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3 years ago
# Roches Beach coastal hazard probabilistic assessment
YOOOO
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## Workflow
#### 1. Open anaconda prompt.
Double-click `anaconda-prompt.bat`
(All further commands should be entered into this prompt)
#### 2. Generate ZSA and ZRFC recession tables.
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The package required to calculate setbacks based on Nielsen et al. (1992) can be found here:
http://git.wrl.unsw.edu.au:3000/coastal/nielsen
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```shell
> cd lidar
> python generate_recession_tables.py
```
The setback chainages are saved here:
lidar/
├── recession_results_zrfc.csv
└── recession_results_zsa.csv
The profile cross-sections are plotted here:
lidar/
└── png
├── P1.png
├── P2.png
└── ...
#### 3. Prepare input files
Update values in `adopted-input-values.xlsx`
Generate `yaml` files:
```shell
> cd ../inputs
> python get_adopted_input_values.py
```
The `yaml` files are saved here:
probabilistic-analysis/
├── Roches P1.yaml
├── Roches P2.yaml
└── ...
#### 4. Run probabilistic simulation
```shell
> cd ../probabilistic-analysis
> python probabilistic_assessment.py
```
Chainage setbacks are saved in csv files, and diagnostics are saved in csv/png files here:
probabilistic-analysis/
└── output_csv
│ ├── Roches P1 2022 ZRFC.csv
│ ├── Roches P1 2022 ZSA.csv
│ ├── Roches P1 2050 ZRFC.csv
│ └── ...
└── diagnostics
├── Roches P1 2022 ZRFC.csv
├── Roches P1 2022 ZSA.csv
├── Roches P1 ZRFC scatter.png
├── Roches P1 ZRFC timeseries.png
└── ...
#### 5. Generate hazard line shapefile
```shell
> cd ../probabilistic-analysis
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> python csv_to_shp.py
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```
Shapefile is saved here:
probabilistic-analysis/
└── output_shp
├── hazard-lines.dbf
├── hazard-lines.prj
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└── hazard-lines.shp
#### 6. Export maps
```shell
> cd ../qgis
> export.bat
```