Problem
The Open Source Software page lists packages individually but doesn't show how they connect. The integrated pipeline is the real differentiator — network analysis feeds floodplain delineation, historic imagery feeds change detection, field data flows through to reports.
Proposed Solution
Build an interactive SVG/HTML DAG diagram with hex sticker logos as clickable nodes. Two converging streams:
Network Analysis: Provincial DBs → fresh (model, classify) → breaks (sub-basins) → flooded (floodplain) → drift (change detection) → cd (climate)
Imagery & Monitoring: fly (fetch, georeference) → stac_airphoto_bc (catalog) → diggs (browse) + stac_dem_bc, stac_orthophoto_bc, stac_uav_bc, water-temp-bc
Converging to: gq (styling) → dff-2022 (field) + fpr/ngr (reporting)
Each hex links to the pkgdown site or GitHub repo. Place at top of the Open Source Software page.
Dependencies
References
- Pipeline diagram in
logic/samples/capabilities.md
- Poisson partnership papers for channel width and stream temperature modelling
Problem
The Open Source Software page lists packages individually but doesn't show how they connect. The integrated pipeline is the real differentiator — network analysis feeds floodplain delineation, historic imagery feeds change detection, field data flows through to reports.
Proposed Solution
Build an interactive SVG/HTML DAG diagram with hex sticker logos as clickable nodes. Two converging streams:
Network Analysis: Provincial DBs → fresh (model, classify) → breaks (sub-basins) → flooded (floodplain) → drift (change detection) → cd (climate)
Imagery & Monitoring: fly (fetch, georeference) → stac_airphoto_bc (catalog) → diggs (browse) + stac_dem_bc, stac_orthophoto_bc, stac_uav_bc, water-temp-bc
Converging to: gq (styling) → dff-2022 (field) + fpr/ngr (reporting)
Each hex links to the pkgdown site or GitHub repo. Place at top of the Open Source Software page.
Dependencies
References
logic/samples/capabilities.md