🟨 TEXT 3.
A new "eye" may radically change how robots see
The low-power robotics system LENS merges a brainlike sensor, a chip and an AI model
By Kathryn Hulick
This hexapod robot recognizes its surroundings using a vision system that occupies less storage space than a single photo on your phone.
Running the new system uses only 10 percent of the energy required by conventional location systems, researchers report in the June Science Robotics. Such a low-power “eye” could be extremely useful for robots involved in space and undersea exploration, as well as for drones or microrobots, such as those that examine the digestive tract, says roboticist Yulia Sandamirskaya of Zurich University of Applied Sciences, who was not involved in the study.
The system, known as LENS, consists of a sensor, a chip and a super-tiny AI model to learn and remember location. Key to the system is the chip and sensor combo, called Speck, a commercially available product from the company SynSense. Speck’s visual sensor operates “more like the human eye” and is more efficient than a camera, says study coauthor Adam Hines, a bioroboticist at Queensland University of Technology in Brisbane, Australia.
Cameras capture everything in their visual field many times per second, even if nothing changes. Mainstream AI models excel at turning this huge pile of data into useful information.
But the combo of camera and AI guzzles power. Determining location devours up to a third of a mobile robot’s battery.
“It is, frankly, insane that we got used to using cameras for robots,” Sandamirskaya says. In contrast, the human eye detects primarily changes as we move through an environment.
The brain then updates the image of what we’re seeing based on those changes. Similarly, each pixel of Speck’s eyelike sensor “only wakes up when it detects a change in brightness in the environment,” Hines says, so it tends to capture important structures, like edges.
The information from the sensor feeds into a computer processor with digital components that act like spiking neurons in the brain, activating only as information arrives — a type of neuromorphic computing.
The sensor and chip work together with an AI model to process environmental data. The AI model developed by Hines’ team is fundamentally different from popular ones used for chatbots and the like.
It learns to recognize places not from a huge pile of visual data but by analyzing edges and other key visual information coming from the sensor.
This combo of a neuromorphic sensor, processor and AI model gives LENS its low-power superpower.
“Radically new, power-efficient solutions for… place recognition are needed, like LENS,” Sandamirskaya says.
🔗 Adapted from: ScienceNews
https://www.sciencenews.org/article/robot-eye-artificial-intelligence-ai
[Accessed on 14th July 2025].
🟨 QUESTÃO 40.
What does Sandamirskaya's criticism of camera-based robotic vision imply about the trade-off between data richness and energy use in AI systems?
🄰 High data volume often results in excessive, unnecessary power consumption without proportional benefit.
🄱 Data compression is a sufficient solution to reduce energy costs.
🄲 Rich data always leads to better performance regardless of energy use.
🄳 Energy concerns are irrelevant for most robotic applications.
🄴 Energy consumption must be minimal, even with some loss of robot efficiency.
Gabarito: 🄰
🧭 1️⃣ Leitura orientada
A fala de Sandamirskaya critica diretamente o modelo tradicional câmera + IA, destacando o custo energético de processar grandes volumes de dados irrelevantes.
📝 2️⃣ Análise técnica das alternativas
(A) ✅ Correta.
A crítica indica que capturar “tudo o tempo todo” consome energia
sem ganho proporcional de desempenho.
🚩 Pegadinha evitada: confundir quantidade de dados com eficiência.
(B) ❌ Incorreta.
O texto não sugere compressão como solução central.
🚩 Pegadinha: solução técnica não mencionada.
(C) ❌ Incorreta.
O texto refuta explicitamente essa ideia.
🚩 Pegadinha: raciocínio intuitivo, mas não textual.
(D) ❌ Incorreta.
Energia é apresentada como fator crítico.
🚩 Pegadinha: leitura oposta ao texto.
(E) ❌ Incorreta.
O objetivo é manter eficiência sem perda funcional.
🚩 Pegadinha: falso dilema.
⚠️ 3️⃣ Armadilhas clássicas do IME
• Confundir “mais dados” com “melhor desempenho”
• Ignorar o custo energético implícito
• Desconsiderar o tom crítico da fala citada
🧠 4️⃣ Resumo B3GE™ Master
✔ Sistemas tradicionais coletam dados em excesso.
✔ Energia é desperdiçada sem ganho proporcional.
✔ LENS prioriza informação relevante.
🔎 Gabarito confirmado: (A)