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1. | EXECUTIVE SUMMARY AND CONCLUSIONS |
1.1. | Executive introduction |
1.2. | Historic data and revenue forecast for hearables products, by product type |
1.3. | Full historic data from 2010-2019 and forecast from 2020-2030 |
1.4. | Headphones and infotainment: |
1.5. | Forecast summary |
1.6. | Hearing aids and hearing assistance: |
1.7. | Forecast summary |
1.8. | Competition across the hearing loss spectrum |
1.9. | Health metrics from hearables |
1.10. | Key technology areas for hearables |
1.11. | Hearables as part of wearables |
2. | INTRODUCTION: HEARABLES |
2.1. | Overview |
2.1.1. | Hearables: Introduction and definitions |
2.1.2. | Scope of this report |
2.1.3. | Product types included |
2.1.4. | The main technology themes within hearables |
2.1.5. | Product types |
2.1.6. | Product examples |
2.1.7. | Players |
2.1.8. | Players: Hearing assistance |
2.1.9. | Players: Smart feature integration (voice assistant, spatial audio, "AI", etc.) |
2.1.10. | Players: Biometrics |
2.2. | Themes: Hearing assistance & augmentation |
2.2.1. | Assistance and augmentation |
2.2.2. | Traditional hearing assistance devices |
2.2.3. | The prevalence of hearing loss |
2.2.4. | Competition throughout the spectrum of hearing loss |
2.2.5. | Severe and profound hearing loss patients |
2.2.6. | Moderate to severe hearing loss patients |
2.2.7. | Mild to moderate hearing loss patients |
2.2.8. | Mild and pre-hearing loss patients |
2.2.9. | Summary: Opportunities to address in each sector |
2.2.10. | Hearing assistance features |
2.2.11. | Core features: Audio signal processing |
2.2.12. | Additional features: Enhanced audio |
2.2.13. | Functionality vs battery life |
2.2.14. | Functionality vs latency |
2.2.15. | Example: Singular Software |
2.2.16. | Additional features: Connectivity |
2.2.17. | Hearing assistance - market dynamics |
2.2.18. | Historic data: Hearing assistance sales volumes |
2.3. | Themes: Biometrics on the ear |
2.3.1. | From the wrist to the ear: |
2.3.2. | Placement of wearable sensors |
2.3.3. | Early product examples: Headphones |
2.3.4. | Early product examples: Hearing aids |
2.3.5. | First market tests for HRM in sports headphones |
2.3.6. | Towards more advanced sensing options |
2.3.7. | Summary of sensing options in the ear |
2.3.8. | Timeline for commercialisation |
2.3.9. | How quickly will biometric sensors be introduced? |
2.3.10. | Revenue from ear-worn products containing biosensors |
2.3.11. | The proportion of ear worn products adding biometrics |
2.3.12. | Outlook and conclusions |
3. | PRODUCT TYPES IN HEARABLES |
3.1. | Introduction |
3.1.1. | Product types |
3.1.2. | Product examples |
3.2. | Headphones |
3.2.1. | 135 years of headphones |
3.2.2. | Development of wireless headphones |
3.2.3. | Headphones product categories: |
3.2.4. | Headphones & headsets |
3.2.5. | Headphones product categories: |
3.2.6. | Wired and wireless |
3.2.7. | Headphone product categories: |
3.2.8. | Over-ear, on-ear, in-ear |
3.2.9. | Headphones product categories |
3.2.10. | Headphones product categories: This report |
3.2.11. | Headphones players |
3.2.12. | Examples of leading headphone companies |
3.2.13. | Market leaders: Beats and Apple |
3.2.14. | The boom in true wireless stereo headphones |
3.2.15. | The boom in true wireless stereo headphones (visualised) |
3.2.16. | Headphones - market data and forecasts |
3.2.17. | Historic data: Headphones sales volumes |
3.2.18. | Headphones - historic data |
3.2.19. | Headphones - revenue by company |
3.2.20. | Company interviews |
3.2.21. | SoundPeats |
3.2.22. | SoundPeats - product examples |
3.2.23. | Partron |
3.2.24. | Partron |
3.3. | Hearing aids |
3.3.1. | Hearing aids: Introduction |
3.3.2. | The big 5 |
3.3.3. | 6 becomes 5: WS Audiology |
3.3.4. | Key features of hearing aids |
3.3.5. | Hearing aids - historic data |
3.3.6. | Hearing aids - market forecast |
3.3.7. | Interviews and profiles with key players in the hearing aid industry |
3.3.8. | Interviews: Summary |
3.3.9. | Oticon |
3.3.10. | Widex |
3.3.11. | Phonak (Sonova) |
3.3.12. | Starkey |
3.3.13. | Nations Hearing |
3.3.14. | Eargo |
3.4. | Towards OTC hearing aids |
3.4.1. | A timeline towards OTC hearing aids |
3.4.2. | Where do OTC hearing aids fit in? |
3.4.3. | The potential impact of OTC hearing aids |
3.4.4. | Planning for the introduction of OTC hearing aids |
3.4.5. | Pricing strategies for OTC hearing aids |
3.4.6. | Bose: Discussions with the most prominent player |
3.4.7. | Forecasts for OTC hearing aids |
3.5. | PSAPs and other hearables |
3.5.1. | The spectrum of hearing assistance products |
3.5.2. | PSAPs as the entry point for hearing assistance |
3.5.3. | PSAP features and performance |
3.5.4. | PSAP players |
3.5.5. | Newer PSAP start-ups enter the market |
3.5.6. | Learning from failures |
3.5.7. | Other hearables with specific applications |
3.5.8. | Interviews |
3.5.9. | Nuheara |
3.5.10. | Olive Union |
3.5.11. | Incus |
3.6. | Cochlear Implants |
3.6.1. | How We Hear Normally |
3.6.2. | Major Technological Developments in Cochlear Implants |
3.6.3. | Cochlear Implants |
3.6.4. | Outline of a Cochlear Implant |
3.6.5. | Special Considerations for Cochlear Implants |
3.6.6. | Major Players for Hearing Restoration |
3.6.7. | Cochlear |
3.6.8. | Cochlear: Nucleus System |
3.6.9. | Cochlear: Kanso Processor |
3.6.10. | Cochlear: Auditory Brainstem Implant |
3.6.11. | Advanced Bionics |
3.6.12. | Advanced Bionics: Naida CI Q Processor |
3.6.13. | Advanced Bionics: Neptune Processor |
3.6.14. | Advanced Bionics: HiFocus Electrodes |
3.6.15. | MED-EL |
3.6.16. | MED-EL: Synchrony System |
3.6.17. | MED-EL: SONNET Processor |
3.6.18. | MED-EL: RONDO Processor |
3.6.19. | MED-EL: Auditory Brainstem Implant |
3.6.20. | Outlook - Cochlear Implants |
3.6.21. | Cochlear implants - historic data |
3.6.22. | Cochlear implants - market forecast |
4. | KEY TECHNOLOGY FOR HEARABLES |
4.1. | Key technology areas for hearables |
4.2. | Processors and communication |
4.2.1. | The most important technology for hearables |
4.2.2. | Bluetooth |
4.2.3. | Bluetooth LE Audio |
4.2.4. | Bluetooth chipset providers |
4.2.5. | Interview examples |
4.2.6. | Example: RelaJet Tech |
4.2.7. | Opinion: Well Being Digital |
4.3. | Sensors |
4.3.1. | From the wrist to the ear: |
4.3.2. | Placement of wearable sensors |
4.3.3. | Motion sensing in hearables |
4.3.4. | IMUs - Introduction |
4.3.5. | MEMS - Background |
4.3.6. | MEMS - Manufacturing techniques |
4.3.7. | MEMS - Becoming a commodity |
4.3.8. | MEMS Accelerometers |
4.3.9. | MEMS Gyroscopes |
4.3.10. | Digital compasses |
4.3.11. | Magnetometer types |
4.3.12. | Magnetometer types (figure) |
4.3.13. | Magnetometer suppliers and industry dynamic |
4.3.14. | Magnetometer suppliers by type |
4.3.15. | MEMS Barometers |
4.3.16. | Limitations and common errors with MEMS sensors |
4.3.17. | MEMS manufacturers: characteristics and examples |
4.3.18. | Heart rate |
4.3.19. | Monitoring heart rate |
4.3.20. | Photoplethysmography (PPG) |
4.3.21. | Transmission and reflectance |
4.3.22. | Reflectance-mode PPG for fitness wearables |
4.3.23. | Key players |
4.3.24. | Valencell |
4.3.25. | Valencell - more product examples |
4.3.26. | Well Being Digital Ltd. (WBD101) |
4.3.27. | CSEM |
4.3.28. | Philips |
4.3.29. | cosinuss° |
4.3.30. | APM |
4.3.31. | Georgia Tech |
4.3.32. | Blood pressure |
4.3.33. | Techniques for measuring blood pressure |
4.3.34. | Traditional approaches to measuring blood pressure |
4.3.35. | Blood pressure cuffs in watches |
4.3.36. | Non-invasive, beat-to-beat? |
4.3.37. | How important is beat-to-beat BP? |
4.3.38. | Pulse transit time (PTT) & pulse wave velocity (PWV) |
4.3.39. | Pulse arrival time (PAT) |
4.3.40. | Differential pulse arrival time (DPAT) |
4.3.41. | BP from PPG: Optical blood pressure |
4.3.42. | Valencell |
4.3.43. | CSEM |
4.3.44. | GT Cardio |
4.3.45. | cosinuss° |
4.4. | Energy in hearables |
4.4.1. | Rechargeable batteries |
4.4.2. | Primary batteries for hearing aids |
4.4.3. | Fuel cells to power hearing aids |
4.4.4. | Wireless charging and energy harvesting |
4.4.5. | Wireless charging in hearables? |
4.4.6. | Wireless charging approaches and companies |
4.4.7. | RF charging targets hearables |
4.4.8. | Energy harvesting: Most popular techniques |
4.4.9. | Energy harvesting for hearables |
4.4.10. | Conclusions: Wireless charging and energy harvesting |
4.5. | Others |
4.5.1. | Microphones |
4.5.2. | Receivers & Microphones from Sonion |
4.5.3. | Proximity sensors |
5. | MARKET DATA AND FORECASTS |
5.1. | Methodology and assumptions |
5.2. | Historic data and revenue forecast for hearables products, by product type |
5.3. | Historic revenue, by product type (2010 - 2030) |
5.4. | Hearables pricing, by product type (2010 - 2030) |
5.5. | Hearables sales volumes, by product type (2010 - 2030) |
5.6. | Historic data: Headphones sales volumes |
5.7. | Headphones - historic data |
5.8. | Headphones - revenue by company |
5.9. | Hearing aids - historic data |
5.10. | Hearing aids - market forecast |
5.11. | Cochlear implants - historic data |
5.12. | Cochlear implants - market forecast |
5.13. | Revenue from ear-worn products containing biosensors |
5.14. | The proportion of ear worn products adding biometrics |
6. | COMPANY INTERVIEWS |
Slides | 254 |
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Forecasts to | 2030 |