Collaborative Robots and the Future of Robotic Teleoperation Systems

Overview:

The rise of collaborative robots, or "cobots," and robotic teleoperation systems has opened new possibilities for various industries. By predicting a shift in global robotic teleoperation systems from $68.4 million in 2018 to $767.2 million by 2027, a compound annual growth rate (CAGR) of 31.5%, we can appreciate the magnitude of this technological evolution. Additionally, with the collaborative robots market projected to reach $12.3 billion by 2025, there remains immense scope for growth and innovation. Safety and reliability continue to remain significant concerns in these system’s applications, addressed by 3Laws Robotics through innovative software solutions.

Global Robotic Teleoperation Systems:

The global robotic teleoperation systems have witnessed a dramatic surge in demand, with the market expected to grow from $68.4 million in 2018 to a staggering $767.2 million by 2027; this equates to a compound annual growth rate (CAGR) of 31.5%. The emergence of Industry 4.0 has accelerated the adoption of such systems, driving efficiency, precision, and cost savings for businesses across various sectors. Despite the promising growth, challenges such as maintaining system safety and reliability continue to hinder seamless system adoption.

Collaborative Robots:

Offering another innovative avenue are collaborative robots ("cobots"), forecasted to witness exponential growth in the future. The collaborative robots market is projected to reach $12.3 billion by 2025, advancing from just $649 million in 2016. These robots are capable of working side-by-side with humans, enhancing productivity, and optimizing workflow. Challenges pertaining to system safety, however, particularly in human-robot interaction scenarios, need to be effectively addressed to unlock the full potential of cobots.

Safety Regulations and Certifications:

Safety and reliability remain paramount in the deployment of collaborative robots and teleoperation systems. A vital aspect to system deployment is certification, often becoming a pain point for companies developing robotics systems due to its complex and time-consuming nature. Addressing this concern is 3Laws Robotics, focusing on certification-related challenges, making the process simpler, robust, and highly secure.

Key Takeaways:

• The global market for robotic teleoperation systems is anticipated to grow at a CAGR of 31.5% from 2018 to 2027.
• The collaborative robots industry is predicted to reach $12.3 billion by 2025, up from $649 million in 2016.
• 3Laws Robotics is rising to the challenge of certification, improving the process for robotics companies.

About 3Laws Robotics:

3Laws Robotics is at the forefront of creating cutting-edge software to enhance the safety and reliability of robotic systems. Focusing primarily on addressing certification – a significant pain point for robotics companies – 3Laws Robotics is paving the way to simplify this process through its innovative 3Laws Supervisor software.

Throughout diverse industries and applications, 3Laws Robotics has demonstrated several use cases for its technology. Notably, it helped an autonomous forklift customer achieve a 40% efficiency gain, translating to a payback period of just six months.

Moreover, 3Laws enables safe, uninterrupted operation of robots around humans, meeting the escalating need for highly efficient and reliable collaborative robotics solutions. It bolsters operational efficiency by minimizing downtime caused by unanticipated errors or collisions, a breakthrough for industries such as warehouse automation.

Furthermore, 3Laws' unique technology aligns with popular middleware like ROS and ROS2, establishing itself as an adaptable solution. As a next-generation safety answer, 3Laws expands beyond traditional e-stop methods, providing a proactive approach to safety that allows for dynamic, predictive operability. Safety certified for ISO 3691-4 and ISO 26262, users can unlock the full potential of robotics securely.

Designed to bring dynamism and mathematical safety – a claim supported by the Control Barrier Functions (CBFs) tech developed at Caltech – 3Laws is the future of robotics safety and reliability.