A state-space linear model for distribution grids (SSMD)

[lmramirea1]

Name

SSMD

Screenshots

Focus Topic

Generate the state-space matrices of electrical distribution grids and code to run time simulation of a distribution grid with the possibility to set up time resolution and duration

Primary Purpose

Generate the state-space A and B matrices of electrical distribution grids, including inverter, loads and lines components.

Description

Matlab code to generate the state-space A and B matrices of electrical distribution grids, including inverter, loads and lines components. The slack bus can be selected depending on the type of grid (conventional- or micro-grid). The matrices can also be used to run any time simulation, with user-defined inputs and disturbances and selecting simulation time stamp and duration.

Mathematical Description

No response

Website

https://www.fein-aachen.org/en/projects/ssmd/

Documentation

https://git.rwth-aachen.de/acs/public/simulation/ssmd/-/blob/master/README.md

Source

https://git.rwth-aachen.de/acs/public/simulation/ssmd

Year

2018

Institution

Institute for Automation of Complex Power Systems, EONERC

Funding Source

No response

Publications

1

Publication List

1. A. Angioni, E. De Din, F. Ponci, A. Monti, “A state-space linear model for distribution grids” (under review)

Use Cases

No response

Infrastructure Sector

• Atmospheric dispersion
• Agriculture
• Biomass
• Buildings
• Communications
• Cooling
• Ecosystems
• Electric
• District heating
• Forestry
• Health
• Hydrogen
• Individual heating
• Land use
• Liquid fuels
• Natural Gas
• Transportation
• Water

Represented Behavior

• Earth Systems
• Employment
• Built Infrastructure
• Financial
• Macro-economy
• Micro-economy
• Policy
• Social

Modeling Paradigm

• Analytics
• Data
• Discrete Simulation
• Dynamic Simulation
• Equilibrium
• Engineering/Design
• Optimization
• Visualization

Capabilities

1. Generate the state-space A and B matrices of electrical distribution grids, including inverter, loads and lines components. The slack bus can be selected depending on the type of grid (conventional- or micro-grid).

Programming Language

• C – ISO/IEC 9899
• C++ (C plus plus) – ISO/IEC 14882
• C# (C sharp) – ISO/IEC 23270
• Delphi
• GAMS (General Algebraic Modeling System)
• Go
• Haskell
• Java
• JavaScript(Scripting language)
• Julia
• Kotlin
• LabVIEW
• Lua
• MATLAB
• Modelica
• Nim
• Object Pascal
• Octave
• Pascal Script
• Python
• R
• Rust
• Simulink
• Swift (Apple programming language)
• WebAssembly
• Zig

Required Dependencies

No response

What is the software tool's license?

None

Operating System Support

• Windows
• Mac OSX
• Linux
• iOS
• Android

User Interface

• Programmatic
• Command line
• Web based
• Graphical user
• Menu driven
• Form based
• Natural language

Parallel Computing Paradigm

• Multi-threaded computing
• Multi-core computing
• Distributed computing
• Cluster computing
• Massively parallel computing
• Grid computing
• Reconfigurable computing with field-programmable gate arrays (FPGA)
• General-purpose computing on graphics processing units
• Application-specific integrated circuits
• Vector processors

What is the highest temporal resolution supported by the tool?

Milliseconds

What is the typical temporal resolution supported by the tool?

None

What is the largest temporal scope supported by the tool?

Minutes

What is the typical temporal scope supported by the tool?

None

What is the highest spatial resolution supported by the tool?

Region

What is the typical spatial resolution supported by the tool?

None

What is the largest spatial scope supported by the tool?

Region

What is the typical spatial scope supported by the tool?

None

Input Data Format

CSV

Input Data Description

No response

Output Data Format

CSV

Output Data Description

No response

Contact Details

Andrea Angioni (aangioni@eonerc.rwth-aachen.de) Edoardo De Din (ededin@eonerc.rwth-aachen.de)

Interface, Integration, and Linkage

No response