Hamidreza Ostadabbas
My name is Hamidreza Ostadabbas and I got my bachelor in surveying engineering and master in geoinformatics. my personal interest is working with open source software in GIS field and developing plugins in QGIS and also developing WebGIS. I am official member of CLGE organization as young surveyors representative.
Sessions
In this workshop we will first show you how to get started with plugin installation and plugin development using PyQGIS and related Python packages in QGIS for automatic map generation.
If the participants can follow me, we will follow these instructions.
1. Plugin installation and plugin builder configuration
2. Write simple Python code to upload a shape or geo package or PostGIS layer to QGIS desktop and add it to the plugin with the appropriate PyQT design.
3. some symbols and map creation and creating a special button in plugin to do such actions automatically.
I will consider this workshop for beginner and intermediate level, but understanding of QGIS is necessary.
In the context of climate change, the increasing demand for energy-efficient buildings and sustainable urban development has become a pressing issue due to the significant proportion of global energy consumption and carbon dioxide (CO2) emissions
attributable to the building sector. This requires a concerted effort to reduce its environmental impact, and Geographic Information
System (GIS) applications are vital tools for achieving this by optimizing heat supply, calculating costs, analyzing profitability, and
balancing CO2 emissions. This study aims to address the challenge of achieving energy efficiency and reducing CO2 emissions in
the building sector, specifically at the district level. To this end, the research objective is to develop a QGIS plugin that can simulate
urban energy demand at the district level by integrating 2D data with CityGML files and connecting QGIS to SimStadt software
via API to visualize the simulated urban energy results in 3D on the Web Globe. The proposed plugin leverages the open-source
QGIS tool QField to capture building conditions and connect 2D and 3D data on urban energy simulation. Supplementary to this,
this plugin provides up-to-date information on energy demand, consumption, CO2 emissions, building component conditions via
updating related tables in the database. Decision-makers can use this comprehensive and user-friendly tool to understand and act on
the results, ultimately leading to a CO2-neutral district by 2045. The development of the QGIS plugin represents a significant step
towards sustainable urban development and climate change mitigation by utilizing GIS applications for optimizing energy demand
and reducing CO2 emissions in the built environment.