Electronics and Sensors
The Frost & Sullivan Electronics & Sensors group provides global market analysis and forecasts, insights into emerging technologies, current trends and challenges, and new opportunities to grow your business.
The electronics world is becoming smaller, more compact, sleeker, faster and price-competitive. The pervasiveness of electronics will continue to increase rapidly in walks of life whether medical, aerospace and defense, automotive and ever-present consumer electronics
11 Feb 2022  |  Global
The Microelectronics Technology Opportunity Engine for February 2022 covers innovations pertaining to silicon carbide, gallium nitride, wearables, and processors. Some of the key developments profiled include efficient production of silicon carbide wafers, gallium nitride transistors, photonic integrated circuits for holographic displays, smart wea...
14 Jan 2022  |  Global
The Microelectronics Technology Opportunity Engine for January 2022 covers innovations in wearables, power management, antennas, wireless charging, and processors. Some of the key innovations profiled include power management technologies for integrated circuits; wearables suitable for skin hydration and diabetes tracking; wireless power transmissi...
11 Jan 2022  |  Global
Advanced Communication Technologies will Revolutionize Automotive IoT
Advancements in technologies that improve navigation and object detection, communication between vehicles and infrastructure, image processing algorithms, data analytics, and machine vision have created opportunities for automotive manufacturers to discover a wide range of solutions for the automotive IoT arena. Enhanced safety and cost-effectivene...
20 Dec 2021  |  Global
Frequency-modulated Continuous-wave–based LiDAR and On-chip LiDAR Solutions are Driving LiDAR Market Growth.
•LiDAR is an imaging technology that enables distance measurement and the construction of precise and detailed 3D mapping solutions. •4D LiDAR will significantly impact the industrial and the automotive sectors (primarily, autonomous vehicles). For Level 4 and 5 automated driving, the automotive industry will choose 4D LiDAR sensor technology ...
10 Dec 2021  |  Global
The Microelectronics Technology Opportunity Engine for December 2021 covers innovations pertaining to processors, wearables, gallium electronics, and antenna. Some of the innovations profiled include processors suitable for complex AI workloads, system-on chip for edge devices, GaN-based IC for fast charging, wearables for vitals monitoring, and ph...
09 Dec 2021  |  Global
Terahertz Imaging Applications in Non-destructive Testing, Non-invasive Diagnosis of Viral Strains, and Goods Inspection
Demand for terahertz imaging is driven by its ability to perform non-ionizing scanning on the human skin that does not harm the healthy cells in the surrounding infection areas—a primary requisite in the medical field—compared with conventional scanning modes such as x-ray and UV rays. Terahertz radiation is transparent to paper, wood, and a ...
08 Dec 2021  |  Global
Advancements in Optical Waveguide Technology for AR and VR will Accelerate Growth Opportunities in the Automotive, Healthcare, Aerospace and Defense, Education, and Retail Sectors.
In today’s electronics-dominated world, the desire for immersive experiences has surged immensely. As a result, AR/VR technologies have evolved rapidly in recent years. Advancements in optical waveguides such as diffractive waveguides hold the potential to build ergonomic AR/VR devices without compromising on the quality of the projected images. ...
08 Dec 2021  |  Global
Analog AI to Disrupt Acceleration Hardware in the Near-Term
The proliferation of internet of things applications, such as smart manufacturing and smart transportation, has resulted in the explosion of artificial intelligence (AI) and big data. These applications heavily rely on complex AI and machine learning algorithms, requiring computational solutions to handle varying workloads. Power-intensive, costly,...
01 Dec 2021  |  Global
Machine Learning and Quantitative DAS Driving Advancements in Distributed Fiber Optic Sensing
Fiber optic sensing solutions utilize the light medium as the physical source to detect variations in temperature, acoustics, strain, and vibrational parameters. Fiber optic sensing uses an optical fiber cable as the sensor device to create a continuous point of sensing along the fiber cable. This method of sensing is known as distributed fiber opt...
23 Nov 2021  |  Global
Monolithic Integration and Self-assembling Processes Drive Advancements in the Fabrication and the Processing of Sensors.
•The sensors market is expanding, and it is regarded as one of the most promising areas in the semiconductor industry. Sensor technology is an evolving discipline that holds the potential to significantly improve the performance, durability, maintenance, and applicability of many engineering projects. Material science and engineering advancements...