Editor’s note Recent advancements in sensor hardware and algorithms are driving significant transformations across industrial and consumer applications, particularly in automated systems, robotics, and digitalization efforts within industrial environments. The widespread adoption of key sensor technologies across different industries has been instrumental in fostering innovation. These advancements have enabled the miniaturization, ruggedization, and enhanced connectivity of transducers and processing elements. Moreover, there's a growing trend towards integrated sensing solutions that combine multiple modalities such as angle, speed, and temperature. This integration not only reduces design complexity and footprint but also lowers costs. 3D time-of-flight (ToF) imaging exemplifies this trend by integrating optical design, precision timing circuits, and advanced signal processing capabilities. It's tailored for applications in industrial safety, robotic navigation, and gesture-based controls. Advancements in sensors now incorporate wireless communication capabilities, real-time data collection, and sophisticated calibration techniques to achieve higher levels of accuracy. These technologies, complemented by machine-learning algorithms, support predictive maintenance in industrial settings and enable adaptive functionalities in drones and other mobile platforms. There is a notable shift towards energy-efficient and energy- harvesting sensors, which are increasingly integrated into
new applications and upgraded legacy systems. In this magazine, we delve into 10 specific sensor
technologies, exploring how they enable scalability, enhance design performance, and facilitate the smart engineering functions crucial for today's evolving needs.
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