Product Roadmap
What's been built.
What's next.
This page reflects what's actually in the codebase — shipped, in-flight, and planned. Dates appear only when something has already shipped.
Shipped
Wi-Fi HaLow planning expanded from a single regional profile to multiple region/country channel plans, with a realistic coexistence and interference model. A new technology-comparison view ranks LoRaWAN, LR-FHSS, Wi-Fi HaLow, and satellite LEO against the same path so you can pick a radio technology for a site. Satellite link reliability modeling and per-pass Doppler detail improved. Report narrative sections added for HaLow coexistence, satellite reliability, and technology comparison.
A full LEO satellite planning workflow: orbit geometry, uplink link budget, pass-window statistics, Doppler analysis, and a payload service-objective verdict, with dedicated report sections. Includes a provider/terminal/antenna catalog and a hybrid terrestrial-plus-satellite coverage view on the map.
Equipment profile snapshots now carry antennaModel and equipment spec IDs echoed on all Node Link responses. The snapshot mapper prefers validated equipment gain over manually-entered values when both are present.
KML/KMZ/CSV/Excel import with server-side parsing. /api/radio-budget endpoint for standalone link budget calculations. Regulatory confidence tiers: Verified / Regional / TBD per site analysis.
Clear separation between point-to-point and point-to-area workflows. Label cleanup, model resolution metadata in responses, placement role definitions.
Solar data persists across project saves and appears in shared/embed reports. Coverage heatmap metadata-only snapshot contract. Share deduplication and password-protected shares. Country/region/frequency funnel telemetry.
Analyzer Workbench enabled for all users (no flag). Workspace status card with 7-state readiness. CountrySelect covering 197 countries. SliderInput rollout across all parameter panels. Mobile overlay controller.
Three-accordion results drawer (Backhaul / Node Link / Gateway Placement) replaces the old tab system. ITU-R P.1546-6 statistical area sweep: place a gateway, scan SF7–SF12 coverage rings, click any grid cell to drill into a P.1812 path profile.
User accounts, saved projects with snapshots, immutable published versions, owner-managed share links at /s/{'{'}slug{'}'} and embeds. Report contract architecture with provenance fields (configured / assumed / measured / derived). Admin ecosystem with RBAC and telemetry.
NumPy vectorization across the path profile engine (10–20× speedup). Deygout convex hull pre-filter (40× for complex terrain). uvicorn multi-worker, threading-local SQLite pools, heatmap LRU cache.
ITU-R P.1812-6 via the Py1812 reference engine. Epstein-Peterson diffraction. Rain attenuation (ITU-R P.838-3 + P.530-18). TalkOut/TalkBack asymmetric link budget. LoRaWAN coverage heatmap. Deployment report (brief + full engineering design).
React + Vite SPA with MapLibre GL 3D terrain. Copernicus GLO-30 30 m DEM integration. ITWOM 3.0 with ITU-R P.2108-1 clutter loss. Antenna pattern database. 12-region LoRaWAN frequency resolver. Dense LoS obstruction detection.
Planned
Items below are on the roadmap but have no committed ship date. Order is indicative, not contractual.
Bandwidth, noise figure, frequency band, and antenna contracts defined per radio technology. Moves the link budget from LoRaWAN-only assumptions to a typed, technology-aware model that supports NB-IoT and LTE-M alongside LoRaWAN.
Full P.1812/P.1546 area workflow with calibration against field measurements, improved coverage reports, and tighter integration between statistical planning and path-specific verification.
Native Android app for offline access to saved projects and analyses in areas without connectivity. Targeted at field technicians who need analysis results at the site without a data connection.
PostgreSQL/PostGIS backend and multi-user team workspaces. Designed for organizations running large-scale deployments across multiple projects and teams.
Ready now
The current version handles complex terrain, 6 propagation models across LoRaWAN, Wi-Fi HaLow, and LEO satellite links. Free to use, no account required for core analysis.
Start Planning →