inait’s Post

Our Mission & Vision at Mind Storms 🚀 At Mind Storms, our mission is to democratise Brain-Computer Interface (BCI) technology, making it accessible and transformative for everyone. We’re committed to empowering individuals with neuro-motor disabilities by enabling thought-to-text and speech communication through our cutting-edge solutions. 🧠 • Mission: We aim to harness deep learning and pioneering technology to convert thoughts into clear, affordable communication. • Vision: We foresee a future where breakthroughs in neuroscience and AI conquer neurological challenges, giving a renewed voice and connection to every silenced individual. We strive to lead this technological revolution, showcasing the power of visual products and transformative tech. Stay tuned as we continue to push boundaries and drive meaningful change. 💡 Follow Mind Storms to keep up with our mission and vision! #BCI #Neuroscience #Innovation

Exciting News from Our Lab: A New Deep-Learning Paper Published in Nature Methods! We are thrilled to announce that our latest project, the DELiVR method, is now available as an Open Access resource published in Nature Methods! This is another major step forward in AI-driven biotechnological research. What We’ve Created: Our team has developed a straightforward, brain-wide cell analysis tool that leverages deep learning technology. Best of all, it requires no coding skills to use. This innovation is designed to democratize advanced scientific tools, making cutting-edge research accessible to a broader community. Accessibility Through Innovation: Thanks to our Fiji Plugin, researchers from all backgrounds can easily apply this method to their work, enhancing their studies and fostering new discoveries in the field of neuroscience. 🔗 Check out our publication here: https://lnkd.in/dbfw-K7r A huge congratulations to Doris Kaltenecker, Rami Al-Maskari, Moritz Negwer, and everyone involved for their hard work and dedication. This milestone could not have been achieved without your incredible support and collaboration. Let’s continue pushing the boundaries of what’s possible in AI-driven biotechnology! 🚀 #Neuroscience #DeepLearning #OpenScience #Innovation #ResearchAccessibility #AI #VR

🚀 Transforming Brain - Computer Interfaces with Cutting - Edge AI! 🧠🤖 We're thrilled to share a groundbreaking development in neuroscience and AI led by Maryam Shanechi, Sawchuk Chair in Electrical & Computer Engineering at USC, and her brilliant team. They’ve developed a revolutionary AI algorithm called DPAD (Dissociative Prioritized Analysis of Dynamics) - and it's changing the game! 💡 Why does this matter? Every moment, your brain encodes countless simultaneous behaviors like moving your hand, reading, or even feeling hunger. Separating these signals has always been a challenge... until now! DPAD: ✅ Accurately decodes specific brain activity, like movement. ✅ Enhances brain-computer interfaces (BCIs) to restore mobility in paralyzed patients. ✅ Unlocks new insights into brain patterns and behaviors. And that’s just the beginning! This breakthrough could lead to BCIs for tracking mental states like pain or mood potentially transforming therapies for mental health conditions. We’re excited to see this innovation drive advancements in healthcare and beyond. #Neurotechnology #ArtificialIntelligence #DeepLearning #DPAD #BrainComputerInterface #AIInnovation #MentalHealth #AI #Neuroscience #TechForGood #FutureOfMedicine #BCI #Ksolves

Very useful tool for those doing light sheet or MPE applications.

Much needed innovations in IEG based analysis tools.

In an astonishing fusion of neuroscience and technology, researchers at FinalSpark have developed a 3D butterfly simulation that is controlled by lab-grown human brain cells. This milestone, described by software developer Daniel Burger as “a major leap toward turning science fiction concepts, like those in The Matrix, into reality,” is pushing the boundaries of what’s possible in mind-machine interaction. Why This Development is So Groundbreaking: 🧬 Exploring Cognitive Preservation By connecting lab-grown brain cells to control a digital butterfly, FinalSpark is exploring uncharted territory in cognitive preservation. This breakthrough opens doors to futuristic concepts like mind uploading, where consciousness could theoretically be preserved or transferred. 🔬 Pushing Neuroscience Boundaries This project represents a transformative leap in neuroscience, as it shows the potential to harness and understand neural activity in ways previously thought impossible. Implications span cognitive health, aging, and even AI development, as the project brings us closer to understanding how the brain interacts with technology. 🌐 Merging Science Fiction with Reality Concepts like digital consciousness and brain-computer interfaces, once confined to science fiction, are now becoming tangible. This simulation exemplifies the exciting potential of combining biology with AI, suggesting that a new era of mind-machine possibilities is on the horizon. As FinalSpark continues to innovate, this boundary-breaking research blurs the lines between biology and technology, sparking endless possibilities for the future. What do you think? Could this be a step toward human-AI symbiosis? #RankRizers #Neuroscience #AI #FinalSpark #BrainComputerInterface #MindUploading #ScienceFiction

🚀 Exciting times in wetware computing! 🧠💻 As someone with a deep passion for neuroscience and hands-on experience with organoids and electrophysiology experiments, I couldn't be more excited about this paper by Fred Jordan and his colleagues! 🌟. They've developed a state-of-the-art neuroplatform that allows electrophysiological experiments to be performed on brain organoids. For those new to the field, brain organoids are clusters of neural stem cells grown in a dish that differentiate into neurons and other cells - essentially small brains in a dish! 🧫🧬 Performing electrophysiological experiments on these organoids is incredibly challenging, not to mention keeping them alive for long periods of time (ah, the nightmares of contamination! 😅). But the most fascinating aspect is that these biological neural networks work like a human brain and consume far less energy than the artificial neural networks used in AI. 💡 To put this in perspective, training models such as GPT-3 required around 10 GWh of energy - around 6,000 times the annual energy consumption of the average EU citizen. By contrast, the 86 billion neurons in the human brain require only about 0.3 kWh, making biological systems far more efficient. ⚡🌱 Imagine harnessing this biological power for AI applications! It's still early days and challenges remain - such as extending the lifespan of organoids (currently around 100 days) and scaling up the necessary infrastructure - but the potential is immense. 🤖🔬 And here comes an amazing thought: transferring information from one organoid to another. We're talking brain-to-brain knowledge transfer, which takes us right into sci-fi territory. Frightening and exciting times ahead! 🌌✨ Let's keep pushing the boundaries of what's possible in neuroscience and AI. 🧠💡🔬🚀 https://lnkd.in/e36EK4qc #Neuroscience #AI #Biocomputing #Organoids #Electrophysiology #WetwareComputing #Innovation #FutureTech #EnergyEfficiency #SciFi #Research

🎉 Spotlight on Innovation: BCI Award 2024 Nominee 🎉 🌟 We’re excited to showcase groundbreaking research in EEG-based movement intention detection, proudly nominated for the prestigious BCI Award 2024! 🌟 🚀 About the Project: This pioneering work introduces two advanced approaches to revolutionize the detection of human movement intentions from EEG signals: 1️⃣ Continuous Detection for Stroke Rehabilitation: Harnessing neural networks, this approach powers the state-of-the-art RECUPERA exoskeleton, enabling robust and reliable online movement intention detection to support post-stroke recovery. 2️⃣ Calibration-Free Therapy: Say goodbye to lengthy setup times! By leveraging transfer learning, this method eliminates the need for calibration sessions, making BCIs more practical and effective for real therapy scenarios. 👏 This inspiring work highlights the transformative potential of BCIs in rehabilitation and improving lives. 💡 Join the Movement: The BCI Award 2025 submission period is now open! Showcase your groundbreaking research and help shape the future of neuroscience. 🔗 For submission details, visit: www.bci-award.com/Home 🙏 We are proud sponsors of the BCI Award!✌ #BCIAward2024 #BCIAward #Neurotechnology #RehabilitationTech #StrokeRecovery #Exoskeleton #TransferLearning

We are excited to announce our official collaboration with Noldus Information Technology, a global leader in behavioral research solutions trusted by over 60,000 researchers worldwide! This strategic partnership integrates our advanced neural recording systems with Noldus' EthoVision XT behavioral tracking capabilities, creating a seamless platform for neuroscience research. The integration enables real-time synchronization of behavioral data with high-resolution neural recordings in rodent studies, offering researchers profound insight into the relationship between neural activity and behavior. What this means for researchers: -Streamlined workflow with near plug-and-play setup -Precise correlation between neural signals and behavioral outcomes -Enhanced research efficiency through unified data collection -More comprehensive understanding of neurobehavioral dynamics Together, we're not just combining technologies – we're accelerating the future of neurotechnology to unlock deeper understanding of the brain, creating more powerful solutions for the scientific community. #Neurotechnology #Research #Behavior