Blogs
Robotics Application Engineering as a Service (RAEaaS) offers flexible, on-demand automation solutions, especially for companies using industrial robots. By remotely developing up to 98% of a custom application, from software configuration to network setup, RAEaaS provides smaller businesses with expert robotics support without the overhead of full-time staff or costly integrators. This approach allows companies to access specialised, project-based expertise, enabling agile, cost-effective automation tailored to their unique needs.
Industrial robotics programming faces unique challenges, from proprietary languages to limited remote access and safety complexities. Innovations like modular programming and enhanced diagnostics are paving the way for more adaptable and cost-effective automation, especially for SMEs needing flexible solutions.
Vertical farming, combined with industrial robotics, is transforming agriculture by growing crops in urban skyscrapers. Robots handle tasks like seeding, monitoring, and harvesting with precision, while IoT and AI optimise resources. This sustainable, efficient approach promises to redefine food production for a growing, urbanised world.
This blog post explores why industrial robotics, despite its critical role in manufacturing, falls short of being a true innovator in the tech industry. It examines the field’s reliance on derivative applications, the prioritisation of scalability over creativity, and the challenges posed by closed proprietary systems. Additionally, it highlights the demanding lifestyle of robotics professionals, who often spend long hours in factories and live out of suitcases, making the field less appealing compared to more glamorous tech careers. Industrial robotics, as argued here, is a sector defined by practicality and refinement rather than groundbreaking innovation.
The 21st century has ushered in an age of unprecedented technological advancement, with industrial robots and automation systems revolutionising the way we produce goods and deliver services. Yet, this revolution is not without its problems. In the UK, the promise of automation has faltered, with the industrial robotics sector failing to meet its transformative potential. This is not a technical failure, but a systemic one, a result of centralised control, prohibitive costs, and a profit-driven framework that prioritises corporate interests over community needs.
Industrial automation has the power to liberate human labour and drive sustainable innovation, yet its potential has been stifled by monopolistic control and profit-driven priorities. Democratising automation offers a transformative path forward, breaking down barriers to access and fostering collaboration. By integrating open-source platforms, collective ownership, and eco-conscious applications, we can unlock a future where technology serves humanity and the planet, laying the foundation for an equitable, eco-socialist society.
Industrial robotics programming is a field filled with complexity and creativity, yet it often goes unrecognised as innovative. Hidden behind proprietary systems and corporate walls, programmers solve intricate problems that drive modern manufacturing, only to see their work dismissed as "just part of the machine." Worse, the industry quietly exploits intellectual property laws, extracting programmers' creativity under the guise of employment. It's time to expose these issues, celebrate the ingenuity behind the code, and ensure those writing it get the recognition and rights they deserve.