Innovations in Color Sensors, 3D Image Sensors, Radar Level Sensors, Laser Sensing, 3D Ultrasound Touch Sensors, Electronic Skin, Solid-state LiDAR, and Sweat Detecting Stress Sensors

Innovations in Color Sensors, 3D Image Sensors, Radar Level Sensors, Laser Sensing, 3D Ultrasound Touch Sensors, Electronic Skin, Solid-state LiDAR, and Sweat Detecting Stress Sensors

RELEASE DATE
20-Mar-2020
REGION
Global
Research Code: D727-00-A8-00-00
SKU: CI00692-GL-TA_24247

$950.00

Special Price $712.50 save 25 %

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CI00692-GL-TA_24247

$950.00

$712.50 save 25 %

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Description

This issue of Sensor TechVision Opportunity Engine profiles advancements in color sensors, 3D image sensors, laser sensing, 3D ultrasound touch sensors, and electronic skin, solid-state LiDAR, and sweat detecting stress sensors. It also focuses on sensor detecting freshness of food and plants, vision-based tactile sensor, and time-of-flight image sensor.

Sensor TechVision Opportunity Engine (TOE) captures global sensor-related innovations and developments on a monthly basis. Innovations are directed toward developing smart and intelligent sensors with functionalities beyond sensing. Research focus areas include: low power sensors (energy harvesting), industrial automation sensors (M2M, vision sensor), ubiquitous sensor (WSN, sensor fusion), smart sensors (wearables, quantified self), high sensitivity and smaller size (MEMS, nanosensors), and improved security (CBRNE, terahertz). The need for low power, smaller, lighter sensors with enhanced performance attributes and minimal false alarms is driving innovations in the sensors space.

The Sensors and Instrumentation cluster covers innovations pertaining to technologies such as wireless sensors and networks, energy harvesting, haptics and touch, MEMS and nanosensors, Terahertz, ubiquitous/smart sensors, CBRNE, quantified-self, sensor fusion, M2M communications, and drones.

Keywords: Image sensor, graphene sensor, skin sensor, electronics skin, color sensor, 3D sensor, tactile sensor, LiDAR, Solid-state LiDAR, touch sensor, ultrasound sensor

Table of Contents

Advancements in Color Sensors, 3D Image Sensors, Laser Sensing, 3D Ultrasound Touch Sensors, and Electronic Skin, Solid-state LiDAR, and Sweat Detecting Stress Sensors

  • Circular Color Sensor for Challenging Surfaces
  • Growth Opportunities
  • Cutting Costs for Mobile 3D Optical Sensing
  • Growth Opportunities
  • Smart Clothes Protect Firefighters
  • Growth Opportunities
  • Flexible Encoder for More Compact Rotating Equipment
  • Growth Opportunities
  • Low Cost Alternative to Ultrasonic Level Sensing
  • Growth Opportunities
  • Cost-effective Fluid Measurement in Silos
  • Growth Opportunities
  • Thinner Laser Beam Improves Precision
  • Growth Opportunities
  • Sensor Analysis for Quieter Electric and Hybrid Cars
  • Growth Opportunities
  • Next Wave of Touch User Interface
  • Growth Opportunities
  • Chip Integrated Electronic Skin with GMR Sensors
  • Growth Opportunities
  • MEMS-based Solid-state LiDAR
  • Growth Opportunities
  • Graphene-based Sweat Sensor Detects Stress Level in Humans
  • Growth Opportunities
  • Novel Sensor Detects Freshness of Food and Plants
  • Growth Opportunities
  • Vision-based Tactile Sensor for Robotics Application
  • Growth Opportunities
  • ToF Image Sensor for In-vehicle Passenger Monitoring
  • Growth Opportunities
  • Key Contacts
  • Key Contacts (continued)
  • Key Contacts (continued)
  • Key Contacts (continued)
Related Research
This issue of Sensor Technology Opportunity Engine profiles advancements in color sensors, 3D image sensors, laser sensing, 3D ultrasound touch sensors, and electronic skin, solid-state LiDAR, and sweat detecting stress sensors. It also focuses on sensor detecting freshness of food and plants, vision-based tactile sensor, and time-of-flight image sensor. Sensor Technology Opportunity Engine (TOE) captures global sensor-related innovations and developments on a monthly basis. Innovations are directed toward developing smart and intelligent sensors with functionalities beyond sensing. Research focus areas include: low power sensors (energy harvesting), industrial automation sensors (M2M, vision sensor), ubiquitous sensor (WSN, sensor fusion), smart sensors (wearables, quantified self), high sensitivity and smaller size (MEMS, nanosensors), and improved security (CBRNE, terahertz). The need for low power, smaller, lighter sensors with enhanced performance attributes and minimal false alarms is driving innovations in the sensors space. The Sensors and Instrumentation cluster covers innovations pertaining to technologies such as wireless sensors and networks, energy harvesting, haptics and touch, MEMS and nanosensors, Terahertz, ubiquitous/smart sensors, CBRNE, quantified-self, sensor fusion, M2M communications, and drones. Keywords: Image sensor, graphene sensor, skin sensor, electronics skin, color sensor, 3D sensor, tactile sensor, LiDAR, Solid-state LiDAR, touch sensor, ultrasound sensor
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Industries Cross Industries
WIP Number D727-00-A8-00-00
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