The Global Market for Surface Haptics
Haptic technology stimulates a sense of touch in electronic devices by using different forces, motions or vibrations. Surface haptics focuses on the stimulation of a sense of touch in flat surfaces including computer screens, displays, smartphones, etc. The technology has come to the fore over the last few years, moving from development to production. As the market for smartphones and tablets reaches maturity, consumers are seeking features beyond functionality. Automotive Human Machine Interface (HMI) is a fast-growing sector but has significant usability and safety issues that can be resolved with the use of surface haptic technology. This report assesses the latest technical developments in the surface haptics market including:
Surface haptics technology analysis
The global surface haptics market is segmented into electrotactile, thermal and mechanical feedback technologies including Variable-friction surfaces, Pin arrays, Deformable devices, Electrostatic, Microfluidic, Shape memory, Magneto-Rheological, Electroactive polymers (EAPs), Haptic jamming, Ultrasonic vibration 28, Electromagnetic: ERMS, LRAS, VCMS, Acoustic vibration and Tactile overlays.
Surface haptics competitive analysis
The key players in the global surface haptics market are profiled including products and target markets.
Surface haptics end user market analysis
The global surface haptics end user application market is segmented into aerospace, automotive consumer electronics, gaming and AR/VR, healthcare, advertising & digital signage and other markets.
This report will answer the following questions:
Surface haptics technology analysis
The global surface haptics market is segmented into electrotactile, thermal and mechanical feedback technologies including Variable-friction surfaces, Pin arrays, Deformable devices, Electrostatic, Microfluidic, Shape memory, Magneto-Rheological, Electroactive polymers (EAPs), Haptic jamming, Ultrasonic vibration 28, Electromagnetic: ERMS, LRAS, VCMS, Acoustic vibration and Tactile overlays.
Surface haptics competitive analysis
The key players in the global surface haptics market are profiled including products and target markets.
Surface haptics end user market analysis
The global surface haptics end user application market is segmented into aerospace, automotive consumer electronics, gaming and AR/VR, healthcare, advertising & digital signage and other markets.
This report will answer the following questions:
- How large is the current market for surface haptics?
- What is the status of these technology areas?
- What is driving deployment of these technologies?
- What are the potential market opportunities?
- Who are developing these technologies and in what market?
- Stage of commercialization for surface haptics, from basic research to market entry.
- Market revenues forecasts to 2030.
- Market drivers, trends and challenges, by end user markets.
- In-depth market assessment of opportunities for surface haptics including revenues, growth rates, geographical split etc.
- In-depth company profiles, including products and commercial activities.
- Detailed forecasts for key growth areas, opportunities and user demand.
- Recent industry developments.
- Companies profiled in the report include Tanvas, Kyocera, Microsoft, Aito BV, Bosch, Nidec Corporation and many more.
1 EXECUTIVE SUMMARY
1.1 The importance of haptics
1.2 Current state of the art in haptics.
1.2.1 Motor vibration
1.2.2 Electrostatic forces.
1.2.3 Ultrasonic lubrification
1.3 Opportunities in consumer electronics.
1.4 Opportunities in automotive.
1.5 Opportunities in aerospace
1.6 Recent developments in haptic technology
1.7 Global market, historical, current and forecasted to 2030.
1.7.1 Revenues
1.7.2 By market
1.7.3 By region.
1.8 Key players
2 RESEARCH METHODOLOGY AND SCOPE
3 SURFACE HAPTICS TECHNOLOGY OVERVIEW
3.1 Haptic devices
3.1.1 3D.
3.1.2 2D (surface haptics)
3.2 Surface haptics technologies
3.2.1 Electrotactile actuators
3.2.1.1 Methods for tactile stimulation.
3.2.1.2 Tactile actuators
3.2.1.3 Electrotactile stimulation.
3.2.2 Thermal actuators
3.2.3 Mechanical actuators.
3.2.3.1 Pin arrays.
3.2.3.2 Deformable devices.
3.2.3.3 Electrostatic.
3.2.3.4 Microfluidic
3.2.3.5 Shape memory alloys
3.2.3.6 Rheological fluids
3.2.3.7 Electroactive polymers (EAPs).
3.2.3.8 Haptic jamming
3.2.3.9 Ultrasonic transducers.
3.2.3.10 Electromagnetic: ERMS, LRAS, VCMS
3.2.3.11 Acoustic vibration
3.2.3.12 Tactile overlays
3.2.3.13 Variable-friction surfaces.
3.2.4 Nanomaterials in surface haptics
3.2.5 Comparative analysis of surface haptics technologies-advantages and disadvantages
3.3 Surface haptics SWOT analysis.
4 MARKETS FOR SURFACE HAPTICS
4.1 Consumer electronics.
4.1.1 Market drivers
4.1.2 Applications
4.1.2.1 Touch panels
4.1.2.2 Monitors
4.1.2.3 Wearables
4.1.3 Global market revenue estimates
4.2 Automotive.
4.2.1 Market drivers
4.2.2 Applications
4.2.2.1 HMI.
4.2.3 Global market revenue estimates
4.3 Gaming and AR/VR.
4.3.1 Market drivers
4.3.2 Applications
4.3.3 Global market revenue estimates
4.4 Healthcare
4.4.1 Market drivers
4.4.2 Applications
4.4.3 Global market revenue estimates
4.5 Aerospace
4.5.1 Market drivers
4.5.2 Applications
4.5.3 Global market revenue estimates
4.6 Advertising and digital signage
4.6.1 Market drivers
4.6.2 Applications
4.6.3 Global market revenue estimates
4.7 Other markets
5 PATENTING
6 COMPANY PROFILES 58 (26 COMPANY PROFILES)
7 RESEARCH CENTRE AND ACADEMIA
8 REFERENCES
1.1 The importance of haptics
1.2 Current state of the art in haptics.
1.2.1 Motor vibration
1.2.2 Electrostatic forces.
1.2.3 Ultrasonic lubrification
1.3 Opportunities in consumer electronics.
1.4 Opportunities in automotive.
1.5 Opportunities in aerospace
1.6 Recent developments in haptic technology
1.7 Global market, historical, current and forecasted to 2030.
1.7.1 Revenues
1.7.2 By market
1.7.3 By region.
1.8 Key players
2 RESEARCH METHODOLOGY AND SCOPE
3 SURFACE HAPTICS TECHNOLOGY OVERVIEW
3.1 Haptic devices
3.1.1 3D.
3.1.2 2D (surface haptics)
3.2 Surface haptics technologies
3.2.1 Electrotactile actuators
3.2.1.1 Methods for tactile stimulation.
3.2.1.2 Tactile actuators
3.2.1.3 Electrotactile stimulation.
3.2.2 Thermal actuators
3.2.3 Mechanical actuators.
3.2.3.1 Pin arrays.
3.2.3.2 Deformable devices.
3.2.3.3 Electrostatic.
3.2.3.4 Microfluidic
3.2.3.5 Shape memory alloys
3.2.3.6 Rheological fluids
3.2.3.7 Electroactive polymers (EAPs).
3.2.3.8 Haptic jamming
3.2.3.9 Ultrasonic transducers.
3.2.3.10 Electromagnetic: ERMS, LRAS, VCMS
3.2.3.11 Acoustic vibration
3.2.3.12 Tactile overlays
3.2.3.13 Variable-friction surfaces.
3.2.4 Nanomaterials in surface haptics
3.2.5 Comparative analysis of surface haptics technologies-advantages and disadvantages
3.3 Surface haptics SWOT analysis.
4 MARKETS FOR SURFACE HAPTICS
4.1 Consumer electronics.
4.1.1 Market drivers
4.1.2 Applications
4.1.2.1 Touch panels
4.1.2.2 Monitors
4.1.2.3 Wearables
4.1.3 Global market revenue estimates
4.2 Automotive.
4.2.1 Market drivers
4.2.2 Applications
4.2.2.1 HMI.
4.2.3 Global market revenue estimates
4.3 Gaming and AR/VR.
4.3.1 Market drivers
4.3.2 Applications
4.3.3 Global market revenue estimates
4.4 Healthcare
4.4.1 Market drivers
4.4.2 Applications
4.4.3 Global market revenue estimates
4.5 Aerospace
4.5.1 Market drivers
4.5.2 Applications
4.5.3 Global market revenue estimates
4.6 Advertising and digital signage
4.6.1 Market drivers
4.6.2 Applications
4.6.3 Global market revenue estimates
4.7 Other markets
5 PATENTING
6 COMPANY PROFILES 58 (26 COMPANY PROFILES)
7 RESEARCH CENTRE AND ACADEMIA
8 REFERENCES
TABLES
Table 1. Market drivers for surface haptics.
Table 2. Addressable markets and applications for surface haptics
Table 3. Global revenues for surface haptics to 2030, millions USD
Table 4. Global revenues for surface haptics to 2030, by market.
Table 5. Global revenues for surface haptics to 2030, by country/region
Table 6. Key players in surface haptics
Table 7. Types of haptic sensing
Table 8. Market drivers for surface haptics in consumer electronics
Table 9. Global market revenues for surface haptics in consumer electronics to 2030, millions USD.
Table 10. Market drivers for surface haptics in automotive.
Table 11. Global market revenues for surface haptics in automotive to 2030, millions USD
Table 12. Market drivers for surface haptics in gaming and AR/VR.
Table 13. Global market revenues for surface haptics in gaming and AR/VR to 2030, millions USD
Table 14. Market drivers for surface haptics in healthcare
Table 15. Global market revenues for surface haptics in healthcare to 2030, millions USD
Table 16. Market drivers for surface haptics in aerospace
Table 17. Global market revenues for surface haptics in aerospace to 2030, millions USD
Table 18. Market drivers for surface haptics in advertising and public installations
Table 19. Global market revenues for surface haptics in advertising and public installations to 2030, millions USD.
Table 20. Surface haptics patent by company.
Table 1. Market drivers for surface haptics.
Table 2. Addressable markets and applications for surface haptics
Table 3. Global revenues for surface haptics to 2030, millions USD
Table 4. Global revenues for surface haptics to 2030, by market.
Table 5. Global revenues for surface haptics to 2030, by country/region
Table 6. Key players in surface haptics
Table 7. Types of haptic sensing
Table 8. Market drivers for surface haptics in consumer electronics
Table 9. Global market revenues for surface haptics in consumer electronics to 2030, millions USD.
Table 10. Market drivers for surface haptics in automotive.
Table 11. Global market revenues for surface haptics in automotive to 2030, millions USD
Table 12. Market drivers for surface haptics in gaming and AR/VR.
Table 13. Global market revenues for surface haptics in gaming and AR/VR to 2030, millions USD
Table 14. Market drivers for surface haptics in healthcare
Table 15. Global market revenues for surface haptics in healthcare to 2030, millions USD
Table 16. Market drivers for surface haptics in aerospace
Table 17. Global market revenues for surface haptics in aerospace to 2030, millions USD
Table 18. Market drivers for surface haptics in advertising and public installations
Table 19. Global market revenues for surface haptics in advertising and public installations to 2030, millions USD.
Table 20. Surface haptics patent by company.
FIGURES
Figure 1. Touch screen with haptic feedback in automobile
Figure 2. Global revenues for surface haptics to 2030, millions USD.
Figure 3. Global revenues for surface haptics to 2030, by market
Figure 4. Global revenues for surface haptics to 2030, by country/region.
Figure 5. Graspable, wearable and touchable haptic devices
Figure 6. Tactile feedback in pin arrays
Figure 7. Haptic feedback using electrostatic force
Figure 8. Tactile Display based on shape memory alloy
Figure 9. Shape memory alloys for surface haptic devices.
Figure 10. Shape changing display
Figure 11. Haptic feedback using electroactive polymers
Figure 12. Haptic Jamming array prototype with four hexagonal cells
Figure 13. Ultrasonic transducer
Figure 14. Variable-friction surfaces
Figure 15. Surface haptics SWOT analysis
Figure 16. Sony’s Xperia XZ2 smartphone
Figure 17. Fujitsu prototype haptic tablet
Figure 18. Tanvas Touch,
Figure 19. Global market revenues for surface haptics in consumer electronics to 2030, millions USD.
Figure 20. 3D Touch Surface Display.
Figure 21. Bosch smart cockpit.
Figure 22. Global market revenues for surface haptics in automotive to 2030, millions USD.
Figure 23. Teslasuit
Figure 24. Global market revenues for surface haptics in gaming and AR/VR to 2030, millions USD.
Figure 25. Global market revenues for surface haptics in healthcare to 2030, millions USD.
Figure 26. Global market revenues for surface haptics in aerospace to 2030, millions USD.
Figure 27. Global market revenues for surface haptics in advertising and public installations to 2030, millions USD
Figure 1. Touch screen with haptic feedback in automobile
Figure 2. Global revenues for surface haptics to 2030, millions USD.
Figure 3. Global revenues for surface haptics to 2030, by market
Figure 4. Global revenues for surface haptics to 2030, by country/region.
Figure 5. Graspable, wearable and touchable haptic devices
Figure 6. Tactile feedback in pin arrays
Figure 7. Haptic feedback using electrostatic force
Figure 8. Tactile Display based on shape memory alloy
Figure 9. Shape memory alloys for surface haptic devices.
Figure 10. Shape changing display
Figure 11. Haptic feedback using electroactive polymers
Figure 12. Haptic Jamming array prototype with four hexagonal cells
Figure 13. Ultrasonic transducer
Figure 14. Variable-friction surfaces
Figure 15. Surface haptics SWOT analysis
Figure 16. Sony’s Xperia XZ2 smartphone
Figure 17. Fujitsu prototype haptic tablet
Figure 18. Tanvas Touch,
Figure 19. Global market revenues for surface haptics in consumer electronics to 2030, millions USD.
Figure 20. 3D Touch Surface Display.
Figure 21. Bosch smart cockpit.
Figure 22. Global market revenues for surface haptics in automotive to 2030, millions USD.
Figure 23. Teslasuit
Figure 24. Global market revenues for surface haptics in gaming and AR/VR to 2030, millions USD.
Figure 25. Global market revenues for surface haptics in healthcare to 2030, millions USD.
Figure 26. Global market revenues for surface haptics in aerospace to 2030, millions USD.
Figure 27. Global market revenues for surface haptics in advertising and public installations to 2030, millions USD