Robotic Automation and the Future of Robotic Locomotion Systems

Overview

As automation continues to advance, the future of robotics is set to be greatly impacted by improvements in robotic locomotion systems. This guide will discuss how robotic automation is evolving and explore the potential future of robotic locomotion systems. We will highlight how these changes will influence industries such as warehouse automation, human-robot interaction and operations in dynamic environments, while also discussing the role of companies like 3Laws Robotics in supporting these use cases.

Robotic Automation

Robotic automation is a burgeoning field that has been gaining increasing focus in recent years. According to a report from the International Federation of Robotics, there has been a 27% increase in the global installation of industrial robots in the last five years. This explosion in the use of robots has been driven by various industries such as automotive, metals, and electronics, which have experienced a 60%, 55%, and 33% growth rate respectively. This exponential growth in automation highlights the increasing reliance industries have on robotic systems and the important role they play in delivering efficient services.

Future of Robotic Locomotion Systems

The future of robotic locomotion systems is predicted to be revolutionary, bringing about significant changes in how robots move and interact with their environment. McKinsey's research predicts that by 2030, autonomous vehicles, including robots, will account for up to 20% of vehicles on US roads. Another study by ABI Research suggests that there will be an 80% increase in mobile robot shipments by 2025. These statistics reflect the increasing importance of robotic locomotion systems and the potential they hold for transforming various industries.

Key Takeaways

• The rise in usage of industrial robots has seen a 27% increase globally in the past five years, driven primarily by the automotive, metals, and electronics industries.

• The future of robotic locomotion systems is promising. By 2030, autonomous robots could make up to 20% of vehicles on our roads.

• Mobile robot shipments are predicted to witness an 80% surge by 2025.

Introducing 3Laws Robotics

3Laws Robotics is a company that is at the forefront of the development of highly advanced software aimed at enhancing the safety and reliability of robotics systems.

One of the key challenges 3Laws Robotics is addressing is the process of certification, which has been a significant obstacle for robotics companies. Their software, 3Laws Supervisor, is designed to streamline this process by providing rigorous safety features and evidence of system robustness, which may ease the certification journey.

The software of 3Laws is based on Control Barrier Functions (CBFs), a groundbreaking technology that originated at Caltech and claims to provide mathematically provable safety.

Through the use of 3Laws' technology, various applications and industries can benefit:

• Warehouse automation: With the help of 3Laws, an autonomous forklift client achieved a 40% gain in efficiency, resulting in a six-month payback period.

• Human-robot interaction: 3Laws supports the safe, uninterrupted operation of robots near humans, fulfilling the rising demand for collaborative robotics solutions.

• Dynamic environments: 3Laws offers reactive collision avoidance features, allowing robots to successfully navigate in unpredictable surroundings.

3Laws strives to improve operational efficiency by decreasing downtime caused by unnecessary e-stops or collisions. Moreover, by providing real-time autonomy stack guardrails, 3Laws enables robots to operate at their peak capabilities while ensuring safety.

3Laws Robotics' software is highly adaptable, compatible with a wide array of platforms like mobile robots, cars, drones, and manipulators, and syncs well with popular robotics middleware such as ROS and ROS2.

Positioning 3Laws Robotics as a next-gen safety solution, it offers a proactive approach to safety that can harmoniously unlock the full potential of robotics, offering dynamic, predictive safety certified for ISO 3691-4 and ISO 26262.