NOVEMBER, 20206 Copyright © 2020 ValleyMedia Inc. All rights reserved. Reproduction in whole or part of any text, photography or illustrations without written permission from the publisher is prohibited. The publisher assumes no responsibility for unsolicited manuscripts, photographs or illustrations. Views and opinions expressed in this publication are not necessarily those of the magazine and accordingly, no liability is assumed by the publisher thereof.Managing EditorRachel SmithEditorial StaffJoe PhilipLaura PintoMatthew JacobMerlin WatsonDaniel HolmesLeah JaneVisualizerJohn GothamThe Developing World of Sensor Technology*Some of the Insights are based on the interviews with respective CIOs and CXOs to our editorial staffEmail:sales@appliedtechnologyreview.comeditor@appliedtechnologyreview.commarketing@appliedtechnologyreview.comPhone:510.722.8394Contact Us:EditorialThe Global Industrial Sensors Market is expected to reach USD 31.54 Billion by 2025 with the CAGR of 7.32 percent over the forecast period. As a result, Industry players are enhancing their product portfolios for pressure sensor to increase their operational capability in various industries, thus driving the market growth. Sensor have been upgraded very fast in the market. Real time monitoring of machine parameters and equipment being intended with predictive maintenance in mind, in addition to the general growth in sensor application due to increased automation levels on the plant floor. Nowadays, the biggest revolution taking place in the world of sensors is IO-Link. The IO-Link technology, being digital, is being acknowledged by almost all industries, where it want to overcome traditional challenges of analogue systems like EMC issues / signal losses, etc., which are very mutual in analogue signals. Technocrats want sensors, which are well-matched with the latest communication protocols and are able to work in high temperatures, pressures, and all sorts of environments, such as, underwater, space, etc. at a modest price. When it comes to sensors' contribution to predicting and preventing future events, it is governed by the data/history of events, which need to be evaluated in order to analyze the present state of any environment, as a result, arriving to conclusions regarding deterioration levels.Both governments and the private industry are turning to mobile biometrics to speed up handling of human identification. Mobile biometrics simply means attaining individual biometric identification on a mobile device with the handiness to be easily moved or shifted from one place to another. With the rising demand for the advancement of sensor technology to meet IoT necessities under 5G infrastructure, conventional MEMS sensors are facing a new round of evolution. Starting with the MEMS fabrication technology, which is fundamental for all sensors to be physically produced, new fabrication method have been proposed and demonstrated in making those novel sensors. In terms of applications in IoT, three major types of MEMS sensors, which will be widely used almost everywhere with orders of increasing working frequency.Rachel SmithManaging Editoreditor@appliedtechnologyreview.comNovember - 2020 , volume 02 - Issue 7Published by ValleyMedia Inc. To subscribe to Enterprise Technology ReviewVisit www.appliedtechnologyreview.com
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