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China launches data-sharing initiative for homegrown humanoid robotics companies to accelerate innovation and development. The initiative is being driven forward by the Nationwide Native Joint Humanoid Robotic Innovation Centre, in collaboration with various leading Chinese humanoid companies.
To enable autonomous execution on routine tasks, they’ll necessitate substantial amounts of training data to empower the AI’s decision-making capabilities. Developers consistently struggle with creating effective instructional content for programming methodologies. China has acknowledged this challenge and is working to propel its robotics industry forward to overcome this obstacle.
Chinese language pointers launched
China’s Nationwide Native Joint Humanoid Robotic Innovation Centre (NNJHRIC) is establishing a training facility to provide top-tier data and set industry standards, as its first public platform dedicated to humanoid robotics comes online. Xu Bin, a top supervisor at China’s state-backed Heart Institute, told a major Chinese media outlet that, just like self-driving cars, “humanoid robots necessitate colossal amounts of high-caliber data for refinement, with superior prototypes demanding an even more exacting dataset.”
China has already launched two sets of guidelines for developing humanoid robots:
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- Classification and software development are crucial components in the creation of effective humanoid robots. Here are some valuable tips to consider:
Can the robot perform tasks autonomously or requires human intervention?
* Design a hierarchy of tasks based on complexity, with autonomous actions at the top and human-assisted ones at the bottom.
* Implement fuzzy logic for handling uncertain situations.What level of user interaction is required?
* Develop intuitive interfaces allowing users to control the robot through gestures, voice commands, or touchscreens.
* Ensure seamless integration with other devices and systems.How will the robot interact with its environment?
* Integrate sensors and cameras for perceiving surroundings, detecting obstacles, and tracking movement.
* Program algorithms for navigating complex spaces, recognizing patterns, and adapting to changes.What are the robot’s specific capabilities?
* Define roles based on tasks like assembly, manipulation, or transportation, and design accordingly.
* Develop software that can learn from experiences, adjust its behavior, and improve performance over time. - What are the essential benchmarks to quantify embodied intelligence’s growth?
1. **Sensory Integration**: Assess how well the individual processes and integrates sensory information from various sources, such as visual, auditory, tactile, olfactory, and gustatory stimuli.
2. **Motor Control**: Evaluate the coordination and fluidity of movements, including gross motor skills like walking or running, and fine motor skills like drawing or typing.
3. **Emotional Awareness**: Examine the individual’s ability to recognize and understand their emotions, as well as those of others, fostering empathy and emotional intelligence.
4. **Social Interaction**: Observe how the person navigates social situations, including verbal and nonverbal communication, conflict resolution, and cooperation.
5. **Cognitive Flexibility**: Measure the capacity for mental adaptability, problem-solving, and creative thinking under changing circumstances.
6. **Self-Awareness**: Assess the individual’s understanding of their own strengths, weaknesses, values, and goals, facilitating personal growth and decision-making.
7. **Neuroplasticity**: Evaluate the brain’s ability to reorganize and adapt in response to new experiences, learning, and environmental changes.
8. **Embodied Cognition**: Investigate how bodily experiences influence cognitive processes, such as attention, perception, and memory.
9. **Interoception**: Examine the individual’s awareness of their internal body state, including hunger, thirst, fatigue, and physical sensations.
10. **Interpersonal Intelligence**: Assess the person’s ability to understand and navigate complex social relationships, empathy, and conflict resolution.
SKIP
- Classification and software development are crucial components in the creation of effective humanoid robots. Here are some valuable tips to consider:
As this story goes to print, efforts are underway to locate a duplicate copy of these documents.
The National Leading Group for Intelligent and Complex Systems (NLJIC), spearheaded by a staff of experts, unveiled industry-specific standards for humanoid robots in China. The classification of robots is based on four technical levels (L1-L4) and five intelligence levels (G1-G5), evaluating capabilities that align with notions of cognition, decision-making, and autonomy.
The NLJIC was founded in May 2024 in Shanghai. At the 2024 World Artificial Intelligence Conference (WAIC), the company unveiled its groundbreaking Qinglong, a fully realized humanoid robot, marking a significant milestone in robotics and AI innovation. Developed as a publicly accessible framework, Qinglong aims to foster international collaboration and innovation in the field of humanoid robotics.
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By 2027, NLJIC aims to train and mentor a total of 1,000 humanoid robotics experts. Several Shanghai-headquartered companies, in collaboration with Fourier Intelligence and Kepler, are developing human-like robots capable of benefitting from the data-sharing program. in September 2024.
IEEE Humanoid Examine Group
The same initiative is going on underneath the mentorship of Aaron Prather, director of robotics & autonomous techniques program at . The Humanoid Examination Group conducts a year-long mission to assess the current state of robotic security requirements, identifying which humanoid robots, if any, can effectively cover existing gaps, and determining areas that require attention for future SDOs to develop new, relevant standards.
“China has prioritized humanoid research as a national imperative,” Is this a call to action for all nations? “It further underscores the significance of the IEEE Humanoid Examination Group’s efforts to establish standardized requirements for humanoids globally, thereby facilitating their widespread adoption worldwide rather than just in a single country.”
