Modularity Robotics

Meet Modularity Robotics.

Our business offers modular robotics solutions designed to perform complex tasks in extreme environments such as space and remote construction by adapting and reconfiguring modular robotic units.

The Team

We are a team of specialised Robotics Engineers:

  • Finny has 7 years of experience in industrial design, automation and digital technologies, with core skills in mechanical design and programming.
  • Princy focuses on machine vision, marine robotics, machine learning and control engineering.
  • Neeraj provides expertise in software engineering, robotics automation and Natural Language Processing.
logo

Problem

Space missions and remote, extreme-environment projects are inherently difficult, but three core problems continue to limit their potential:
1) Astronomical Costs: Designing, building and launching specialised, monolithic systems for every single task is prohibitively expensive, leading to budget overruns and fewer mission opportunities.
2) Inflexible Systems: Current systems are built for a single, predefined purpose. When mission needs evolve or unforeseen tasks arise, these rigid machines cannot adapt, often requiring costly and time-consuming new deployments.
3) Vulnerability to Failure: A single technical failure in a non-redundant, customised component can lead to complete mission failure, wasting years of effort and billions of dollars. Repair is often impossible, as replacements are unavailable or cannot be installed remotely.

There is a critical need for cost-effective, autonomous solutions that can be deployed in extreme environments while maintaining high operational flexibility.

Solution

Modularity Robotics presents the definitive solution for sustained operations in extreme environments. Our platform is centered on solar-powered, modular robotics—a dynamic system of standardised, interchangeable components that autonomously reconfigure to create the perfect tool for any job. This core capability enables on-the-fly customisation, allowing our platform to effortlessly adapt to diverse and evolving mission objectives, from intricate in-space assembly to large-scale remote construction. 

By harnessing renewable solar energy, the system ensures unparalleled efficiency and long-term autonomy, while its modular design guarantees mission resilience: a failed component is replaced remotely, rather than abandoned. Our solution provides the truly flexible, cost-effective and sustainable backbone required for future exploration and industrialisation in and beyond Earth.

Contact

Modularity Robotics LinkedIn

This article was published on