Drones and the Future of Plastics Product Manufacturing

Overview

The growing presence of drones in industries globally has begun to revolutionize plastics product manufacturing. Dramatic time efficiencies and incredible advancements in cost-cutting are associated with this shift. With a 60% increase in drone spending in the manufacturing industry within 1 year, and an expectation that drone enabled supply chains could see up to a 6% boost in revenue, the impact of drone technology is not to be underestimated. Paired with the 5G network expansion, there is a 20% predicted growth in drone revenue in the following few years.

Drone Usage in the Manufacturing Industry

Over the past decade, drones have seen a monumental increase in usage within the manufacturing industry. Reports indicate that in 2020, spending on drones in the manufacturing sector increased by over 60%. Initially used primarily for surveillance and safety measures, drones are now being used for a wider array of tasks, including delivery of lightweight goods, site inspection, and monitoring of manufacturing processes. There is growing evidence to suggest that the integration of drones into the manufacturing sector could lead to immense increases in efficiency and production.

Impact on Plastic Product Manufacturing

The positive impact of drones on the plastic products manufacturing process is evident. Research suggests that the incorporation of drones into supply chains could result in an increase in revenue of up to 6%. This is largely due to the ability of drones to transport raw materials and products quickly and efficiently, reducing costs associated with labour, transport and storage. Increased automation in plastic manufacturing can facilitate mass production while reducing errors and enhancing product quality.

Emerging Opportunities with 5G Networks

The expansion of 5G network capabilities offers unprecedented opportunities for the integration of drones in plastic product manufacturing. The high data transfer rate of 5G networks enables real-time monitoring and control of drones, which is essential for safe and efficient operation. It is predicted that the enhanced capabilities of drones in conjunction with 5G networks could lead to an increase in drone revenue by up to 20% in the next few years.

Key Takeaways

• Substantial growth in drone usage in manufacturing with a 60% increase in spending in just one year
• Potential revenue growth of up to 6% with drone-enabled supply chains in the plastic product manufacturing sector
• Prediction of a 20% increase in drone revenue with the expansion of 5G Networks

Introducing 3Laws Robotics

3Laws is a trailblazing company developing innovative software to enhance safety and reliability for robotic systems. A primary focus of 3Laws is addressing the challenge of certification, a significant pain point for robotics companies. Its software, 3Laws Supervisor, aims to simplify this process by offering robust safety features and evidence of system robustness, potentially easing the certification path.

Built on Control Barrier Functions (CBFs), a technology developed at Caltech, 3Laws claims to provide mathematically provable safety. The software is versatile, able to work with a broad range of platforms such as mobile robots, cars, drones, and manipulators.

It proves useful for a host of use cases across diverse industries and applications. Whether enabling safe and uninterrupted operation of robots near humans, or resulting in significant efficiency gains in warehouse automation, 3Laws presents a solution.

The company aspires to enhance operational efficiency by minimizing downtime caused by unnecessary e-stops or collisions. Offering real-time guardrails for autonomy stacks, 3Laws enables robots to operate closer to their peak capabilities while maintaining safety.

Position 3Laws as your answer to a next-generation safety solution that surpasses traditional e-stop methods. Take a proactive approach to safety, unlocking the full potential of robotics with a dynamic, predictive safety system that can be safety certified for ISO 3691-4 and ISO 26262.