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IEEE Spectrum

How a Spinning Drone Exploits Your Eyes to Become Nearly Invisible Why Indonesia’s Fisheries Future Hinges On Data Integrity and Trust Inside the Race to Tame AI’s Wild Power Swings Stable Jobs Can Hide the Riskiest Move In Your Tech Career Inside ELIZA’s Source Code and Its Multiple Personalities Tiny Puerto Rican Island Tests Hydrogen to Slash Sky High Power Bills AI Turns DNA Into Tiny Dogs and Mona Lisa Nanostructures How Darth Vader Taught Me Card Counting and AI Security Got Weird The Memory in Your Thumb Drive Could Fix AI's Big Problem The AI Arms Race in Technical Interviews Is Escalating Inside Nokia’s Race to Catch the iPhone and Android Wave Quantum Sensor Sniffs Out Radio Signals in 3D Two New Wheelchairs Reveal What “Smart” Really Means Today Video Friday: A World Cup for Robots Japan Pulls Off One of the Closest Asteroid Flybys Ever How Cheap Ground Robots Are Rewriting Frontline Warfare in Ukraine Nvidia’s NVLink Fusion Quietly Pushes Optics Inside the Rack Large Tabular Models Excel Where LLMs Fail Are Battery PoweredTrailers the Shortcut to Cleaner Long Haul Freight? The Hidden Overthinking Flaw That Could Drag AI Services Down Stacking Chips Sideways Gives AI More Memory There Independent Labs Crack Google Why Small AI Models Could Power Health Care Where Big Tech Cannot China’s Humanoid Army Pushes Japan to Rethink Its Robot Future NASA AI’s Wild Power Demands Are Quietly Rewriting Grid Rules Old EV Batteries Find a Second Life Backing Up the Grid UCLA’s Semiconductor Hub Is Rewiring Industry and Academia for AI Why Engineers Who Speak Up Build Stronger and Safer Careers The Orbital Data Center Hype Machine Is Already in Orbit What Emily Bender Really Meant by "Stochastic Parrots" The History and Mystery of Fireworks Poetry for Engineers: Nine Lives of Nikola Tesla Trump’s Quantum Orders Push Fault Tolerant Qubits Toward 2028 Underwater Tidal Kites Promise Steady Power for Remote Coasts How a Forgotten Wire Turned a Cheap Chip Into a Brainlike Neuron How the U.S. Engineered Its Sovereignty AI Model ConlangCrafter Dreams up Entire New Languages Weirdly Fascinating: Robotic Arm Crawls Using Its Three Fingers. 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Watch This Humanoid Robot Move in Ways Your Hips Wouldn't Like The Real Cost Of Cooling GPUs In Space Might Shock You The Google DeepMind Spinoff Chasing Hidden Drug Targets We Are Crowd-Sourcing the Panopticon Gene Therapy and Sound Waves Team up to Steady Failing Hearts Save 14 Percent of Energy Used in LLM Training With This Trick The Real Tradeoffs Between Startups, Mid-Size Firms, and Giants When Does Job Hopping Stop Helping Your Engineering Future Why a Computer Science Degree Still Opens Hidden Doors AI Can Help Track the World’s Shrinking Glaciers Curiosity’s 13 Years of Software Hacks Keeps It Alive on Mars Fractal OS Lets Security Researchers See What Their CPUs Really Do Formula E DNA Helps the Cayenne Electric Bend Physics to Beat the Heat Moon’s Dark Craters Could Become the Most Precise Clocks in Space New Radio Giant in New Mexico Takes Its First Glimpse of the Cosmos Nvidia’s AI Hardware Comes to Windows in RTX Spark PCs Can Humanoid Robots Run Stairs Without Tripping? Do They Need Shoes? Inside the Compact Fusion Reactor Aiming to Power 280,000 Homes NSF X Labs Power Agile, High-Stakes Experiments "Hemopurifier" Could Help Fight Bundibugyo Ebola Strain Why Quantum Computers Need a ‘Healthy Chunk’ Of Classical Power
Brain Inspired Camera Sensor Learns to See and Gently Forget
https://www.facebook.com/48576411181 · 2026-07-07 · via IEEE Spectrum

A new type of imaging sensor inspired by the functioning of the human brain can detect light and store data at the same time. What’s more, the device can forget the data it no longer needs, paving the way for future breakthroughs in robotic-vision efficiency.

Today’s digital cameras rely on complementary metal-oxide-semiconductors (CMOS) or charge coupled devices (CCDs), which convert photons into electrons. These devices, however, cannot store the images. The data have to be moved into memory and further for processing.

“Conventional camera sensors, which capture images, immediately forget them unless the information is transferred to a separate memory component,” says Larry Cheng, a professor of electrical engineering and computer science at Oregon State University. “Our device can see and remember it, and most importantly, gradually forget it. This kind of gradual forgetting is a key and very important feature of the device.”

Cheng and his colleagues described the device, a type of phototransistor, last month in the journal Advanced Functional Materials. He says that typical AI-driven image-recognition algorithms analyze captured video feed frame by frame to detect moving objects. Instead, the device developed by his team at Oregon State stores the recent history of light intensity that hits it. By doing so, the phototransistor flags changes and patterns of interest. The duration for which it remembers those changes can be modified based on specific needs. For example, a drone flying at 250 kilometers per hour needs only a short trail of changes, while a doorbell camera looking for strange people lingering around needs a longer sequence.

“The ability to tune the memory timescale is a key advantage of our approach, allowing the same sensor to be adapted for different AI vision tasks while improving speed and energy efficiency,” says Cheng.

He adds that the ability to do such basic processing directly on the sensor could pave the way to massive energy-demand reductions. Commercial cameras constantly shuffle data among sensors, storage devices, and processors making it relatively energy intensive to run image-recognition algorithms.

Experimental Oxide Phototransistor

The prototype device built by the researchers is a four- by four-pixel array, about the size of a USB stick. The top of the array is coated with a transparent light-absorbing layer of organic material that transforms the incoming light into electric charge.

Cheng explains that when photons hit the photoactive layer, they produce electrons and create holes. The electrons are transferred into the underlying transistor channel, which is made of indium gallium zinc oxide (IGZO). It’s the holes that provide the basis of the device’s memory function .

“The holes become trapped within isolated organic semiconductor aggregates because of energy barriers in the photoactive layer,” Cheng says. “These trapped holes continue to electrostatically modulate the [transistor] channel even after the light is turned off, allowing the device to retain a memory of recent illumination.”

The amount of charge gradually decays, but by applying voltage to the photoactive layer, the researchers could alter how long it lasts. A positive voltage, Cheng says, pushes the trapped holes further away from the transistor channel, reducing their effect and speeding up their decay. That results in faster forgetting. On the other hand, a negative voltage pulls the holes closer to the transistor channel and slows down the degradation process. As a result of such an intervention, the device retains the memory for hours or more, he says.

“This tunable memory enables the same device to adapt its temporal response to different applications, from tracking fast-changing events to storing longer-term visual information,” he says, adding that the memory feature of the organic photoactive layer was discovered by accident.

The researchers chose an IGZO transistor for its transparency to visible light, which means the transistor doesn’t contribute to light absorption.

“This decouples the electrical transport from the light-sensing function, which is handled by the organic photoactive memory layer,” says Cheng. IGZO is widely used in display technologies because charge travels quickly through it, yet transistors made using the material leak little current; additionally it is compatible with large-area fabrication. Together, the two materials enable each pixel to both detect light and retain a memory of recent illumination within a single device.

The way the device works, Cheng says, is inspired by the functioning of the human brain. The charge in the transistor acts like the neurotransmitter dopamine, which strengthens connectivity between synapses, the links between neurons, and thus the memories we keep.

“Our current work demonstrates the concept at the device level and with simple imaging demonstrations,” he says. “The next step is to scale the technology to larger pixel arrays and develop an integrated imaging prototype to showcase real-time temporal imaging and on-sensor processing. We hope to demonstrate these capabilities in the near future.”