EUSCORES

Robotics and Autonomous Systems

The Centre for Robotics and Autonomous Systems (CRAS) focuses on developing innovative robotic solutions for operation in complex environments. Each day, our researchers strive to map the unknown, creating solutions to explore the oceans’ depths, monitor the environment, or inspect infrastructures. Our goal? To become a global reference in robotics and autonomous systems, combining expertise in multisensory perception and 3D modelling, navigation and control, robotic manipulation and intervention - pushing the boundaries of autonomous robotics and integrating aerial, ground, and underwater robots into our solutions. Focusing on Technology Readiness Levels (TRL) between 5 and 8, CRAS develops prototypes and operational solutions for strategic sectors. Our laboratory infrastructure includes test tanks, prototyping workshops, and a wide range of equipment ready to operate in real-world environments. Our researchers also resort to Mar Profundo, a support vessel for testing and validating innovative maritime technologies - a key asset in bridging theoretical design and field validation. CRAS stands out for a practical approach: we combine advanced research with a strong focus on real-world applications, reducing human risk in hazardous missions, optimising operations and processes, and expanding the frontiers of autonomous robotics.

Applied Photonics

From fundamental science to real-world innovation: at our Centre for Applied Photonics (CAP), we explore optical phenomena as a unique toolbox for innovation in micro- and nanofabrication, optical, physical, and biochemical sensors, and platforms for analogue simulation and quantum computing. Our researchers focus on developing systems capable of operating in contexts where precise and reliable sensing is essential (industry, environment or biomedicine), as well as nonlinear optical devices for building quantum analogue simulations and computing platforms. Our advances in photonic sensing enable their use in extreme environments, e.g., outer space or deep sea. Based on a non-siloed organisation, the solutions we develop through the study of light and photons require multidisciplinarity and close, cooperative work across our various research domains. With our expertise in photonics and electronic systems integration, we explore the potential for technology transfer to the emerging national and international photonics industry.

Industrial & Systems Engineering and Management

Power and Energy Systems

The Centre for Power and Energy Systems (CPES) is a global reference in the large-scale integration of renewable-based electricity generation into the power system.We research and develop advanced solutions that enable the monitoring, control, optimisation, and forecasting of electricity production and consumption, as well as multi-energy systems. Our work supports the decarbonisation of the energy system, the electrification of society, and the large-scale integration of renewables, making power grids more flexible, intelligent, and resilient.Our research results include models, methodologies, hardware, and software (much of it open source) designed for various energy sector stakeholders, including citizens, communities, service providers, system operators, regulators, policy-makers, and governmental bodies.We operate a Smart Grids and Electric Vehicles Laboratory – the X-Energy Lab (link) – where we validate technological advancements in real-world conditions, ensuring that our solutions have a tangible impact on the energy sector.Thanks to our expertise, we hold a prominent role in both national and international projects supporting the energy transition, while also providing direct services to key players in the electricity sector.