1.Development of 3D Sensing Technology
1.1 Definition of 3D Sensing
1.2 Key 3D Sensing Technologies
1.1.1 Structured Light
1.1.2 TOF (Time of Flight)
1.1.3 Stereo Vision
2.Applications of 3D Sensing
2.1 Application #1: Facial Recognition
2.1.1 Bezel-less Smartphone Trend Drives 3D Facial Recognition Development
2.1.2 Structured Light Technology Suitable for 3D Facial Recognition with Fast, Accurate, and Excellent Short-range Measurement
2.1.3 3D Facial Recognition-enabled Smartphones to Accelerate Mobile Financial Service Applications
2.2 Application #2: Gesture Control
2.2.1 AR/VR with Intuitive Gesture Control Enhances Immersive Experience
2.2.2 Google Creates 3D Gesture Control Ecosystem with Project Soli
2.3 Application #3: Smart Vehicles
2.3.1 3D Environment Sensing as First Step to Autonomous Security and Driving for Smart Vehicles
2.3.2 ADAS Regulations to Boost Camera and Radar Demand; Solid-static LiDar Market to Thrive
2.3.3 Vehicle Camera as Standards Equipment
2.3.4 Long-range 77GHz mmWave Radar as Focal Development
2.3.5 LiDAR towards Mass Production, Accelerating Realization of L3 Autonomy
2.4 Application #4: Industrial Robots
2.4.1 Robotic Arms with 3D Computer Vision Enable Randomly Picking of Parts and Quality Check
2.4.2 Mobile Robotic Arms with 3D Sensing Optimizes Human-machine Collaboration and Near-field Navigation
3.Conclusion
3.1 3D Sensing Technology Endows AI + IoT Products with Vision, Smarting Up Human-Machine Collaboration
3.2 UI with 3D Facial Recognition Enhances User Experience and Drives Innovative Fintech Services
3.3 Gesture Control Enables Intuitive Human-Machine Interaction and More Immersive VR Experience
3.4 Demand for Solid-state LiDAR to Rise
3.5 Industrial Robots with 3D Computer Vision Make Unmanned Factories a Reality
Appendix
Glossary of Terms
List of Companies