Even cheap hardware can perform complex tasks, and AI is helping robots get smarter still.
Sophisticated robots don’t have to cost a fortune.
Category: robotics/AI – Page 506
When you read or listen to anything about generative AI and its impact on jobs, it’s often a story of job losses.
Discover how generative AI is more likely to augment jobs rather than replace them, transforming tasks and creating new opportunities for efficiency and innovation.
Dubbed the chemical’ Reactome,’ the system is claimed to be trained using a dataset that includes 39,000 pharmaceutically relevant reactions.
The innovative system merges automated experiments with AI, offering accelerated insights into chemical interactions for a quicker drug design process.
New research from UBC reveals how these tiny birds switch gears mid-air and the insights for future autonomous flying tech.
Hovering or cruising? Hummingbirds show us their flight strategies, hinting at potential applications for next-gen autonomous vehicles.
These AI chips contribute to running complex machine-learning tasks and augmenting existing AI models.
In the last year, Chinese military groups, government-backed AI research institutes, and universities bought small amounts of Nvidia computer chips.
Job replacement has been a key risk factor with advancement in AI-related tech.
The International Monetary Fund (IMF) posits that the potential impact of Artificial Intelligence (AI) on the global job market stands at 40%, with advanced economies anticipated to bear the brunt of this transformation.
Using #AI to define the chemical “reactome”—the important functional sites in small molecules.
High-throughput experimentation (HTE) has great utility for chemical synthesis. However, robust interpretation of high-throughput data remains a challenge. Now, a flexible analyser has been developed on the basis of a machine learning-statistical analysis framework, which can reveal hidden chemical insights from historical HTE data of varying scopes, sizes and biases.
MIT CSAIL scientists, using new AI models, have been successful at identifying potential high-risk patients of pancreatic cancer.
Time to move philosophers into the lab. AI is making theories of consciousness testable.
We are already living in the era of the fourth industrial revolution, but in the near future we will be facing another one that could really change everything. We are talking about the revolution of humanoid robots — versatile, intelligent and dexterous machines that can not only help, but also replace humans in tight places. In this video, we’ll tell you about the top 10 newest and most advanced humanoid robots in the world, and what technologies will make them truly versatile! Onward to a brighter future)
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0:00 A breakthrough in humanoid robots.
1:17 What technologies could make robots as dexterous as humans?
3:46 Digit, the first commercial humanoid robot from Agility Robotics.
5:18 New humanoid robot from Singapore.
6:45 What kind of humanoid robot has OpenAI invested in?
7:34 New Apollo robot from Apptronik.
9:00 CyberOne humanoid robot project from Xiaomi.
10:20 Unitree’s H1 robot.
11:07 XPENG’s agile and stable robot PX5
12:05 Sanctuary AI’s most agile robot Phoenix.
13:13 The world’s most advanced humanoid robot by Figure AI
15:18 Tesla Bot: Ilon Musk’s Humanoid Robot.
16:15 The world’s most advanced humanoid robot from Boston Dynamics.
Boston Dynamics Atlas. If you’ve been following robotics, you’ve likely seen this humanoid robot in action. Atlas is a pinnacle of robotic achievement, showcasing impressive mobility and coordination. Its advanced control system allows it to perform backflips, handstands, and navigate complex environments with ease. Atlas is not just a demonstration of technological prowess; it’s a glimpse into the future of robotics assisting in real-world scenarios.