broken down by sector (consumer, sport, medical and enterprise) |
|
4.6.2. |
Ear worn wearables (hearables) - SWOT analysis |
|
4.6.3. |
Outlook and Conclusions |
|
5. |
AR AND VR HEADSETS (EYE-WORN TECHNOLOGY) |
|
5.1. |
VR and AR headsets: chapter overview |
|
5.2. |
Overview of AR and VR technology |
|
5.2.1. |
Timeline and value evolution of smart eye-wear |
|
5.2.2. |
What are VR, AR, MR and XR? |
|
5.2.3. |
The definition of MR is changing |
|
5.2.4. |
Classification of VR and AR headsets |
|
5.2.5. |
Established applications in VR and AR |
|
5.2.6. |
Controllers and sensing connect AR and VR devices to the environment and the user |
|
5.2.7. |
Summary: Positional and motion tracking for XR |
|
5.3. |
VR Technology |
|
5.3.1. |
Introduction to VR |
|
5.3.2. |
Types of VR headset: PC, standalone, smartphone/mobile |
|
5.3.3. |
Timeline of modern VR |
|
5.3.4. |
The future of VR |
|
5.3.5. |
VR still has technical challenges to overcome |
|
5.4. |
AR Technology |
|
5.4.1. |
Introduction to AR and MR devices |
|
5.4.2. |
What makes an AR device MR-capable? |
|
5.4.3. |
AR applications in 2023 vs. 2033 |
|
5.4.4. |
The hype around AR for assistive technology is growing |
|
5.4.5. |
Consumer AR devices face tough competition |
|
5.4.6. |
AR headsets as a replacement for other smart devices |
|
5.4.7. |
AR: Outlook by device type |
|
5.4.8. |
AR: Outlook by computing type |
|
5.5. |
Overview of optics technology for AR and VR |
|
5.5.1. |
Intro to optics for AR and VR |
|
5.5.2. |
The VR Optics Technology Landscape |
|
5.5.3. |
Status and market potential of VR lens technology |
|
5.5.4. |
The future of VR displays |
|
5.5.5. |
The AR Optics Technology Landscape |
|
5.5.6. |
Optical Combiners: The Heart of AR Devices |
|
5.5.7. |
Status and market potential of optical combiners |
|
5.6. |
Key players |
|
5.6.1. |
The future of AR displays |
|
5.6.2. |
The "metaverse": the next big thing for XR? |
|
5.6.3. |
Comparing XR headset OEMs |
|
5.6.4. |
Everyone wants a chunk of the metaverse: Big Tech entry into the AR market |
|
5.6.5. |
Microsoft AR and the HoloLens 2: what went wrong? |
|
5.6.6. |
Meta's Quest Pro and a new category of VR device |
|
5.7. |
Sector Summary |
|
5.7.1. |
Lessons for consumer XR success |
|
5.7.2. |
VR and AR headsets: state of the market in 2023 |
|
5.7.3. |
SWOT: VR and AR (1) |
|
5.7.4. |
SWOT: VR and AR (2) |
|
5.7.5. |
VR Outlook and Conclusions: Change is underway after a period of slowdown |
|
5.7.6. |
AR Outlook and conclusions: AR success remains tough to achieve |
|
6. |
ELECTRONIC SKIN PATCHES |
|
6.1. |
Skin patches: chapter overview |
|
6.1.1. |
Defining electronic skin patches |
|
6.2. |
Overview of electronic skin patches |
|
6.2.1. |
Benefits of electronic skin patches as a form factor |
|
6.2.2. |
Skin patch - applications overview |
|
6.2.3. |
Other applications: temperature, electrical stimulation, iontophoresis and sweat sensing |
|
6.2.4. |
Skin patch applications overview |
|
6.2.5. |
Timeline and value evolution of electronic skin patches |
|
6.2.6. |
Beyond glucose, what else can skin patches detect? |
|
6.2.7. |
Market push and pull drivers for electronic skin patches |
|
6.3. |
Diabetes management |
|
6.3.1. |
Introduction to diabetes management |
|
6.3.2. |
Electronic skin patches for diabetes management increase patient comfort |
|
6.3.3. |
Diabetes management device roadmap: Glucose sensors |
|
6.3.4. |
Skin patches for sensing glucose (1) |
|
6.3.5. |
Skin patches for sensing glucose (2) |
|
6.3.6. |
Accuracy of continuous glucose monitoring (CGM) devices over time |
|
6.3.7. |
Glucose monitoring technology for the professional sport market |
|
6.3.8. |
Lactose monitoring to become a niche subset of the glucose monitoring market |
|
6.3.9. |
Conclusions for continuous glucose monitors |
|
6.3.10. |
Diabetes management device roadmap: Insulin delivery |
|
6.3.11. |
Key points for diabetes management devices: insulin delivery |
|
6.4. |
Cardiac rhythm monitoring |
|
6.4.1. |
ECG monitoring pain points that skin patches solve |
|
6.4.2. |
Wearable electrodes enable skin patches for cardiac monitoring |
|
6.4.3. |
Cardiac monitoring skin patches: device types |
|
6.4.4. |
Cardiac monitoring device types - skin patches |
|
6.4.5. |
Key points for cardiac monitoring: Holter, mobile cardiac telemetry & event monitor |
|
6.5. |
General patient monitoring and temperature sensing |
|
6.5.1. |
Application potential for general purpose devices |
|
6.5.2. |
Adding blood pressure to the biometrics available for general monitoring in skin patches |
|
6.5.3. |
Key points for general vital sign monitoring |
|
6.5.4. |
Temperature sensing has value on its own, or within a general-purpose device. |
|
6.5.5. |
Conclusions for temperature monitoring skin patches |
|
6.6. |
Other skin patch technology |
|
6.6.1. |
Overview of other skin patch technology |
|
6.6.2. |
Outlook for other electronic skin patch technology: pre-existing smaller markets |
|
6.6.3. |
Outlook for other electronic skin patch technology: research and low TRL stage devices |
|
6.6.4. |
Outlook for other electronic skin patch technology: research and low TRL stage devices |
|
6.7. |
Key players |
|
6.7.1. |
Electronic skin patches in diabetes management: key players company profiles |
|
6.7.2. |
Cardiac rhythm monitoring skin patches: key players and product types |
|
6.7.3. |
Other sensing and actuating skin patch companies |
|
6.8. |
Sector Summary |
|
6.8.1. |
Roadmap of market trends for skin-patches broken down by sector (consumer, sport, medical and enterprise) |
|
6.8.2. |
Electronic Skin Patches - SWOT analysis |
|
6.8.3. |
Outlook and Conclusions |
|
7. |
SMART CLOTHING (E-TEXTILES) AND WEARABLE ACCESSORIES |
|
7.1. |
Smart clothing (e-textiles and accessories): chapter overview |
|
7.1.1. |
E-Textiles: Where textiles meet electronics |
|
7.2. |
Overview of E-Textile Technology |
|
7.2.1. |
Examples of e-textile smart-clothing products |
|
7.2.2. |
Strategies for creating textile-integrated electronics |
|
7.2.3. |
How can e-textiles be made? |
|
7.2.4. |
Materials usage in e-textiles (I) |
|
7.2.5. |
Materials usage in e-textiles (II) |
|
7.2.6. |
The four key application categories of e-textiles |
|
7.3. |
Biometric monitoring |
|
7.3.1. |
Biometric monitoring in e-textiles: introduction |
|
7.3.2. |
Biometric monitoring through e-textiles for wellness and fitness |
|
7.3.3. |
Heart rate monitoring for healthcare |
|
7.3.4. |
Sports & Fitness: Key product characteristics |
|
7.3.5. |
Efforts from the largest apparel brands |
|
7.3.6. |
Biometric monitoring in smart-footwear |
|
7.3.7. |
Gait monitoring is the primary application for smart footwear |
|
7.3.8. |
Side-effect management for diabetes |
|
7.4. |
Heating |
|
7.4.1. |
Textile heating: introduction |
|
7.4.2. |
Textile heating: technological progression |
|
7.4.3. |
Main textile heating product types |
|
7.4.4. |
Heated motorcycle jackets |
|
7.4.5. |
Heated clothing value chain |
|
7.4.6. |
Heated clothing for sports and outdoor activities |
|
7.4.7. |
Heated textiles for workwear and safety PPE |
|
7.5. |
Lighting and Other |
|
7.5.1. |
Textile lighting: introduction |
|
7.5.2. |
Mass market fashion with textile lighting |
|
7.5.3. |
Safety lighting using e-textiles |
|
7.5.4. |
Motion capture in animation |
|
7.5.5. |
Motion capture for AR/VR |
|
7.5.6. |
Haptic suits using e-textiles |
|
7.5.7. |
Assistive clothing |
|
7.6. |
Key players |
|
7.6.1. |
Smart clothing for heating: players by targeted application |
|
7.6.2. |
Smart clothing for biometrics: breakdown by target applications and business model |
|
7.6.3. |
Smart clothing players: breakdown by biometric parameters monitored |
|
7.7. |
Wearable Accessories |
|
7.7.1. |
Introduction to wearable accessories |
|
7.7.2. |
Chest straps for heart-rate monitoring |
|
7.7.3. |
Chest-straps for wearable cameras and assistive technology |
|
7.7.4. |
Smart rings for sleep monitoring and fertility tracking |
|
7.7.5. |
Smart helmets for worker safety and motorcyclists |
|
7.7.6. |
Mouth guards for concussion monitoring |
|
7.7.7. |
Headbands for audio, sleep monitoring and novelty toys |
|
7.7.8. |
Head-sets for light therapy |
|
7.7.9. |
Neck coolers and air purifiers for challenging environments |
|
7.8. |
Sector Summary |
|
7.8.1. |
Roadmap of market trends for smart clothing and accessories broken down by sector (consumer, sport, medical and enterprise) |
|
7.8.2. |
SWOT analysis: smart clothing for biometric monitoring |
|
7.8.3. |
SWOT analysis: smart clothing for heating and lighting |
|
7.8.4. |
Conclusions for smart clothing: biometric monitoring |
|
7.8.5. |
Conclusions for smart clothing: heating |
|
7.8.6. |
Conclusions for smart clothing: lighting |
|
7.8.7. |
Wearable accessories: SWOT analysis |
|
7.8.8. |
Wearable accessories: SWOT analysis |
|
7.8.9. |
Conclusions for wearable accessories |
|
8. |
MARKET FORECASTS |
|
8.1. |
Forecast methodology and assumptions |
|
8.2. |
Summary of forecasts by form-factor |
|
8.3. |
Wearable Technology Forecasts: Industry Overview |
|
8.3.1. |
Wearable Technology Market Forecasts: Annual Revenue 2023-2033 |
|
8.3.2. |
Wearable Technology Market Forecasts: Market share by device type 2023-2033 |
|
8.3.3. |
Wearable Technology Market Forecasts 2023-2033 |
|
8.3.4. |
Wearable Technology CAGRs segmented by form factor |
|
8.3.5. |
Wearable Technology Forecasts - Comparing Market Size and CAGR |
|
8.4. |
Wrist-Worn Technology Forecasts (2023-2033) |
|
8.4.1. |
Wrist-Worn Technology: Historic Data |
|
8.4.2. |
Wrist-Worn Technology Market Forecasts: Annual Revenue 2023-2033 |
|
8.4.3. |
Wrist-Worn Technology forecasts discussion |
|
8.4.4. |
Wrist-Worn Technology: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.5. |
Hearable Technology Forecasts (2023-2033) |
|
8.5.1. |
Hearable Technology: Historic Data |
|
8.5.2. |
Hearable Technology Market Forecasts: Annual Revenue 2023-2033 |
|
8.5.3. |
Hearable Technology Forecasts discussion |
|
8.5.4. |
Hearable Technology: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.5.5. |
Hearable Technology: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.5.6. |
Hearable Technology: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.6. |
Augmented and Virtual Reality Technology Forecasts (2023-2033) |
|
8.6.1. |
Augmented and Virtual Reality: Historic Data |
|
8.6.2. |
Augmented and Virtual Reality Market Forecasts: Annual Revenue 2023-2033 |
|
8.6.3. |
Virtual reality forecasts discussion (1) |
|
8.6.4. |
Virtual reality forecasts discussion (2) |
|
8.6.5. |
Augmented reality forecasts discussion (1) |
|
8.6.6. |
Augmented reality forecasts discussion (2) |
|
8.6.7. |
Augmented and Reality Technology: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.7. |
Electronic Skin Patch Technology Forecasts (2023-2033) |
|
8.7.1. |
Electronic Skin Patches: Historic Data |
|
8.7.2. |
Electronic Skin Patches Market Forecasts: Annual Revenue 2023-2033 |
|
8.7.3. |
CGM forecasts discussion |
|
8.7.4. |
Patch pumps forecasts discussion |
|
8.7.5. |
Electronic Skin Patches Market Forecasts: Annual Revenue 2023-2033 |
|
8.7.6. |
Cardiac rhythm management skin patches discussion |
|
8.7.7. |
General patient monitoring and temperature skin patches discussion |
|
8.7.8. |
Electronic Skin Patches: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.7.9. |
Electronic Skin Patches: Revenue, Price and Volume Forecasts (2023-2033) |
|
8.8. |
Smart Clothing and E-Textile Forecasts (2023-2033) |
|
8.8.1. |
Smart Clothing (E-Textiles): Historic Data |
|
8.8.2. |
Smart Clothing (E-Textiles) Market Forecasts: Annual Revenue 2023-2033 |
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8.8.3. |
Smart Clothing (E-Textiles) discussion |
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8.8.4. |
Smart Clothing (E-Textiles): Revenue, Price and Volume Forecasts (2023-2033) |
|
8.9. |
Wearable Accessories and Other Forecasts (2023-2033) |
|
8.9.1. |
Wearable Accessories and Other Market Forecasts: Annual Revenue 2023-2033 |
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8.9.2. |
Wearable Accessories and Other Forecasts discussion |
|
8.9.3. |
Wearable Accessories: Revenue, Price and Volume Forecasts (2023-2033) |
|
9. |
COMPANY PROFILES/EVENTS |
|
9.1. |
Company Profiles |
|
9.1.1. |
Addoptics |
|
9.1.2. |
Alertgy |
|
9.1.3. |
Ambiotex |
|
9.1.4. |
Atmosic |
|
9.1.5. |
Biobeat Technologies |
|
9.1.6. |
Biosency |
|
9.1.7. |
Blumio |
|
9.1.8. |
BodiGuide |
|
9.1.9. |
Bosch Sensortec (Wearable Sensors) |
|
9.1.10. |
BrainCo |
|
9.1.11. |
Cambridge Mechatronics |
|
9.1.12. |
Cerathrive |
|
9.1.13. |
Conductive Transfers |
|
9.1.14. |
Cosinuss |
|
9.1.15. |
Deep Optics |
|
9.1.16. |
Diabeloop |
|
9.1.17. |
Dispelix |
|
9.1.18. |
Distal Reality |
|
9.1.19. |
EarSwitch |
|
9.1.20. |
Epicore Biosystems |
|
9.1.21. |
EPS BioTechnology Corp / EasyMax Diabetes Care |
|
9.1.22. |
Equivital |
|
9.1.23. |
FibriCheck |
|
9.1.24. |
Glooko |
|
9.1.25. |
GlucoRx |
|
9.1.26. |
Inkron |
|
9.1.27. |
IQE |
|
9.1.28. |
Isansys |
|
9.1.29. |
Jade Bird Display |
|
9.1.30. |
KEMET: Flexible Haptic Actuators |
|
9.1.31. |
Know Labs |
|
9.1.32. |
Kokoon |
|
9.1.33. |
Kyocera |
|
9.1.34. |
LetinAR |
|
9.1.35. |
Lumus |
|
9.1.36. |
Luxexcel |
|
9.1.37. |
Lynx |
|
9.1.38. |
MICLEDI |
|
9.1.39. |
Mira Reality |
|
9.1.40. |
Morphotonics |
|
9.1.41. |
Myant |
|
9.1.42. |
NanoCnet |
|
9.1.43. |
Nanoleq |
|
9.1.44. |
Optinvent |
|
9.1.45. |
OQmented |
|
9.1.46. |
Orpyx |
|
9.1.47. |
PragmatIC |
|
9.1.48. |
Remedee Labs |
|
9.1.49. |
Saralon |
|
9.1.50. |
Schott AG: Augmented/Mixed Reality Operations |
|
9.1.51. |
Screentec |
|
9.1.52. |
Seers Technology |
|
9.1.53. |
Sensing Tex |
|
9.1.54. |
Sensoria |
|
9.1.55. |
SteadySense |
|
9.1.56. |
Swave Photonics |
|
9.1.57. |
Teveri |
|
9.1.58. |
Tonus — Soft Robotics and Wearable Garment Start-up |
|
9.1.59. |
TriLite Technologies |
|
9.1.60. |
TruLife Optics |
|
9.1.61. |
University of Coimbra (Stretchable Electronics) |
|
9.1.62. |
Valencell |
|
9.1.63. |
Vitality |
|
9.1.64. |
VividQ |
|
9.1.65. |
Walk With Path |
|
9.1.66. |
Wearable Devices Ltd. |
|
9.1.67. |
WeART |
|
9.1.68. |
WHOOP |
|
9.1.69. |
Withings Health Solutions |
|
9.1.70. |
Wootz |
|
9.1.71. |
XSensio |
|
9.1.72. |
Zembro |
|
9.2. |
Event Summaries |
|
9.2.1. |
CES 2023 - Wearables and Digital Health |
|
9.2.2. |
CES 2023 - Augmented and Virtual Reality |
|
9.2.3. |
MEDICA 2022: General Trends in Healthcare |
|
9.2.4. |
Medical Wearables 2022 |
|
9.2.5. |
CEA-Leti Innovation Days 2022: Healthcare Technology |
|
9.2.6. |
TechConnect 2022: Event Summary |
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