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The next generation of Neurable’s brain-computer interface headphones detects mental fatigue before you notice it.
Neurable, the leader in consumer brain-computer interface (BCI) technology, today announced the launch of the MW75 Neuro LT, the next-generation follow-up to its groundbreaking MW75 Neuro headphones. Purpose-built in direct response to user feedback, the MW75 Neuro LT keeps the same powerful brain-sensing capabilities while introducing a lighter design, enhanced comfort for all-day wear, and a lower $499 price point.
By integrating Neurable’s patented AI-powered electroencephalography (EEG) sensors into premium audio headphones, MW75 Neuro LT can detect when focus is peaking, when mental fatigue is setting in, and when it’s time to recover. Through the Neurable app, users will have access to powerful tools and meaningful data, including:
- Cognitive Snapshot: A two-minute reading to determine if it’s a good time for deep work or lighter tasks.
- Mental Recovery: A morning briefing on how rested your brain truly is, based on your brainwaves.
- Cognitive Strain: Tracking mental exertion over time to help plan restorative breaks.
- Brain Age: A long-term view of cognitive aging, updated weekly, to track how habits impact mental performance.
Key updates in the MW75 Neuro LT include:
- Lighter, more wearable build: At nearly 12% lighter than the original MW75 Neuro for improved comfort during long listening sessions, workdays, and travel.
- More accessible pricing: At $499, the MW75 Neuro LT brings cutting-edge neurotechnology to more people without sacrificing lab-grade data quality or scientific rigor.
- Same proven tech: The LT retains Neurable’s 12-channel soft fabric EEG sensors, advanced AI signal processing, premium audio performance, and full integration with the Neurable mobile app.
“We built the MW75 Neuro LT for a simple reason. Your brain has been trying to tell you something, and until now, no one was listening,” said Dr. Ramses Alcaide, CEO and Co-Founder of Neurable. “It’s the same lab-grade brain sensing we pioneered with the MW75 Neuro, but lighter, all-day wearable, and more accessible. Our goal isn’t just to track brain activity, it’s to help people understand it, respond to it, and finally have a conversation with their own minds.”
With the MW75 Neuro LT, Neurable continues its mission to democratize brain-computer interface technology, transforming it from a niche innovation to an everyday tool for work, creativity, and wellness.
Pricing & Availability
The MW75 Neuro LT is available for pre-order now in Black at Neurable.
2 Distraction Stroop Tasks experiment: The Stroop Effect (also known as cognitive interference) is a psychological phenomenon describing the difficulty people have naming a color when it's used to spell the name of a different color. During each trial of this experiment, we flashed the words “Red” or “Yellow” on a screen. Participants were asked to respond to the color of the words and ignore their meaning by pressing four keys on the keyboard –– “D”, “F”, “J”, and “K,” -- which were mapped to “Red,” “Green,” “Blue,” and “Yellow” colors, respectively. Trials in the Stroop task were categorized into congruent, when the text content matched the text color (e.g. Red), and incongruent, when the text content did not match the text color (e.g., Red). The incongruent case was counter-intuitive and more difficult. We expected to see lower accuracy, higher response times, and a drop in Alpha band power in incongruent trials. To mimic the chaotic distraction environment of in-person office life, we added an additional layer of complexity by floating the words on different visual backgrounds (a calm river, a roller coaster, a calm beach, and a busy marketplace). Both the behavioral and neural data we collected showed consistently different results in incongruent tasks, such as longer reaction times and lower Alpha waves, particularly when the words appeared on top of the marketplace background, the most distracting scene.
Interruption by Notification: It’s widely known that push notifications decrease focus level. In our three Interruption by Notification experiments, participants performed the Stroop Tasks, above, with and without push notifications, which consisted of a sound played at random time followed by a prompt to complete an activity. Our behavioral analysis and focus metrics showed that, on average, participants presented slower reaction times and were less accurate during blocks of time with distractions compared to those without them.
2 Distraction Stroop Tasks experiment: The Stroop Effect (also known as cognitive interference) is a psychological phenomenon describing the difficulty people have naming a color when it's used to spell the name of a different color. During each trial of this experiment, we flashed the words “Red” or “Yellow” on a screen. Participants were asked to respond to the color of the words and ignore their meaning by pressing four keys on the keyboard –– “D”, “F”, “J”, and “K,” -- which were mapped to “Red,” “Green,” “Blue,” and “Yellow” colors, respectively. Trials in the Stroop task were categorized into congruent, when the text content matched the text color (e.g. Red), and incongruent, when the text content did not match the text color (e.g., Red). The incongruent case was counter-intuitive and more difficult. We expected to see lower accuracy, higher response times, and a drop in Alpha band power in incongruent trials. To mimic the chaotic distraction environment of in-person office life, we added an additional layer of complexity by floating the words on different visual backgrounds (a calm river, a roller coaster, a calm beach, and a busy marketplace). Both the behavioral and neural data we collected showed consistently different results in incongruent tasks, such as longer reaction times and lower Alpha waves, particularly when the words appeared on top of the marketplace background, the most distracting scene.
Interruption by Notification: It’s widely known that push notifications decrease focus level. In our three Interruption by Notification experiments, participants performed the Stroop Tasks, above, with and without push notifications, which consisted of a sound played at random time followed by a prompt to complete an activity. Our behavioral analysis and focus metrics showed that, on average, participants presented slower reaction times and were less accurate during blocks of time with distractions compared to those without them.
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