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1. | Executive Summary and Conclusions - 28 slides |
1.1. | Definition and basics |
1.2. | Primary conclusions: sensor total patents and top 16 patentors |
1.3. | Primary conclusions: sensor market |
1.4. | Global sensor market drivers |
1.5. | Global sensor market by industry $billion 2021-2041 |
1.6. | Some intersecting market segments 2031 |
1.7. | Primary conclusions: all sensors with electrical output |
1.8. | Sensor superlatives |
1.9. | Top 16 parameters sensed and their top patentors |
1.10. | Primary conclusions: level of sensor interest by business sector |
1.11. | Primary conclusions: importance to sensor manufacturers |
1.12. | Primary conclusions: wireless vs wired |
1.13. | LIDAR value market for certain road vehicles forecast |
1.14. | Radar market forecasts (2020-2040) in all levels of autonomy/ADAS in vehicles and trucks (market value) |
1.15. | Biomedical diagnostics at point-of-care revenue forecast |
1.16. | Biomedical diagnostics at point-of-care revenue by market sector forecast |
1.17. | Primary conclusions: growing importance of wearable, flexible, printed forecast |
1.18. | Printed sensors global market 2020-2030 forecast |
1.19. | Market forecast (2021-2031): Wearable sensors (revenue) |
2. | Introduction - 24 slides |
2.1. | Some sensors by parameter targeted |
2.2. | Some sensors by operating principle |
2.3. | Some sensors by location |
2.4. | Sensor percentage in IOT nodes |
2.5. | Autonomy sensors |
2.6. | Some sensors becoming mostly printed |
2.7. | Wearable electrodes |
2.8. | Wearable sensors |
2.9. | What is sensor fusion? |
2.10. | Global sensor search interest |
2.11. | 6G Communications will transform sensing and need sensing - big time |
3. | Analysis by 9 business sectors: patents, technology, suppliers and trends by business sector - 35 slides |
3.1. | Overview |
3.2. | Aerospace sensors |
3.3. | Agricultural |
3.4. | Automotive |
3.5. | Consumer |
3.6. | Energy sector |
3.7. | Environmental sector |
3.8. | Industrial, manufacturing and IOT |
3.9. | Medical, healthcare, wellness, fitness |
3.10. | Mining |
4. | Analysis by 25 modes of operation: patents, technology, suppliers and trends - 73 slides |
4.1. | Biosensor - medical and bomb detection |
4.2. | Camera sensors |
4.3. | Capacitive sensor |
4.4. | Charge coupled device sensor |
4.5. | Electrical resistance sensor |
4.6. | Electrochemical sensor |
4.7. | Electro-optic sensor |
4.8. | Electrodynamic sensor |
4.9. | Electrostatic sensor |
4.10. | Gyroscope sensor |
4.11. | Image sensor |
4.12. | Inductive sensor |
4.13. | Lab on a chip for point of care |
4.14. | LIDAR sensor |
4.15. | Magnetometer sensor - compass |
4.16. | Metal oxide semiconductor sensor |
4.17. | Metamaterial Sensors |
4.18. | Optical |
4.19. | Photoelectric |
4.20. | Photonic or photovoltaic |
4.21. | Piezoelectric |
4.22. | Piezotronic |
4.23. | Piezoresistive |
4.24. | RADAR sensor |
4.25. | Thermoelectric |
4.26. | Triboelectric |
5. | Analysis by 54 parameters measured: patents, technology, suppliers and trends - 86 slides |
5.1. | Acceleration sensor - accelerometer |
5.2. | Acoustic sensor (sound, ultrasound) |
5.3. | Alcohol sensor |
5.4. | Altitude and barometer sensor |
5.5. | Angle-of-attack sensor |
5.6. | Attitude and tilt sensor |
5.7. | Blood glucose sensor CGM |
5.8. | Blood oxygen (pulse oximeter) sensor |
5.9. | Chemical sensor |
5.10. | Color sensor |
5.11. | Distance sensor |
5.12. | Engine sensor |
5.13. | Flow sensor |
5.14. | Force sensor |
5.15. | Fuel injection sensor |
5.16. | Gas sensor |
5.17. | Heart and heart beat sensors |
5.18. | Humidity sensor |
5.19. | Incontinence sensor |
5.20. | Infrared sensor |
5.21. | Intrusion sensor or detector |
5.22. | Level sensor |
5.23. | Light sensor |
5.24. | Measurement sensor |
5.25. | Metal sensor |
5.26. | Moisture sensor |
5.27. | Motion sensor |
5.28. | Nerve sensors |
5.29. | Pathogen sensors, poison, toxin sensors |
5.30. | pH sensors |
5.31. | Pollution sensor |
5.32. | Precipitation sensor |
5.33. | Pressure sensor |
5.34. | Proximity sensor |
5.35. | Pulse sensor |
5.36. | Radiation sensor |
5.37. | Rain sensor |
5.38. | Removal sensor |
5.39. | Respiration sensor |
5.40. | Shock sensor |
5.41. | Smoke sensor |
5.42. | Strain sensor |
5.43. | Structural health monitoring |
5.44. | Tamper sensors |
5.45. | Temperature and heat sensor |
5.46. | Terahertz sensor |
5.47. | Tire sensor |
5.48. | Touch sensors, traffic sensors, sensor switches |
5.49. | Sensor switches |
5.50. | Ultraviolet sensors |
5.51. | Urine sensors |
5.52. | Vibration sensors |
5.53. | Vital signs sensors |
5.54. | Wear sensor |
6. | How 6G communication will massively boost sensor capability, deployment, usefulness |
6.1. | Introduction |
6.2. | Probable 6G Timing to 2045 |
6.3. | Integration of sensing and communication |
6.4. | Overall purpose of 6G and effect on IoT |
6.5. | Desired 6G capabilities: frequency, data rate, latency, ubiquity |
6.6. | Potential applications of 6G |
6.7. | Possible 6G architectures |
6.8. | Sensing and imaging at higher frequencies and more locations |
6.9. | Conclusions: 6G technology |
Slides | 270 |
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Forecasts to | 2041 |