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เซนเซอร์ 2021-2041
ไม่ซ้ำกันครอบคลุมทั้งเรื่องการโพสต์ COVID-19.เซ็นเซอร์ที่มีเอาต์พุตไฟฟ้าเทคโนโลยีวัสดุการใช้การคาดการณ์
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Contents, Table & Figures List
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The 270 page IDTechEx report, "Sensors 2021-2041" uniquely analyses the whole subject in the light of such seismic changes as the COVID-19 virus, automotive entering a perfect storm of change, robot farming and mining and the diabetes epidemic. The emphasis is on commercial opportunities.
Over 100 companies are covered. See new patent trend graphs for over 80 sensor families. Top assignees are ranked for each with what that tells us. The 13 most important sensor families for the future get particularly detailed technical and business analysis based on many interviews and investigations. Data are included from newly-researched IDTechEx drill down reports on key aspects including automotive RADAR, automotive LIDAR, bioelectronics, diabetes and skin patch electronics, water sensors, printed and flexible sensors.
The report has a thorough executive summary and conclusions for those with limited time. New infograms present facts-based analysis by PhD level, multi-lingual analysts based on 20 years of research. What are the top 16 sensor-patenting organisations and which of 13 key sensor sectors do each dominate? Which are strongly addressing three important sensor types identified by IDTechEx for the future?
See 14 key conclusions about the global sensor business. Compare global value-market forecasts 2021-2041 for nine sensor-rich industries with identified market drivers. See backup forecasts including important new IDTechEx figures for post-COVID electric and conventional car sales to 2040. An infogram reveals how market sizes compare and overlap. An example is the market for wearable technology overall and its part for medical purposes down to biosensors within that. Only IDTechEx gives you the big picture.
In this opening chapter, sensors are discussed by industry, operating principle, parameter measured. Understand which are growing fastest, filing the most patents, operate where. 16 most-patented sensor families by parameter are compared, listing their top assignees. From interviews, data gathering and other sources, the level of interest and the 10 year market forecasts are given by key sector. Wired vs wireless sensor interest is presented.
The report introduction then illustrates a host of sensor examples by industry, Internet of Things, body area networks, aircraft needs changing, autonomous vehicles and so on. The trend to printing and wearable are discussed plus an explanation of sensor fusion and newly-monitored interest levels in sensors, including China.
Chapter three is an analysis by business sector: patents, technology, players and trends. The products, needs and thrust of nine key industries identified are here. They are aerospace, agricultural, automotive, consumer, energy, environmental, industrial (including manufacturing, logistics, Internet of Things), medical and wellness, mining.
Chapter four does that for 25 sensor operating principles with extended analysis of the most important ones. For example, here is explanation of the new biosensors, lab-on-a-chip, piezotronics and thermoelectric sensing and where they are headed and particular attention on the newly-important vehicle RADAR and LIDAR sensor technologies.
Finally, chapter five, the longest at 86 detailed pages, is a thorough sensor analysis by parameter measured: patents, technology, participants and trends. No less than 54 sensor families are examined, from emerging continuous glucose monitoring with massive patenting to gas, nerve, new structural health monitoring and toxigen sensing. Who is behind massive new patenting of temperature sensors and why? Have the new terahertz radiation sensors got a future? The approach is balanced, recognising, for example that a solar farm replacing deep oil wells, their pipelines and their power stations all together means fewer sensors and our interviews revealing COVID-19 has de-prioritised car autonomy. Huge market-growth prospects and identified gaps in the sensor market are presented alongside the discovered negatives.
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Further information
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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 |
เซ็นเซอร์จะมีราคาประมาณ 250 พันล้านดอลลาร์ในปี 2041 แต่มีการเปลี่ยนแปลงส่วนผสมอย่างสิ้นเชิง
Report Statistics
| Slides | 270 |
|---|---|
| Forecasts to | 2041 |
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