Hey there, fellow future-addicts!

Welcome to this week's edition of Rushing Robotics!

In a world where innovation is the norm, we're here to keep you at the forefront of groundbreaking advancements in artificial intelligence, robotics, biotechnology, and beyond. Brace yourself for a journey into the future where the impossible becomes reality, and the unimaginable is just a step away.

Imagine printing operational human brain tissue or teaching robots to learn autonomously. These mind-boggling feats are no longer confined to the realm of science fiction. Researchers at the University of Wisconsin-Madison have achieved a monumental breakthrough by 3D printing functional human brain tissue, offering unprecedented insights into neurological disorders. Meanwhile, Carnegie Mellon University's pioneering work in robotics has birthed a new era where robots can learn to open doors on their own, heralding a future where machines navigate complex tasks with remarkable autonomy.

From regenerating damaged skull bones to engineering DNA tools for precise cell identification, the boundaries of biotechnology are expanding like never before. At the Max Delbrück Center for Molecular Medicine, CRISPR-Cas9 technology takes center stage in rectifying hereditary genetic defects, offering hope for those battling deadly immune system disorders. Meanwhile, researchers at the University of Bristol are on a mission to develop medications that combat diabetic complications at the microvascular level, potentially transforming the landscape of diabetic care.

Discover cutting-edge products and tools designed to revolutionize industries and empower individuals. Whether it's Mootion's AI-driven 3D creation platform, OpenAssistantGPT's open-source chatbot solution, AskLegal.bot's AI-powered legal guidance, or StarterBuild's business concept refinement platform, innovation knows no bounds. Get ready to explore the latest advancements that are reshaping the way we work, create, and interact.

Join us as we dive into the realms of innovation, uncovering the technologies that are shaping our future and redefining what's possible. Don't miss out on the journey to tomorrow's world! Stay hungry, stay futurish!

🤯 Mind-Blowing

• A team of researchers has achieved the production of the first operational human brain tissue via 3D printing. This advancement marks a significant leap forward in understanding brain functionality and exploring neurological disorders. Experts from the University of Wisconsin-Madison validate that the printed tissue mimics the growth and functionality of natural brain tissue.

• A groundbreaking achievement in robotics has been reached as researchers from Carnegie Mellon University unveil a new program enabling robots to autonomously learn how to open doors. This futuristic self-learning robot butler marks a significant advancement in the field, showcasing the potential for intelligent machines to adapt and perform complex tasks with remarkable precision.

• Scientists have achieved the regeneration of damaged skull bones in mice utilizing a cutting-edge "bone bandage." This biomimetic scaffold, incorporating both a piezoelectric framework and the growth-promoting properties of a naturally occurring mineral, opens new vistas for bone regeneration and holds promise for diverse applications in regenerative medicine.

• Elemind, the brainchild of a team of leading scientists, has emerged as a game-changing neurotechnology platform. With its wearable devices, Elemind signals a potential paradigm shift in health management, standing at the forefront of the convergence between health and AI technology. Utilizing advanced algorithms and artificial intelligence, Elemind stimulates brainwaves noninvasively,

🔊 Industry Insights & Updates

• A team of innovative students has engineered an affordable bioprinter aimed at transforming the production of essential pharmaceuticals without the need for actual plants. Led by Team RoSynth, these ten students have developed a cutting-edge 3D-bioprinting system that is revolutionizing the manufacturing process of plant-based medications, offering a sustainable and cost-effective alternative.

• Aptera Motors secures an impressive $33 million from the community to advance its mission of developing 400-mile solar electric vehicles (EVs). By combining extended range and solar technology, Aptera is paving the way for a greener and more accessible future in transportation.

• Mark Zuckerberg provided insights into Meta's ambitious plan to outshine Google and Microsoft in AI, underscoring the company's readiness to invest more than $30 billion annually in pursuit of this goal. With robust financial backing, Meta is gearing up for a protracted AI battle against industry heavyweights, poised to make significant strides in the field.

• A French hospital made headlines by deploying a series of socially adept robots to support its staff members. Thanks to advancements in large language model technology, these robots can engage in fluid and natural conversations, marking a significant leap forward in healthcare innovation.

• Shell, the fossil fuel behemoth, is venturing into renewable energy with its support of a crab-like device that harnesses energy from sea waves. This innovative approach reflects Shell's commitment to meeting energy demands while minimizing carbon emissions.

🧬 BioTech

• Researchers at the Max Delbrück Center for Molecular Medicine introduce a breakthrough application of CRISPR-Cas9 gene editing technology with potentially life-saving implications. Led by Professor Klaus Rajewsky, the team successfully rectifies hereditary genetic defects in immune cells, presenting a novel therapeutic strategy for Familial Hemophagocytic Lymphohistiocytosis (FHL), an uncommon yet deadly immune system disorder.

• Scientists have engineered a cutting-edge DNA tool designed to detect cell identities with unparalleled precision. This groundbreaking research endeavors to provide valuable insights into cellular behaviors, promising significant strides in cancer treatment, viral infection management, and the development of innovative immunotherapy approaches.

• At the University of Bristol, scientists undertook a study aimed at crafting a medication to thwart microvascular diabetic complications such as diabetic eye and kidney diseases. The proposed drug operates as an inhibitor, strategically engineered to forestall issues stemming from the deterioration of the glycocalyx, the shielding layer of blood vessels, in diabetic patients.

💡Products/tools of the week

• Mootion presents an unparalleled AI-driven 3D creation platform, designed to simplify and expedite the animation process for creators and animators. With its pioneering Text-to-Motion technology, users can effortlessly bring their ideas to life by typing them out, as the AI swiftly converts their input into fully realized animations in a matter of minutes. Additionally, Mootion offers Motion-to-Video and Video-to-Motion capabilities, enabling users to produce high-quality videos and seamlessly transform existing video content into dynamic 3D animations.

• OpenAssistantGPT serves as a groundbreaking open-source tool, empowering individuals to craft personalized chatbots leveraging the capabilities of OpenAI's renowned assistants like GPT-4 or GPT-3.5. With a straightforward JavaScript snippet, website owners effortlessly embed a dynamic chatbot tailored to their content, revolutionizing customer engagement and support without the burden of exorbitant expenses or advanced coding expertise.

• AskLegal.bot represents a state-of-the-art AI-powered tool engineered to furnish swift and complimentary legal guidance to users. With its ability to deliver instant insights, personalized advice, and ensure confidentiality and security, this software caters to a diverse range of legal inquiries. Users can seek immediate clarification on topics including property disputes, employment issues, tax discrepancies, divorce settlements, business formation, and employment classifications.

• StarterBuild is an AI-powered platform crafted to aid entrepreneurs and businesses in crafting and honing their business concepts. It generates detailed reports packed with strategic insights, encompassing risk assessment and mitigation, monetization tactics, value proposition refinement, user persona development, branding recommendations, market sizing analysis, feature roadmap creation, and potential integration of AI.

💬 ChatGPT prompts

• This week's prompt is Prompt Improver. The Prompt Improver feature introduced this week is designed to enhance prompts efficiently. It offers a solution for rapid prompt refinement. Simply input your initial prompt, and effortlessly generate a more intricate and targeted prompt.

Prompt:

You are a prompt engineer. Your task is to analyze the prompt provided by the user and improve it. Think step by step.

At the very beginning, ask the user for the prompt to improve.

1. Analyze the provided prompt and evalate it according to the following criteria:

I. Clear and Specific A. Is the prompt clearly stated and easily understandable? B. Are there any ambiguous or unclear terms in the prompt? C. Does the prompt provide specific guidelines or requirements for the answer?

Output your findings as follows:

CLEAR AND SPECIFIC

Findings Open questions, if any

II. Relevance and Tailoring A. Does the prompt address the specific topic or question at hand? B. Is the prompt tailored to the intended audience or context? C. Does the prompt consider any specific constraints or limitations?

Output your findings as follows:

RELEVANCE AND TAILORING

Findings Open questions, if any

III. Contextual Background A. Does the prompt provide enough background information for a comprehensive answer? B. Are there any relevant contextual details missing from the prompt? C. Does the prompt consider any historical or cultural factors that may influence the answer?

Output your findings as follows:

CONTEXT

Findings Open questions, if any

IV. Neutrality and Objectivity A. Is the prompt unbiased and objective in its wording? B. Does the prompt avoid leading or loaded language? C. Are there any potential biases or assumptions in the prompt that need to be addressed? Output your findings as follows:

NEUTRAL AND SPECIFIC

Findings Open questions, if any

V. Token Optimization A. Does the prompt utilize tokens efficiently? B. Are there any unnecessary or repetitive phrases that can be condensed? C. Can the prompt be rephrased to optimize token usage without altering its meaning? Output your findings as follows:

TOKEN OPTIMIZATION

Findings Open questions, if any

1. Improve the prompt and show the user Using any insights gained, output an improved version of the prompt in the following format:

ORIGINAL PROMPT

Create a short title and a concise summary of the original prompt.

REFINED PROMPT

Write the improved version of the users prompt.

EXPLANATION OF CHANGES.

A short summary of the changes and the reason.

• Boston Dynamics: Atlas Struts

• LeCAR Lab at CMU: Agile But Safe: Learning Collision-Free High-Speed Legged Locomotion

• Flasutie: Howitzer style 30mm Cannon (HE part 2/2)