Carter Williamson’s Post

Insightful paper outlining the experience of developing a state-of-the-art smart #avionics display, including mixing modern #multicore processors with open architectures and lessons learned from the project: https://ow.ly/Oxv830sC3Q6 #SafetyCritical #WeAreWindRiver

Insightful paper outlining the experience of developing a state-of-the-art smart #avionics display, including mixing modern #multicore processors with open architectures and lessons learned from the project: https://ow.ly/GAlV30sCewp #SafetyCritical #WeAreWindRiver

Insightful paper outlining the experience of developing a state-of-the-art smart #avionics display, including mixing modern #multicore processors with open architectures and lessons learned from the project: https://ow.ly/khYx30sC3vf #SafetyCritical #WeAreWindRiver

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

In the AI era, #NVR can do calculations at the edge. FPC-5211 supports GPU computing power and is an excellent choice.

🌉 The power of Radar bridges in #ADAS architectures 🌉 In our latest white paper, discover how distributed radar architectures revolutionize ADAS, advancing the radar architecture through early sensor data fusion of several from a network of radar sensors significantly enhancing performance. 📄🔗https://okt.to/ozqnvJ #FutureOfRadar #ADAS

Why Choose Safran MEMS Accelerometers from Safran - Navigation & Timing? 🔹Cost-Efficiency: Low cost, low power requirements, and compact design. 🔹Versatility: Built for demanding environments like Oil & Gas, Defense, and Space industries. 🔹Extreme Durability: Withstands up to 6,000g shock, suitable for rugged applications. 🔹Unmatched Stability: Over 20X better bias stability, even in high temperatures (150°C – 175°C). 🔹Gun-Hard Performance: Handles shocks up to 20,000g, ideal for intense applications. 🔹Precision: Offers superior stability and precision compared to alternative solutions. 🔹Quality Assurance: 100% of parts are rigorously tested over the full temperature and dynamic range. 🔹Legacy of Trust: Over 30 years of experience playing a pivotal role in powering modern technology. ➡️ Browse our solutions: https://hubs.li/Q028SHQq0 #ResilientPNT #PNT #Accelerometers #Safran

The liquid cooling systems for your data centers are already incorporated in the Aviation industry on several modern aircraft types. The problem is how you going to power them all without stretching power lines over our local farm land.

🚀 Unlocking Next-Gen Precision with MIMO Radar Technology 🚀 MIMO (Multiple-Input-Multiple-Output) radar is revolutionizing mmWave radar systems by significantly enhancing angle resolution. This innovative approach uses multiple transmit (TX) and receive (RX) antennas to create a "virtual" array, multiplying the number of antennas and improving spatial resolution without the need for additional hardware. Key Highlights: Improved Angle Resolution: MIMO radar allows a system with N_TX TX antennas and N_RX RX antennas to achieve an angle resolution equivalent to that of a SIMO (Single-Input-Multiple-Output) system with N_TX × N_RX RX antennas. Cost-Effective Design: By leveraging MIMO principles, engineers can double the angle resolution by adding just one TX antenna, instead of doubling the RX antennas. Advanced Multiplexing Strategies: Techniques like Time Division Multiplexing (TDM) and Binary Phase Modulation (BPM) ensure that multiple TX antennas can operate simultaneously without interference, boosting system performance. With the flexibility offered by Texas Instruments' mmWave sensors, implementing MIMO radar is more accessible than ever, paving the way for breakthroughs in autonomous driving, industrial automation, and more. #MIMORadar #mmWave #RadarTechnology #Innovation #TexasInstruments #EngineeringExcellence

Texas Instruments (TI) unveiled its latest innovation in radar technology for automated driving at the Consumer Electronics Show (CES) in Las Vegas. The new radar, called AWR2544, is designed for vehicles equipped with a radar at each corner, utilizing a satellite vehicle architecture. This radar is made on 45 nm RFCMOS and offers advanced capabilities for object detection, classification, and tracking. In traditional edge vehicle architectures, the radar performs complex calculations, such as Doppler and angle fast FFTs, along with high-level algorithms for object detection. The processed data is then sent to the central automated driving (ADAS) computer. However, in satellite architectures, the radar sensors output semi-processed data to a central processor for ADAS decision-making. This reduces the processing power required for the radar, making it more cost-effective. #electricalengineering #electronics #embedded #embeddedsystems #electrical