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Boston Dynamics reveals its most astonishing humanoid robot so far – and I can’t stop watching it

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Boston Dynamics all but trade-marked jaw-dropping robot videos with its hydraulics-power Atlas robot’s dancing and parkouring videos. Now it’s upped the ante and I’m scraping my jaw off the floor again after watching the brief introduction video for its all-electric and completely redesigned Atlas robot.

The All New Atlas is Boston Dynamic’s first all-electric humanoid robot and the robotics firm claims it’s stronger and more agile than all previous iterations. What jumps out at me in the video, though, is the robot’s far more human-like body.

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H1 Humanoid Robot sets new world record for running

H1 Humanoid Robot sets new world record for running

The H1 humanoid robot has achieved a new world record by reaching a maximum speed of 3.3 meters per second, which is comparable to human running speeds. The robot, which is also capable of performing complex dance moves, demonstrates advanced dynamic coordination and power landing capabilities. The H1 robot, standing at approximately 180 cm tall and weighing 47 kg, is equipped with a depth camera and a 3D LiDAR for navigation.

A Chinese startup has created the H1 humanoid robot, a machine that can run at a speed of 3.3 meters per second. That’s a new record! This robot isn’t just quick; it moves with a grace and power that’s almost human. It’s getting closer to running just like we do. Xingxing Wang, the Founder of Unitree Robotics, independently developed his first robot, a simple bipedal robot, in the winter break of the first year of university in early 2010.

360 3D lidar depth perception robot

The H1 is quite the sight. It stands tall at 180 cm and weighs 47 kg. It’s built in a way that lets you add arms and other parts to it. This makes the H1 perfect for many jobs. Think about factories, emergencies, or even keeping watch. It’s expected to reach speeds of up to 5 meters per second soon. That’s going to make a big difference in work that covers large areas or in dangerous places.

This robot knows where it’s going, thanks to its top-notch sensors. It has a depth camera and 3D LiDAR. These help it move through tough terrain without trouble. High precision and knowing what’s happening around it are key for the H1. Plus, you can control it with your smartphone, which makes it easy to use.

H1 Humanoid Robot runs at 3.3 meters per second

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The H1 costs about as much as a fancy car, $90,000. But it could save money and help businesses do more. Speed isn’t its only skill. The H1 can climb stairs, jump, and even dance. It’s got moves that show off its amazing coordination.

The company doesn’t just make humanoid robots. They have robotic dogs too. Each one is made for a different job. The strong B2 model can run fast, jump high, and carry loads. The Go2 model is for everyday people and schools. This shows that the startup wants to reach all kinds of customers.

With the H1 and its robotic dog friends, we’re at a turning point in robotics. They’re ready to do all sorts of things. They have new and exciting features, and they’re priced to sell. These robots are setting the stage for a time when they’ll be a big part of work life. They’ll make things faster and safer in many industries. For full specifications or details on the amazing H1 humanoid robot developed by Unitree jump over to the official website.

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OpenAI backed 1X EVE humanoid robots demonstration

OpenAI backed 1X EVE humanoid robotics demonstrated 2024

1X, an AI and robotics company which is backed with investment from OpenAI, has demonstrated androids designed to safely and intelligently augment the global labor force. Their mission is to create androids that can work alongside humans, addressing labor demands and contributing to an abundant society. The androids are designed with human-like form factors to operate effectively in human-centric environments. The company has implemented a system that learns motor behaviors from visual inputs using neural networks, which has been deployed on their EVE robots for tasks such as patrolling.

These robots are not just any ordinary machines; they are designed to work in harmony with humans, to take on tasks that could reshape the way we think about labor and productivity. The event put a spotlight on the EVE robots, a fleet of machines that can autonomously carry out intricate tasks, such as security patrols, suggesting they are ready to join humans in a variety of work environments.

At the heart of these robots’ capabilities is a sophisticated vision-based neural network technology. This innovation allows the robots to process visual data and respond with movements that are strikingly similar to those of humans. The EVE robots can drive, manipulate objects, and interact with their surroundings in ways that were once thought to be the exclusive domain of humans. This advancement in robotics points to a not-so-distant future where machines could take on specific roles, operating with minimal human intervention.

EVE humanoid robots in action

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The training process for these robots is quite extensive. It involves a large dataset from 30 EVE units, which forms a base model that understands a wide range of physical actions. This model is not static; it’s constantly being improved, enabling the robots to acquire specialized skills for various tasks. The training is overseen by a new breed of engineers, known as “Software 2.0 Engineers,” who rely on data analysis rather than traditional programming methods to enhance the robots’ learning process.

The company behind these robots, 1X, is on a mission to expand its technological footprint. It’s actively seeking the brightest minds in AI from the San Francisco Bay Area, a region synonymous with tech breakthroughs. The company’s approach hinges on imitation and reinforcement learning, which are crucial for the robots’ ability to adapt and improve over time. Moreover, 1X is making strides in the field of autonomous vehicles, signaling its commitment to integrating robotics into our daily lives.

The culture at 1X is dynamic and fast-paced. The company operates on a 24-hour release cycle, which means it’s constantly pushing the envelope of technological progress. This relentless drive ensures that the EVE robots remain at the forefront of the industry. The recent demonstration of these robots provides a glimpse into a future where androids work side by side with humans, potentially boosting productivity and efficiency across various sectors. As 1X continues to refine its robotic technology, the possibilities for its application and the benefits it could bring to society seem to expand by the day.

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Combining robotics and AI to create humanoid robots

Combining robotics and AI to create humanoid robots

The fusion of robotics and artificial intelligence (AI) to create humanoid robots represents a frontier of innovation that captivates both the imagination and the intellect. This fascinating interplay of disciplines aims to craft machines that not only mimic human appearance but also exhibit an unprecedented level of autonomy and intelligence. You’ll be pleased to know that this article delves into the core aspects of this subject, offering an insightful exploration suitable for both enthusiasts and professionals.

These fields are not just changing the way we think about machines, but they are also reshaping our daily lives and work environments. One of the most talked-about developments in this area is Tesla’s humanoid robot, Optimus. This robot, which has been designed to handle routine tasks, has recently shown off its improved ability to walk.

Elon Musk, the CEO of Tesla, has a vision where robots like Optimus will take over the repetitive tasks that humans currently do, freeing us up for more creative endeavors. The latest version of this robot, known as Optimus Gen 2, has demonstrated new features that suggest robots are becoming more independent and capable.

Figure AI humanoid robot

For those who follow the business aspects of technology, there’s an exciting development involving a robotics startup called Figure AI. This company is currently in talks to secure a large amount of funding, with tech giants Microsoft and OpenAI showing interest. If successful, this deal could increase Figure AI’s value to $2 billion.

Although the deal isn’t finalized, Figure AI has already started working with BMW. They are planning to bring autonomous humanoid robots into the car manufacturing process, which could revolutionize the way cars are made by automating complex tasks and making production more efficient. In the demonstration video below you can see the Figure AI humanoid robot making a coffee.

Advancements in Robotics and Artificial Intelligence

Meanwhile, in the field of AI research, NVIDIA is making significant strides. Dr. Jim Fan, a senior research scientist at NVIDIA, is working on creating what’s known as a ‘foundation agent.’ This is a type of AI that can learn in simulated environments and then apply what it has learned to real-world situations. NVIDIA’s projects, Isaac Gym and Isaac Sim, are central to this research. They suggest a future where robots can easily adjust to different tasks and environments, making them incredibly versatile.

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Tesla’s work with Optimus is a clear example of how robotics and AI are coming together to create a future where robots assist us with a wide range of tasks, from the mundane to the complex. The improvements seen in Optimus Gen 2 indicate that the day when robots will be a common presence in our lives is getting closer. These robots are set to become our assistants, helping us with everyday tasks and making our lives easier.

The potential investment in Figure AI, along with its partnership with BMW, shows that there is a significant commercial interest in robotics. Introducing autonomous humanoid robots into manufacturing has the potential to completely change the industry. It could make production lines more efficient and safer by reducing the need for humans to perform dangerous or monotonous tasks.

Figure AI humanoid robot

Building AI Humanoid Robots

NVIDIA’s research, under the guidance of Dr. Fan, is pushing the boundaries of what AI agents can do. By training these agents in virtual environments, they are laying the groundwork for AI that can transition smoothly from simulations to real-world applications. This research could lead to the development of robots that are not only autonomous but also adaptable, able to take on a variety of roles and adjust to different settings.

  • Robotics: The physical embodiment of the robot, including its mechanical design, sensors, actuators, and control systems.
  • Artificial Intelligence: The brain of the robot, encompassing machine learning algorithms, natural language processing, and computer vision, allowing the robot to perceive, understand, and act in its environment.

The Synergy of Robotics and AI

Combining robotics and AI is not merely about assembling parts; it’s about creating an entity that learns and adapts. Here’s how these technologies synergize:

  • Perception and Understanding: AI enables robots to interpret sensory information, making sense of their surroundings and identifying objects and people.
  • Decision-making: AI algorithms process data to make autonomous decisions, guiding the robot’s actions in real-time.
  • Learning and Adaptation: Through machine learning, robots can improve their performance based on experience, becoming more efficient and versatile over time.

Real-world Applications

Humanoid robots, equipped with AI, are not just a staple of science fiction; they’re increasingly becoming part of our reality. Some of the domains they are impacting include:

  • Healthcare: Assisting with patient care and performing repetitive tasks, freeing human staff for more complex duties.
  • Customer Service: Handling inquiries and providing assistance in banks, airports, and retail environments.
  • Education: Supporting teachers with administrative tasks and offering personalized learning experiences.

Challenges and Considerations

While the prospects are exciting, combining robotics and AI to create humanoid robots presents its own set of challenges:

  • Technical Complexity: Designing systems that can reliably interpret and interact with the unpredictable nature of the human environment is immensely challenging.
  • Ethical and Social Implications: Issues such as privacy, employment displacement, and the ethical treatment of AI entities are crucial considerations for developers and society.

In case you’re curious how these technological humanoids might affect your life, it’s worth noting that the aim is to augment human capabilities and improve quality of life. From performing hazardous tasks to providing companionship, humanoid robots have the potential to significantly impact various aspects of our daily lives.

The Future of AI humanoid Robotics

As we continue to explore the potential of humanoid robots, the journey is as much about enhancing their physical capabilities as it is about imbuing them with ethical and social understanding. The integration of robotics and AI stands as a testament to human ingenuity, promising a future where technology and humanity coexist in harmony.

The advancements made by Tesla with Optimus, the potential funding for Figure AI, and NVIDIA’s groundbreaking research are all significant steps forward in the fields of robotics and AI. These developments are pointing us toward a future where robots are an integral part of our daily lives, offering solutions to some of the most tedious and complex problems we face. As these technologies continue to progress, they promise to transform industries and improve our overall quality of life. With each new breakthrough, we get a glimpse of a future where the partnership between humans and robots becomes ever more seamless and beneficial.

At its core, the creation of humanoid robots involves intricate engineering and sophisticated AI algorithms. These robots are designed to perform tasks ranging from simple domestic chores to complex interactions in social and industrial settings. To enhance your experience of understanding this complex integration, it’s essential to grasp the primary components involved:

The journey of combining robotics and AI to create humanoid robots is a complex but thrilling endeavor that reflects the pinnacle of technological innovation. With each advancement, we edge closer to a future where these robotic counterparts not only exist among us but also contribute significantly to society. As this field continues to evolve, it promises to unveil new horizons for human achievement and interaction.

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New Tesla Optimus Gen 2 humanoid robot

If you are concerned about a world where robots can think for themselves. You might be interested to know that Tesla has unveiled their latest human node robot which has moved away from scripted human written commands to an AI autonomous control system. Simply put this means that the robot can think for itself rather than following a predefined set of rules provided by a human programmer.

As you can imagine the world of technology is witnessing a significant transformation as robotics and artificial intelligence (AI) advance towards greater autonomy. This evolution is set to redefine how robots integrate into our society and industries, moving beyond simple, programmed tasks to more complex, intelligent behaviors.

At the forefront of this shift, companies like Tesla are making strides with innovations such as the Optimus humanoid robot. This robot represents a move from single-purpose machines to versatile, learning entities that could one day be as common as kitchen appliances. Although Tesla’s Optimus is not alone in this technological leap. Google’s robots, including the RTX model, are showcasing their ability to autonomously navigate and interact with their environment.

This is made possible through the integration of sophisticated vision and language models, which allow these robots to operate in a manner similar to humans. Such advancements are making robots more adaptable and efficient, capable of handling a variety of tasks without explicit programming.

Tesla Optimus Gen 2 unveiling

Robotic Transformer model

Another groundbreaking development is the Robotic Transformer model, which leverages the vast amount of information available on the internet and robotics databases. This model is creating a generalized control system that enables robots to process and utilize diverse data, enhancing their ability to perform real-world tasks. This signifies a move towards robots that can learn from a wide range of sources and apply that knowledge practically.

The role of large language models, such as GPT-4, is also becoming increasingly important in guiding robots. These models provide the capability for robots to navigate complex environments and carry out detailed tasks, such as making coffee, by interpreting commands in real-time. This represents a departure from the limitations of pre-set instructions, allowing for more dynamic and responsive robot behavior.

Humanoid robots

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One particularly impressive example of AI’s capabilities is the Eureka model, which has shown that AI can create reward functions that surpass human intuition in complex situations. This suggests that AI could develop new, more efficient strategies for completing tasks, potentially outperforming the methods humans might devise.

Simulations have become an essential tool in training robots, providing a safe and efficient environment for them to hone their skills. This is especially important for minimizing the risks and time associated with training in the real world. By using simulations, robots can learn and improve much faster, accelerating their readiness for practical applications.

Looking ahead, the next five years are expected to bring substantial progress in the development and deployment of robots. This is driven by the continuous innovation from tech giants such as Nvidia, Google DeepMind, and OpenAI. The prospect of integrating robots into our daily lives is becoming more realistic, suggesting a future where robots could be as widespread as smartphones, altering the way we live and work.

The journey from scripted to autonomous control in robotics and AI is not only ongoing but also gaining momentum. With the emergence of humanoid robots, integrated cognitive models, and sophisticated language processing, the potential for robotics is immense. The efforts of leading technology firms are setting the stage for a future where robots could become a standard part of our daily existence, revolutionizing both personal and professional spheres. For more information on the new unveiling jump over to the official Tesla AI website.

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