Abstract
Energy system modeling is essential in analyzing present and future system configurations motivated by the energy transition. Energy models need various input data sets at different scales, including detailed information about energy generation and transport infrastructure. However, accessing such data sets is not straightforward and often restricted, especially for energy infrastructure data. We present a detection model for the automatic recognition of pipeline pathways using a Convolutional Neural Network (CNN) to address this lack of energy infrastructure data sets. The model was trained with historical low-resolution satellite images of the construction phase of British gas transport pipelines, made with the Landsat 5 Thematic Mapper instrument. The satellite images have been automatically labeled with the help of high-resolution pipeline route data provided by the respective Transmission System Operator (TSO). We have used data augmentation on the training data and trained our model with four different initial learning rates. The models trained with the different learning rates have been validated with 5-fold cross-validation using the Intersection over Union (IoU) metric. We show that our model can reliably identify pipeline pathways despite the comparably low resolution of the used satellite images. Further, we have successfully tested the model’s capability in other geographic regions by deploying satellite images of the NEL pipeline in Northern Germany.
Highlights
Integrating renewable energy sources (RES) into the existing energy infrastructure is an important research topic in energy system modeling
For the 10−6 learning rate, the very low mean maximum validation Intersection over Union (IoU) score and the very high mean minimum validation loss suggest the non-convergence for all splits
We have shown that historic open-source satellite images are suited to detect pipeline pathways automatically
Summary
Integrating renewable energy sources (RES) into the existing energy infrastructure is an important research topic in energy system modeling. Recent studies investigate the synergies offered by sector-coupling technologies [1] and how they can contribute to the integration of higher shares of RES in the energy system. The coupling between gas and power grids [2,3] is of major interest, where, for example, modern power-to-gas (P2G) technology could be used to store electricity in the gas network [4]. With the rising importance of the different energy grids, energy system modelers face the central problem of insufficient data. A lot of effort has been undertaken to create such open-source data for energy networks
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