Combating Fractional Spurs in Phase Locked Loops to Improve Wireless System Performance in Beyond 5G: Two innovative design techniques lead to substantial improvements in performance in fractional-N phase locked loops (PLLs), report scientists from Tokyo Tech. The proposed methods are aimed to minimiz... https://lnkd.in/giM_wgXU
Tokyo Institute of Technology’s Post
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Combating fractional spurs in phase locked loops to improve wireless system performance in beyond 5G . Two innovative design techniques lead to substantial improvements in performance in fractional-N phase locked loops (PLLs), report scientists from Tokyo Tech. #TechTrends #TechInnovationsDaily #DigitalFrontiers #FutureTechInsights
February 17th 2024
techxplore.com
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Martin's ADAS Blog: #Antenna - Part 1 📡 In the next three articles, Martin will focus on the subject of antennas: 1. Criteria for choosing the right antenna 2. An example of a roof antenna 3. Antennas in the automotive industry Today, Martin is answering basic questions about antennas: What does an antenna do and which #criteria are considered when choosing the right antenna? Do you know the answer? 💡 Have a look and enjoy reading it 😎 👇👇👇👇👇 #nsggroup #pilkington #pilkingtonbloggt #automotive #glassindustry #ReCO™ #ReCOcommunity #experts #team #innovation
Chapter 17 Poor Reception? - The Antenna: Part 1
pilkington.com
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Hola Technocrats!!! Have you ever wondered how your phone knows when its case is closed, or how a brushless motor in your drone spins so smoothly? The answer might surprise you: it's all thanks to a tiny sensor called the Hall effect sensor. 𝐖𝐡𝐚𝐭 𝐢𝐬 𝐢𝐭? The Hall effect sensor is a fascinating piece of technology that uses a principle called the Hall effect. When a magnetic field is applied to a conductor with current flowing through it, a voltage is created at right angles to both the current and the magnetic field. This voltage, known as the Hall voltage, is proportional to the strength of the magnetic field. So, the next time you interact with a device that uses magnets or senses position and movement, remember the silent hero behind the scenes: the Hall effect sensor, a testament to the ingenuity of human innovation. ----------------------------------------------------------- Share with your friends if you're an electronic enthusiast!! Do follow Electronics Hobby Club Follow for more interesting stuff!💡 ------------------------------------------------------------ Do like, share, save, and turn on the post notifications to get notified for more upcoming events.✨ ------------------------------------------------------------ #electronics #sensors #halleffectsensor #magnetism #technology #innovation #electromagnetism #solidstate #transducers #microsensors
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Sidelink Technology in 5G When a mobile device communicates in a cellular network, data is typically going in both uplink (UL) and downlink (DL) directions to a transceiver entity generally known as a basestation. Starting with 4G LTE Advanced, and continuing with 5G, standards have been developed to allow devices to communicate with each other directly (Sidelink or SL), with and without the assistance of the traditional cellular network. One can immediately see the potential of this capability where infrastructure cellular coverage is poor or non-existent, e.g., in unpopulated areas or underground or where fast connectivity is needed for certain applications like autonomous vehicles. One can also anticipate the technical challenges in establishing sidelinks - search, acquisition, registration, authentication, radio resource allocation, etc. Sidelink is a 3rd Generation Partnership Project (3GPP) standardized technology that enables direct user-to-user communications, with or without the assistance of a base station. Current sidelink (Release 16) has evolved from the device-to-device communication system developed for proximity services (ProSe) targeting public safety via the emergency first responder community (e.g., FirstNet [1]). Sidelink is attractive in such uses because it provides support for users needing data connectivity with ultra-low latency and high reliability requirements. These characteristics are also useful in a variety of other scenarios – such as coverage extension to planned cellular networks, connectivity for Vehicle-to-Everything (V2X), communications for augmented/virtual reality (AR/VR) devices, and network support for intra-body sensors – leading to interests in expanding sidelink usage. In view of these emergent applications, 3GPP is currently developing Release 18 to further enhance sidelink technology. Source: www.comsoc.org
IEEE Communications Society
comsoc.org
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Revolutionizing maritime technology with virtual sensors! ✨🚢 - Using state-of-the-art #simulation, various sensor systems can be placed, optimized and evaluated on virtual ships. Whether berthing assistant or man-overboard detection - innovative solutions for complex maritime challenges are created thanks to the data generated by physical #sensorsimulation. 🌐⚙️ Dive into the world of #DigitalEngineering 👉 https://fcld.ly/ewlnud6 #ITKengineering #ITK #ITKivess #IVESS #maritime
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Excited to announce the publication of our paper: "STARNet: Sensor Trustworthiness and Anomaly Recognition via Lightweight Likelihood Regret for Robust Edge Autonomy" 🎉 Key achievements: • 🔍 Developed STARNet, a novel framework for enhancing sensor reliability in autonomous robotics using likelihood regret analysis • 🚗 Improved prediction accuracy by ~10% in adverse weather and sensor malfunction scenarios • 🧠 Implemented gradient-free optimization and low-rank adaptation techniques for efficient edge device deployment • 🎯 Achieved superior performance in detecting internal sensor failures, with AUC values of 0.96 for heavy crosstalk and 0.95 for cross-sensor interference • 🔄 Successfully applied to both unimodal (LiDAR-only) and multimodal (LiDAR-Camera) processing scenarios Proud of our team's work in advancing robust autonomy for next-generation robotics! #AutonomousRobotics #MachineLearning #EdgeComputing
STARNet: Sensor Trustworthiness and Anomaly Recognition via Lightweight Likelihood Regret for Robust Edge Autonomy
ieeexplore.ieee.org
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The Global Optical Position #Sensor Market is projected to grow at a #CAGR of 10.50% from 2023 to 2030, reaching a value of USD 6,101.94 million by 2030. #MarketResearch #AerospaceandDefense #SensorMarket #electronicsnews #technologynews
Global Optical Position Sensor Market growing at a CAGR of 10.50% from 2023 to 2030
timestech.in
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Combating fractional spurs in phase locked loops to improve wireless system performance in beyond 5G - https://lnkd.in/gMEB4nNm #6G
Combating fractional spurs in phase locked loops to improve wireless system performance in beyond 5G
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Let’s talk about spectrum: How more bands make a better network. As businesses consider the fascinating use cases fueled by the 5G era, it’s helpful to understand how using multiple frequency bands—low-band, mid-band, and high-band—is a first step toward fulfilling the promise of a 5G-connected world. If you’re not a radio engineer, this territory can get confusing. This 3 minute read provides the perfect primer.
Let's talk about 5G spectrum: How more bands make a better network.
t-mobile.com
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#Sensor_Fusion Market 2023: Global Industry Analysis, Opportunities and Forecast To 2032 >> https://lnkd.in/eA3uMTYC #Sensor fusion is a #process in which #data from #multiple sensors is combined and #integrated to #provide a more #accurate and #comprehensive #understanding of a given #environment or system. It involves combining #information from different #sensors, such as cameras, #radar, lidar, gyroscopes, #accelerometers, and #GPS, to obtain a more #robust and reliable #representation of the surrounding #environment or the state of a #system. STMicroelectronics TDK InvenSense NXP Semiconductors. Infineon Technologies Bosch Sensortec GmbH Analog Devices Renesas Electronics Amphenol Texas Instruments QUALCOMM TECHNOLOGIES INTERNATIONAL, LTD. #marketresearch #semiconductors #electronics #sensorsfusion #semiconductorindustry #electronicsmanufacturing
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