The Internet of Skills: How Remote Robotics Is Expanding Human Capability

The Internet of Skills

The next-generation Internet, the Internet of Skills, combines advanced 5G networking٫ soft/hard robotics٫ and artificial intelligence technologies. It enables professionals to democratize their expertise and skills without exhausting their availability٫ achieving prior unexperienced low latencies at affordable costs.​ The Internet of Skills aims to offer skill sets and expert capabilities to anybody٫ even at the most remote and diverse geographical regions.​ It is expected to be a key component of the future digitalized world.​

Overview of the Internet of Skills

The next-generation Internet, the Internet of Skills, combines advanced 5G networking, soft/hard robotics, and artificial intelligence technologies.​ It enables professionals to democratize their expertise and skills without exhausting their availability. The sharing of skills over the Internet enables democratization of physical labor and skills, and it will enable the delivery of skills in digital form.​ The Internet of Skills aims at investigating how Tactile Internet with Human-in-the-Loop (TaHiL) technology can contribute to offering skill sets and expert capabilities to anybody, even at the most remote and diverse geographical regions.​ This innovative concept is expected to be a key component of the future digitalized world, enabling the delivery of physical experiences and expertise to the rest of the world, ultimately revolutionizing the way skills are acquired and shared globally.​

Importance of Remote Robotics

Remote Robotics

The importance of remote robotics lies in its ability to democratize expertise and skills without exhausting availability, revolutionizing the way skills are acquired and shared globally.​ With the integration of advanced 5G networking, soft/hard robotics, and artificial intelligence technologies, remote robotics enables the delivery of physical experiences and expertise, spreading knowledge globally in a faster and more efficient way.​ It facilitates applications such as remote monitoring/surgery, education, and industrial servicing capabilities. Furthermore, the low latency and ultra-fast connectivity of remote robotics hold the potential to democratize robotic surgery, teaching, and mentorship, regardless of the location of the expert surgeon, ultimately enhancing human-robot interaction and enabling the delivery of physical experiences and expertise to the rest of the world.​

Technological Foundations

The next-generation Internet, the Internet of Skills, combines advanced 5G networking, soft/hard robotics, and artificial intelligence technologies.​ It enables professionals to democratize their expertise and skills without exhausting their availability, achieving prior unexperienced low latencies at affordable costs.​ The integration of these technologies is leading to a significant transformation, allowing the delivery of physical experiences and expertise to the rest of the world, ultimately revolutionizing the way skills are acquired and shared globally.​

5G Networking

The next-generation Internet, the Internet of Skills, leverages advanced 5G networking to achieve unprecedented low latencies at affordable costs.​ This allows for the democratization and delivery of physical experiences and expertise globally, ultimately revolutionizing the acquisition and sharing of skills.​ 5G and ultra-low delay networking, along with artificial intelligence and robotics, form the technological backbone that enables the virtualization and democratization of physical labor and skills.​ The integration of 5G networking plays a crucial role in enabling applications such as remote monitoring/surgery, education, and industrial servicing capabilities. Furthermore, 5G connectivity facilitates the democratization of robotic surgery, teaching, and mentorship, regardless of the location of the expert, ultimately enhancing human-robot interaction and the delivery of physical experiences and expertise to the rest of the world.​

Artificial Intelligence (AI) Integration

Robotics

The integration of artificial intelligence (AI) within the Internet of Skills enables a revolutionary advancement in remote robotics.​ By merging AI with 5G networking and robotics, it fosters the democratization of physical labor and skills, allowing anyone to teach, be taught, and execute actions remotely without any physical boundaries. This convergence facilitates the delivery of physical experiences and expertise globally at a faster and more efficient pace. Additionally, the Internet of Skills aims to investigate the contributions of Tactile Internet with Human-in-the-Loop (TaHiL) technology in offering skill sets and expert capabilities to individuals, even in the most remote and diverse geographical regions.

Applications and Challenges

The Internet of Skills promises to enable applications such as remote monitoring/surgery, education, and industrial servicing capabilities.​ However, challenges in the capability of internet infrastructure and ensuring ultra-low latency for critical robotic applications remain.​ Additionally, the integration of AI and robotics raises ethical and social challenges regarding the impact on human-robot interaction and the workforce.​ Overcoming these challenges while maximizing the potential applications of the Internet of Skills will be crucial for its successful implementation.​

Applications of the Internet of Skills

The Internet of Skills enables professionals to democratize their expertise and skills without exhausting their availability. This innovative concept aims to deliver physical experiences and expertise globally, regardless of geographical boundaries.​ Applications include remote monitoring/surgery, education, and industrial servicing capabilities.​ However, challenges exist in ensuring ultra-low latency for critical robotic applications and addressing ethical and social issues related to human-robot interaction and workforce impact.​

Challenges in Remote Robotics

The challenges in remote robotics center around ensuring low latency, critical for applications like robotic surgery where even a 1-millisecond delay in haptic feedback could be fatal.​ Another challenge lies in addressing ethical and social issues related to human-robot interaction and workforce impact.​ Additionally, the capability of internet infrastructure, particularly in guaranteeing ultra-low latency for robotic applications, poses a significant challenge.​

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