Olivier Robin’s Post

🚀【Precision Pinnacle】Servo Tracking Turntable: The Dynamic Navigator for RCS Static Measurement Antennas!🎯 Introducing our cutting-edge Servo Tracking Turntable - the intelligent facilitator for RCS static measurement equipment's critical transceiver antenna.💃 This advanced device boasts automatic antenna alignment, spanning a full 360° rotation and ±30° pitch with pinpoint precision from 0.001°/s to 60°/s speed and accelerations up to 60°/s².🛠️ Accuracy that defies expectations: 1mrad in azimuth and 1.5mrad in pitch ensure precise data capture. Each rotation, executed with the precision of 0.001°, showcases unparalleled control.🔧 Connect seamlessly with Ethernet, WiFi, or 422 serial port interfaces, and experience the stability of a powerhouse weighing over 5kg.🌍 Click here to explore this groundbreaking technology and elevate your research efforts!👉https://lnkd.in/gMXYfStA #Servo Tracking Turntable #RCS Static Measurement #Autonomous Alignment #Precision Control #Technological Breakthrough #Research Equipment #Precise Positioning #IoT Technology #Connecting the Future

We are always challenged to push the boundaries of traditional antennas by our customer’s demanding applications. Whether smaller, with more bandwidth or enhanced performance, we always rise to the challenge and are the real innovators in the antenna world. Our new ‘Inception HP5354.A’ was born from needing a lower profile, multiband GNSS patch. It is an industry-first "Patch-within-a-Patch" antenna! This cutting-edge ceramic patch antenna offers L1/L5 dual-band stacked patch performance but with the same footprint as a single patch, a 50% reduction in height and lower weight. Learn more about the Inception patch in our press release here: https://lnkd.in/da3dUJ-i #GNSS #Antenna #IoT #Connectivity #AssetTracking #Navigation  #Robotics #Industrial #AgTech #TechInnovation #SmartDevices

The Challenges of Deploying Indoor Millimeter-Wave Radar Sensors Despite their compact design and straightforward hardware architecture, indoor millimeter-wave radar sensors pose significant #challenges when it comes to real-world application. The complexity of these radars should not be underestimated simply because of their small size. The difficulties are particularly evident in the following areas: 1. Algorithmic approach: The need for low computational resources is paramount, yet the algorithms must deliver outstanding performance. 2. Hardware costs should be minimized, requiring seamless integration with a cost-effective processor to maintain a balance between real-time operation and accuracy. 3. Practical implementation involves overcoming a multitude of potential issues, such as diverse interferences, blind spots, false #alarms, and oversights. 4. The indoor setting is complex, with targets exhibiting a wide range of characteristics, which demands sophisticated #radar signal processing capabilities. 5. Consistency in hardware quality is essential. Millimeter-wave radars are diminutive, but some manufacturers produce boards with varying performance levels; some exhibit higher signal quality, while others are of inferior quality. Additionally, power noise is a concern. 6. Human presence detection is just one aspect of the functionality. Harmonizing features like #gesture recognition, headcounting, sleep #monitoring, and fall detection into a unified system is a complex task. 7. Attaining specific performance benchmarks and precision data is a formidable challenge. #IoT #iotsolutions #radar #radardetector #radarsensor #radartechnology #sensor

Ray Diffusion Structure for Millimeter Waves Millimeter wave radar for automotive and consumer use (Vital Sensing) Passenger car: Infant detection, front, corner, door (BSIS, MOIS)… Consumer use: Vital Sensing… Provides an unique shape that reduces noise by diffusing radio waves in the millimeter wave band. The ray diffusion structure is superior in terms of cost performance, because the material can demonstrate high diffusion performance without using radio wave absorbing resin or microwave absorber wave sheets.  Applications   🔎 Millimeter wave radar for automotive   (Ex: 57～64GHz Passenger car(infant detection),      76.5～81GHz Passenger car (Front, corner, door), Commercial car(Front, corner, door(BSIS, MOIS)) 🔎 Millimeter wave radar for consumer use    (Ex: 60GHz Vital Sensing) 🌐 https://lnkd.in/dAxeqUQv  ✍ https://lnkd.in/dyfb7v8U #sensors #iot #automotive #electricalvehicles #medicalequipments #medicaldevices #electronicsmanufacturing #electronicsindustry #electronicengineering #automotiveindustry

CANUp telematics gateway leverages cutting-edge edge/fog computing techniques to detect over 10,000 operational parameters of vehicles or equipment! 🚗⚙️ This innovative system not only sends operation reports to a web-based telematics server but also directly to users via email and SMS. Here are some key features: - Gathering and analyzing data from additional telematics sensors - Automatically scanning and parsing #J1939 and #ISOBUS messages - Integrating messages of J1708 and Modbus RTU interfaces - Tracking object position via GPS and GLONASS - Generating and sending operation reports through 2G, 3G, LTE (4G), or Wi-Fi connections Stay ahead of the curve with CANUp's advanced capabilities in telematics technology! 🌟 #Telematics #EdgeComputing #FogComputing #Innovation #Iot

Thrilled to announce my fourth publication! 🎉 The paper titled, "Performance Evaluation of a Low-Cost Wireless Data Acquisition System for CMOS MEMS Sensors," is now featured in the Proceedings of the 19th International Conference on Intelligent Unmanned Systems. Guided by the expertise of Dr. Vivek Jabaraj Joseph 費約瑟, LUNGJIEH龍杰 YANG楊, we explore the development of a cost-effective wireless data acquisition system (WDAQ) using an ESP8266 module. This system enables reliable, remote data collection for CMOS MEMS sensors, providing a versatile solution for applications ranging from industrial monitoring to unmanned systems. Dive into the full study here: https://lnkd.in/gT7Z8J8f #ResearchPublication #WirelessDataAcquisition #CMOSMEMS #EmbeddedSystems #IoT #ESP8266 #UnmannedSystems #IndustrialMonitoring #RemoteDataCollection #WDAQ #ConferenceProceedings #IntelligentSystems

radar prototype using ultrasonic waves... DIY Ultrasonic Radar Station Prototype! 🚀 It detects and tracks objects in real-time... Precision tuning and sensor calibration were key, #DIYRadar #Ultrasonic #Sensor #Electronics #IoT #srushty

🚀 Project Showcase: ADXL345 Driver for STM32 Nucleo-F446RE with Real-Time Movement Response 🎥 I’m excited to share a video demonstration of my latest project, where I developed a driver for the ADXL345 accelerometer and integrated it with the STM32 Nucleo-F446RE. Watch how the real-time movement of the ADXL345 sensor is captured and visualized using the Processing software! Every tilt or movement of the accelerometer is instantly captured and displayed, even my shaking hand XD, demonstrating the system’s real-time responsiveness. #embeddeddevelopment #STM32 #accelerometer #realtime #processing #IoT #ADXL345 #embeddedsoftware #hardwareintegration

🚀 Understanding the 5G Physical Layer 📶 The 5G Physical Layer is the backbone of the 5G wireless communication system, providing high-speed data transmission and ultra-reliable communication. It ensures the efficient transfer of data between the device and the network through various innovative technologies. Key features of the 5G Physical Layer include: 🔹 Massive MIMO (Multiple Input Multiple Output) – Uses large antenna arrays to enhance capacity and spectral efficiency, improving data rates and connectivity. 🔹 OFDMA (Orthogonal Frequency Division Multiple Access) – This technique enables efficient spectrum utilization, reducing interference and enhancing bandwidth usage. 🔹 New Radio (NR) – A new standard designed for higher data rates, low latency, and wider coverage, making 5G highly suitable for diverse applications. 🔹 Beamforming – A method of directing signals towards a specific device, improving signal strength, and reducing interference. 🔹 Advanced Modulation Schemes – Like 256 QAM (Quadrature Amplitude Modulation) for higher data rates. 🔹 Low Latency – Ensures faster communication, essential for real-time applications like autonomous vehicles and industrial IoT. These innovations in the Physical Layer enable 5G to deliver on its promises of faster speeds, better reliability, and low latency, setting the stage for a new era of connected devices and smart technologies. 🌐 Stay ahead in the telecom industry by diving into the depths of 5G technology and understanding its powerful physical layer! 🚀- #5G #Telecom #WirelessTechnology #MassiveMIMO #OFDMA #NewRadio #NetworkInnovation #5GTechnology #Telecommunications #IoT #TechTrends #5GNetwork #WirelessCommunication #SmartDevices #LatencyReduction #Beamforming #TechInnovation #FutureTech #5GRevolution #NetworkEvolution

Region： Global Operator Certifications:Global Fibocom MA510-GL is a high-performance loT module series tailor-made for the global loT market. The series is based on the Qualcomm platform and packaged in LCC+LGA. It supports Global LTE Cat M/Cat NB2/EGPRS frequency bands, covering power class 2 & power class 3. It has acquired multiple global certifications. In addition, the module offers an optional built-in GNSS. Compliant with 3GPP Rel.14, MA510-GL series are equipped with Power Saving Mode (PSM) and extended Discontinuous Reception (eDRX) capabilities. They also integrate MQTT/CoAP/LwM2M rich network protocols and UART/USB/I2C/I2S multiple standard industrial interfaces, catering to industrial customers' needs. It is worth mentioning that MA510 supports 450MHz as well. These modules are suitable for loT applications with low power consumption and ultra-small size, such as smart metering, smart parking, asset tracking, and smart city while maintaining long battery life. New MA510-GL-33 variant extends its support to 3GPP Rel.17 NTN feature, which allows it to exploit highly resilient GEO (Geostationary Earth Orbit) satellite communication and cellular connectivity in loT scenarios, such as maritime transportation, emergency communication and scientific research in rural areas, etc. #MA510 #MA510GL #iot #module #wireless #lte