Weekly Piece of Future #46
From Human Brain Tissue Computer to Mind-Reading AI and Self-Replicating Nanobots
Hey there, fellow future-addicts!
Welcome to this week's edition of Rushing Robotics! Prepare to dive into a world where the boundaries between science fiction and reality blur. We're exploring groundbreaking advancements that are reshaping our understanding of technology and its potential. From mind-reading AI to neuromorphic systems mimicking the human brain, each story is a testament to human ingenuity and the relentless pursuit of progress.
🤯 Discover how the University of Technology Sydney is transforming silent thoughts into text with their groundbreaking AI system, and explore the revolutionary human brain cells on a chip that's redefining computing. Get a glimpse into the future with the DeepSouth project's neuromorphic system, and marvel at the potential of DNA nanobots in healthcare. Plus, meet Alter3, the humanoid robot with abilities enhanced by ChatGPT-4 AI.
🔊 Witness innovation with Ray-Ban's Meta glasses, now equipped with AI to enhance your visual experience. Learn about Mistral AI's Mixtral 8x7B, a top-tier open model for developers, and Panasonic's game-changing high energy density battery for electric vehicles. Discover how Statkraft and Aquabattery are reshaping renewable energy storage with their saltwater flow batteries.
🧬 Dive into the world of biocompatible ink from Duke University and Harvard Medical School, designed for a multitude of medical applications. Explore the latest in 3D-printed self-heating microfluidic devices and a remarkable embryo-like model from the University of Pittsburgh that replicates early human development.
💡 Check out TableFlow for hassle-free CSV import integration, Flux for cutting-edge circuit and PCB design, and the innovative Copilot platform for AI-powered chatbots and writing assistance.
Don't miss our Video Section, featuring the latest on Tesla Bot Optimus Gen 2, Unitree Humanoid by Kazumichi Moriyama, and a partnership update from Agility Robotics and GXO.
As we conclude this week's journey through the latest innovations, it's evident that we are rapidly approaching the singularity. Each breakthrough we've witnessed signals a future where technology not only enhances but revolutionizes every facet of our lives. This week's revelations in AI and biotechnology are clear indicators that we are on the cusp of a monumental shift, one that promises a future where the boundaries between human capability and technological advancement become increasingly intertwined. Let's embrace this future with enthusiasm and a readiness to be part of a world undergoing a profound and exciting transformation. Stay hungry, stay futurish!
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Imagine a world where thoughts effortlessly transform into text with the help of non-invasive, mind-reading AI. Thanks to researchers at the University of Technology Sydney (UTS), it's now a reality. Their portable, non-invasive AI system can decode silent thoughts and translate them into text, potentially revolutionizing human-machine interaction, including tasks like controlling bionic arms and robots.
Human brain cells on a chip is now a reality: Scientists have created a computer using human brain tissues, enabling it to recognize speech and perform basic mathematical tasks. The ultimate goal is to develop software and hardware systems that accurately replicate the structure and operation of the human brain, including its remarkable capacity for information processing, learning from experience, and adaptation. This field of study is widely recognized as neuromorphic computing or organoid intelligence.
The DeepSouth project introduces a neuromorphic system that closely mimics biological processes, utilizing specialized hardware to emulate extensive networks of spiking neurons at an astonishing pace. This performance level is on par with the estimated operation rate of the human brain and anticipates the arrival of a supercomputer with 228 trillion links in 2024.
Groundbreaking DNA nanobots have emerged, capable of exponential self-replication under the influence of UV light. Comprising four DNA strands and measuring approximately 100 nanometers, these nanobots hold the promise of revolutionizing healthcare by enabling the production of life-saving drugs within the human body.
Alter3, the impressive humanoid robot developed at the University of Tokyo, possesses the ability to strike an array of poses, ranging from taking selfies to portraying a chilling ghost, all thanks to ChatGPT-4 AI.
🔊 Industry Insights & Updates
Ray-Ban's Meta glasses have taken a remarkable step forward, now equipped to read, translate, and caption photos. This multimodal AI assistant can do it all—suggest outfits, translate text, provide image captions, and describe objects you point the glasses at.
Mistral AI is on a mission to provide the developer community with exceptional open models. Their recent release, Mixtral 8x7B, is a high-quality sparse mixture of experts model (SMoE) featuring open weights. This model proudly claims the title of the strongest open-weight model available under a permissive license, offering an exceptional balance between cost and performance. It consistently competes with or outperforms GPT3.5 across numerous standard benchmarks.
Panasonic's high energy density battery is poised to empower automakers, promising unmatched electric vehicle (EV) performance by significantly extending vehicle range and slashing charging times. Silicon powder batteries hold the potential for 10-minute EV charging.
Statkraft has joined forces with Aquabattery in an exciting partnership to create flow batteries utilizing saltwater. These innovative flow batteries can be charged using renewable sources like solar or wind power, converting salt into safe electrolytes. This conversion process can be readily reversed to supply green power as needed.
Engineers at Duke University and Harvard Medical School have introduced a biocompatible ink that can solidify into diverse 3D shapes and structures by interacting with ultrasound waves. This unique property, which responds to sound rather than light, positions the ink for a wide range of biomedical applications, including bone healing and heart valve repair, particularly in deep tissues.
Using 3D printing technology, scientists have successfully crafted self-heating microfluidic devices. This one-step fabrication process allows for the quick production of miniature chemical reactors, with promising applications in disease detection and substance analysis.
Scientists at the University of Pittsburgh have revealed a revolutionary embryo-like model, painstakingly crafted from adult cells, that astonishingly replicates crucial elements of early human development. This innovative model notably excels in generating blood cells.
💡Products/tools of the week
TableFlow, your go-to open-source CSV import platform, lets you seamlessly integrate a production-ready import experience into your application within minutes. Say goodbye to months of intensive engineering work and rest assured that all incoming data is thoroughly cleaned and validated.
Flux is a web-based application designed for circuit and PCB design, featuring a built-in AI assistant known as Flux Copilot. It boasts meticulous design, exceptional speed, and is purpose-built to facilitate agile hardware development from the ground up.
Introducing the open-source Copilot platform, featuring <𝐂𝐨𝐩𝐢𝐥𝐨𝐭𝐏𝐨𝐫𝐭𝐚𝐥 /> for in-app AI chatbots with the ability to "see" and interact within your application, along with <𝐂𝐨𝐩𝐢𝐥𝐨𝐭𝐓𝐞𝐱𝐭𝐚𝐫𝐞𝐚 /> to bring AI-powered writing to any textarea.
Transform sketches, icons, photos, or your live webcam feed into captivating images in real time. Elevate your creative abilities with the magic of AI through this remarkably intuitive tool. Convert any concept into a tangible creation and revel in the fun of the creative journey.
💬 ChatGPT prompts
This week's prompt is Project Navigator. Project Navigator is your key to unlocking the perfect tech stack for your software project. In just a few steps, this custom ChatGPT prompt guides you through selecting the ideal programming language and framework, ensuring your project meets its goals with precision.
I'm planning to develop a new project and need guidance on choosing the most suitable programming language, framework, and tech stack. Here are the specifics of my project:
Project Description: [Provide a brief description of what the project is about, its main functionalities, and its goals.]
User Base: [Describe the target user base. For example, tech-savvy individuals, general public, specific age group, etc.]
Data Handling: [Explain how much data the project will handle, its type (text, images, videos, etc.), and any special data processing requirements like real-time processing or machine learning.]
Platform Compatibility: [Mention the platforms on which the project needs to run, such as web, mobile (iOS, Android), desktop (Windows, macOS, Linux), or cross-platform requirements.]
Performance Requirements: [Detail any specific performance requirements like handling high traffic, real-time updates, or heavy computational tasks.]
Security Concerns: [Outline any specific security concerns or compliance requirements like GDPR, HIPAA, etc.]
Budget and Time Constraints: [Provide information about budget limits and time frames for project completion.]
Developer Expertise: [Describe the expertise and experience level of the development team with various programming languages and technologies.]
Based on these specifics, could you recommend the most suitable programming language, framework, and tech stack for this project? Please consider the ease of development, scalability, maintenance, and community support in your recommendation.
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