Advanced power systems engineering

SMPnet provides technical expertise for utilities, developers, OEMs, and large data centres working on grid transformation. We focus on challenges where conventional approaches fall short, with strengths in real-time control, digitalisation, and power system dynamics. Our work enables clients to design, validate, and operate power systems with greater resilience. Projects can be delivered standalone or enhanced through Omega for real-time validation and operational deployment.

Get in touch chevron_right

Circular infographic with four segments labeled Advanced power system modelling, Real-time validation, Digital grid architecture and integration, and Advanced operations and grid services, centered around Pre-deployment system assurance.

From modelling to operational reality

Most approaches to grid transformation stop at analysis. SMPnet connects high-fidelity engineering, real-time validation, system architecture, and operational design through to implementation.

Unlike academia-led approaches and traditional consultancies, we deliver work at pace with a direct path to implementation rather than standalone reports. Drawing on experience integrating software into live control room environments worldwide, we give clients a clear route to live operation.

Capabilities with advanced engineering

Engineering capabilities spanning modelling, validation, system design, and operation in complex, dynamic power systems.

Dynamic grid behaviour and systems engineering

High-fidelity modelling of complex, dynamic, and converter-dominated power systems where conventional tools fall short.

How we support you

EMT and RMS modelling of renewable and hybrid systems
Grid stability and dynamic behaviour studies
Offshore, interconnector, and hybrid system analysis

Scenario modelling for future and extreme network conditions
Converter-dominated system interaction studies

Get in touch chevron_right

Real-time validation and Digital Grid Lab

Industrial-grade testing using hardware-in-the-loop and real-time simulation to validate control strategies and grid behaviour.

SMPnet's Digital Grid Lab provides real-time validation of control strategies and system behaviour using hardware-in-the-loop and controller-in-the-loop environments. The lab, based in our Athens office, enables testing, iteration, and validation under complex, dynamic conditions.

How we support you

Controller-in-the-loop (CIL) and hardware-in-the-loop (HIL) testing
DER controller and protection scheme validation
Grid event and fault simulation

Pre-deployment system testing in real-time environments
Cyber-physical validation of control, communications, and assets

Get in touch chevron_right

Digital grid architecture and integration

End-to-end design and planning of interoperable, software-defined grid systems across control, data, and operational environments.

Design and planning of interoperable, software-defined grid systems across assets, platforms, and control environments. This includes both digitalisation and integration of legacy and next-generation systems to support the evolution of grid operational models into software-defined control environments.

How we support you

SCADA, ADMS, DERMS, and edge/cloud architecture design
Interoperability and protocol integration (IEC 61850, CIM, APIs)
Substation automation and multi-vendor integration
Control room modernisation and software-defined operations design

System specification and integration design for new grid technologies
Data model design and implementation, including CIM-based approaches (IEC 61970/61968)
Digitalisation roadmaps for DSOs and TSOs (architecture and system direction)
Interoperability frameworks and standards-based integration strategies

Get in touch chevron_right

Advanced operations, flexibility and grid services

Operational strategies and system service design for dynamic, decentralised power systems, integrating flexibility, market participation, and grid services optimisation.

Design of operational systems and grid service frameworks for modern power systems. This includes real-time operational design, flexibility coordination, and analysis of how distributed resources contribute to system stability and performance.

Operational strategy & flexibility systems

Flexibility strategy development for DER, storage, and demand response
Real-time operational strategy design for dynamic networks
Congestion management and network optimisation (including WAVO)
Coordination of distributed and hybrid energy resources
Market participation strategy for flexible assets
Real-time flexibility coordination and adaptive optimisation

‍Grid services assessment & system value modelling

Ancillary services capability studies (frequency, voltage, inertia services)
Stability service participation analysis (e.g. synchronous condensers, hybrid assets)
Cost-benefit analysis of grid support services
Market and flexibility readiness assessments for DER and storage
Analysis of system service capability from distributed energy resources
Analysis of operational feasibility for emerging grid services

Get in touch chevron_right