Inside Electronics: Testing Phased-Array Antennas for NTN Applications
Listen to the latest Inside Electronics episode below or check out the Inside Electronics Archive for prior podcasts.
Advantages of Event-Based Vision Systems
Conventional image sensors capture a frame at a time while event-based vision sensors track changes of individual pixels. In this episode of Inside Electronics, I talk with Dr. Luca Verre, Founder of Prophesee, about the company’s event-based sensor and how it works.
An event-based imaging system can detect changes more accurately while reducing bandwidth and power requirements, assuming all of the pixels don’t change between frames. This is often the case for many applications, especially when it comes to industrial imaging. The approach is also an ideal match for neomorphic computing, where spiking neural network (SNN) artificial-intelligence models are driven by event-based data.
About Inside Electronics
Hosted by industry veteran Alix Paultre, the podcast will also bring you commentary, news, and interviews about the things going on in the electronic design engineering community and its surrounding business ecosystem—but from a different perspective. Tune in to our biweekly Inside Electronics podcast to check out the discussion and analysis on the latest developments making an impact across the electronics landscape.
Inside Electronics Archive
You can listen to past podcasts of Inside Electronics.
- Exploring 3D NOR Flash Technology
- Can Rust Work for Safety-Critical Embedded Systems?
- How Additive Manufacturing Impacts the Electronics Industry
- Talking About Vehicle Electrification and Patrol Cars
- The Importance of Timing in Advanced Embedded Systems
- The Key to Defining Successful Products in the Age of AI
- The Electronics Industry and Trump Tariffs
- Celebrate National Periodic Table Day @ chemicalprocessing.com
- Testing Phased-Array Antennas for NTN Applications
- Talking About Timing in Electronic Systems
- Wrapping Up CES 2025
- How to Develop a Product in Today’s Electronics Ecosystem
- Not All RISC-V IP is the Same
- Empowering Smart-Home Devices with Low-Light Energy Harvesting
- How to Handle the Increasing Data Demands on Server-Farm Cabling
- The State of the Art in Wide-Bandgap Semiconductors
- Breaking Down the Wide-Bandgap High-Voltage Power Marketplace
- Building 800G Copper Cables Using the Right Retimers
- Thoughts and Observations from electronica 2024
- NANO Nuclear’s 5-MW Electricity Generator in a Shipping Container
- Addressing the Challenges in Medical Device Development
- Learn About Designing Power-Management Systems with Frederik Dostal
- All About NoCs
- Practical Spiking Neural Networks
- Making Sense of the Maker Movement
- Putting Time-Sensitive Networking (TSN) into Products
- Analog ASIC Course Tapes Out Real Silicon
- Overcoming Challenges in Advanced Logic Semiconductor Manufacturing
- Optical Chiplet Interconnect Promises to Accelerate Computing Apps
- Advanced Infrastructures for Demanding Data Center and AI SoC Apps
- Wi-Fi HaLow Offers Advanced Low-Power Connectivity to IoT Products
- The Evolution of AI from Theory to Reality
- Product Design in a World of Advanced Solutions
- Accelerate AI Applications with Advanced Information Management
- What’s the State of the Industry for Wide-Bandgap Semiconductors?
- Wide-Bandgap Semiconductors Push Power Electronics Evolution
- Observations and Takeaways from the 2024 IMS Exhibition
- Navigating the RISC-V Ecosystem
- Advanced Integrated GaN Platforms Propel Next-Gen Power Apps
- Empowering Light-Detection Apps with InGaAs Avalanche Photodiodes
- Talking About European Expansion with an American Electronics Distributor
- The Challenges and Opportunities in Developing Next-Gen Embedded Systems
- Let’s Talk About Sensors and Analog Signal Conditioning