"# Modeling and Simulation of Complex Power Systems\n",
"# Modeling and Simulation of Complex Power Systems\n",
"\n",
"\n",
"This is the repository of simulation examples based on Jupyter Notebooks. Currently available are: \n",
"## Simulation Examples\n",
"\n",
"On this platform you find the simulation examples based on Jupyter Notebooks. They are presented in the course **Modeling and Simulation of Complex Power Systems** by **Prof. Monti** at the **RWTH Aachen University**. Reviewing and modifying the simulation examples shall support the students in understanding the lecture content. \n",
"\n",
"The following notebooks are currently available: \n",
"Learn how to work with the notebooks by accessing the extensive information under **Help** in the navigation bar. \n",
"As a first starting point you might refer to **Help>Notebook Reference**, where you can find **Notebook Examples** in the user documentation. Important basics are covered in the following sections:\n",
"\n",
"- Notebook Basics\n",
"- Running Code\n",
"- Markdown Cells\n",
"\n",
"### Python\n",
"\n",
"If you need an introduction to the Python language, the **Beginners Guide** under **Help>Python Reference** links to lots of tutorials depending on your previous knowledge.\n",
"\n",
"### IPython\n",
"As a more advanced user, you can benefit from the fact that Jupyter Notebooks run an **IPython** kernel, which comes with additional features with respect to the standard **Python** kernel. To learn more about these features, you can follow under **Help>IPython Reference** the link **IPython documentation** and have a look into **Tutorial>Introducing IPython**.\n",
# Modeling and Simulation of Complex Power Systems
# Modeling and Simulation of Complex Power Systems
This is the repository of simulation examples based on Jupyter Notebooks. Currently available are:
## Simulation Examples
On this platform you find the simulation examples based on Jupyter Notebooks. They are presented in the course **Modeling and Simulation of Complex Power Systems** by **Prof. Monti** at the **RWTH Aachen University**. Reviewing and modifying the simulation examples shall support the students in understanding the lecture content.
Learn how to work with the notebooks by accessing the extensive information under **Help** in the navigation bar.
As a first starting point you might refer to **Help>Notebook Reference**, where you can find **Notebook Examples** in the user documentation. Important basics are covered in the following sections:
- Notebook Basics
- Running Code
- Markdown Cells
### Python
If you need an introduction to the Python language, the **Beginners Guide** under **Help>Python Reference** links to lots of tutorials depending on your previous knowledge.
### IPython
As a more advanced user, you can benefit from the fact that Jupyter Notebooks run an **IPython** kernel, which comes with additional features with respect to the standard **Python** kernel. To learn more about these features, you can follow under **Help>IPython Reference** the link **IPython documentation** and have a look into **Tutorial>Introducing IPython**.
On this platform you find the simulation examples based on Jupyter Notebooks. They are presented in the course **Modeling and Simulation of Complex Power Systems** by **Prof. Monti** at the **RWTH Aachen University**. Reviewing and modifying the simulation examples shall support the students in understanding the lecture content.
Learn how to work with the notebooks by accessing the extensive information under **Help** in the navigation bar.
As a first starting point you might refer to **Help>Notebook Reference**, where you can find **Notebook Examples** in the user documentation. Important basics are covered in the following sections:
- Notebook Basics
- Running Code
- Markdown Cells
### Python
If you need an introduction to the Python language, the **Beginners Guide** under **Help>Python Reference** links to lots of tutorials depending on your previous knowledge.
### IPython
As a more advanced user, you can benefit from the fact that Jupyter Notebooks run an **IPython** kernel, which comes with additional features with respect to the standard **Python** kernel. To learn more about these features, you can follow under **Help>IPython Reference** the link **IPython documentation** and have a look into **Tutorial>Introducing IPython**.
