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Innovations in Image Sensors (TechVision)
Innovations in Image Sensors (TechVision)
High resolution and dynamic range imaging drive opportunities
26-May-2016
Global
Description
The technology and innovation report assess innovations in image sensors and also its impact on different industries. Increasing need for high resolution and dynamic range and fast imaging in applications such as automotive, aerospace, medical, consumer electronics and industrial drives the need for enhanced image sensing device.
The automotive sector is focused on increasing the safety of driver and car to the next level and image sensors facilitate enhanced safety in cars. Innovations in image sensors enable medical applications ranging from X-ray imaging to smart pills. Adoption of image sensors is envisioned high for industrial applications such as machine vision, quality check, inspection, and robotics. Improved efficiency, reduced cost, and low energy consumption aspects of image sensors have garnered interest from various industries including aerospace. The market share for image sensors in the aerospace industry will increase as cameras become key components for safety, pilot assistance in landing, and structural health monitoring. Mobile phones with imaging capabilities are driving the growth of image sensors for consumer electronics.
The report focuses on analysing key innovations in different sectors such as automotive, medical, industrial, and aerospace and consumer electronics.
Table of Contents
1.1 Research Scope
1.2 Research Methodology
1.3 Research Methodology Explained
2.1 Hyperspectral and Multispectral Imaging, NIRS, and Photoacoustic Tomography are Key Enabling Technologies
2.2 Impact on Key Sectors – Automotive, Consumer Electronics, Medical, Industrial, and Aerospace
3.1 Key Types of Image Sensors – CCD and CMOS
3.2 Enabling Technology Platforms – HIS, NIRS, PAT, DACE, Fusion, BSI, Global Shutter, Stacked CMOS, and OCT
3.3 How Do We Achieve Depth Perception in Images?
4.1 ADAS is Driving Innovation in Image Sensing
4.2 Depth Information, Flickering, SoC, and High Dynamic Range are Key Transformation Forces
4.3 Representation of Image Sensors in Automotive - LDW, Blind Spot Detection, Traffic Sign Recognition
4.4 Innovations Impacting Automotive Applications - Next Gen Thermal Imagers, High Dynamic Range Sensors, 3D Vision System, ToF based 3D Image Sensor
4.5 Fully Autonomous Vehicles are Expected by 2025, and Depth Sensing and High Dynamic Range Camera will Improve Visualization
5.1 Innovations Enable Applications Ranging from X-ray Imaging to Smart Pills
5.2 Low Cost, Cross-Industry Collaboration, Portability, Integration and Patient Comfort are Key Transformation Forces
5.3 Image Sensor Representation in the Medical Domain – X-ray, Ultrasound, MRI, and Nuclear Imaging
5.4 Innovation Impacting Medical Applications – 3D Microwave Sensor, Hand-held Optical Scanner, Optoacoustic Ultrasound, MRO, Coronis Displays
5.5 By 2025, Radiation Doses will Reduce and More Efficient Imaging Services will be Leveraged to Benefit Patients, Physicians, and Employees
6.1 3D Vision System is the Key Focus Area
6.2 Key Forces of Transformation – Throughput and Accuracy, Miniaturization, Cost Efficiency, Decreasing Price, and Improved Functionality
6.3 Innovation Impacting Industrial Applications – Single Source Inspection, Polarization Camera, High Speed Inspection of Metal Sheets
6.4 By 2025, Adoption of Humanoid Robots are Likely to Increase Creating Opportunities for Wider Use of Image Sensors
7.1 Companies are Focusing on Aircraft Landing and Takeoff Aspects
7.2 Key Transformation Forces – High Speed Camera, Shutter, Hyperspectral Imaging
7.3 Innovation Impacting Aerospace Applications – NIR Image Sensor, CMOS Hyper Vision Camera, Short Wave IR Imaging
7.4 By 2025, Hyperspectral Imaging are Likely to be Used in UAVs to Provide Detailed View of a Scene
8.1 Technology Development is High in South Korea
8.2 Higher Frame Rates, Quantum Efficiency, Miniaturization, and Dynamic Range are Key Transformation Forces
8.3 3D Integrated CMOS, High Resolution Wafer Scale, Hybrid CMOS, and ToF Image Sensor Innovations Impact on Consumer Electronics
8.4 By 2025, High Density 3D Integration, and Multispectral Camera are Likely to Gain Traction
9.1 Criteria based Assessment of Key Innovations – Capability Enhancement, Speed of Development, Impact on Multiple Industries, and Breadth of Demand
9.2 Impact Assessment of Key Innovations – BSI Architecture, Quantum Film, TSV, Stacked CMOS, High Dynamic Range, Global Shutter, Lateral Drift Photo Detector, and Sensor Matrix
10.1 Automotive offers Near-Term Growth Opportunities
10.2 Technology Management Strategies – Funding, Partnership, Manufacturing
10.3 Key Conclusions – Enhanced Depth Sensing and Improved HMI can Expand Market Opportunities
11.1 Key Patents on Color-Sensitive Image Sensor and LIDAR based Operating Method
11.2 Recalibration of Cameras and Vein Pattern Authentication Related Patents
11.3 Key Patents on Manufacturing Method and Medical Applications
12.1 Key Industry Participants
12.2 Legal Disclaimer
13.1 Value Proposition: Future of Your Company & Career
13.2 Global Perspective
13.3 Industry Convergence
13.3 360º Research Perspective
13.4 Implementation Excellence
Popular Topics
No Index | No |
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Podcast | No |
Author | Sitanshu Ramrao Shastri |
WIP Number | D6FF-01-00-00-00 |
Keyword 1 | Innovations in Image Sensors |
Keyword 2 | CMOS Image Sensors |
Keyword 3 | Innovations in image sensing |
Is Prebook | No |