- The short: launch, swath, cadence & data policy
- Farm/floods/faults: where dual-band SAR actually helps
- Access: Earthdata/ASF (Vertex, APIs) and ISRO pathways
- Weekly workflow + product map you can reuse
The short
- Launch: NISAR lifted off on July 30, 2025 aboard GSLV-F16. Its 12-m reflector unfurled during commissioning.
- What it is: First Earth-obs mission with L-band + S-band SAR; ~240 km swath; 3–10 m mode-dependent resolution; global land/ice coverage roughly every 12 days (average sampling ~6 days using ascending/descending passes).
- Data: Free & open via NASA’s Earthdata/ASF DAAC (Vertex web UI, Search API, and
asf_searchPython module).
Farm, floods & faults — where dual bands matter
Agriculture & water
- Crop insurance L-band penetrates canopy → more reliable planted-area & flood-loss maps under cloud cover.
- Soil moisture proxies Combined L/S responses improve change detection across growth stages.
- Groundwater/subsidence Repeated InSAR tracks slow compaction over aquifers & metro corridors.
Disaster & infrastructure
- Floods Wide swath enables basin-scale extent mapping, independent of monsoon cloud cover.
- Landslides & quakes cm-level deformation time-series to flag unstable slopes and post-seismic slip.
- Urban planning Encroachment & subsidence dashboards for city agencies using regular cadence.
How to access NISAR data (early)
- Create an Earthdata Login (free) — single sign-on for NASA DAAC downloads.
- Use ASF Vertex for search & download (or programmatic access via the ASF Search API /
asf_searchPython module). - Practice with official NISAR sample products & tutorials (RTC/InSAR/PolSAR workflows).
- ISRO channels: watch ISRO’s NISAR page and Bhoonidhi for domestic pathways.
Note Commissioning runs ~90 days post-launch; full science ops ramp through late-2025 as cadence and latencies tighten.
Weekly workflow (editorial/ops)
- Define AOIs: districts/basins/slopes; save Vertex queries.
- Pull rapid layers first (water extent/RTC) for flood desks; queue InSAR for deformation time-series.
- Fuse with rainfall & river gauges; publish a map + delta card for each AOI.
- Archive & compare bi-weekly to build your early-warning trendline.
Product map (starter)
| Product | What you get | Use quickly for |
|---|---|---|
| RTC (Radiometrically Terrain-Corrected) | Backscatter maps (L/S) | Flood extent, crop damage, wetness shifts |
| InSAR (displacement) | Phase-based deformation | Landslide creep, subsidence, post-quake slip |
| PolSAR | Polarimetric features | Crop type/structure, urban classification |
Tutorials & sample products for these workflows are available via Earthdata/ASF resources.