Our Technology

Next Generation Weather Intelligence

The Data Fabric

A comprehensive mesh of space, ground, and balloon sources powering the world's most accurate weather models.

Space‑Borne

We tap global satellites for multi‑spectral imagery that reveals cloud micro‑physics, water‑vapor depth, and motion vectors in near‑real‑time — the macro context every hi‑res model needs.

Ground‑Borne

Dense radar nets and surface stations add sub‑km detail: precip type, rate, pressure perturbations, gust fronts. Perfect fuel for our generative down‑scalers.

Balloon‑Borne

SpyroMesh super‑pressure balloons cruise >30 days at fixed flight levels, streaming wind, humidity, temperature and pressure at densities orders‑of‑magnitude above legacy radiosondes.

MISSION‑SPECIFIC FEEDS

Our ingestion framework is modular — we can spin up or retire sensors for every deployment. Proprietary partner streams, industry datasets, experimental sensors: if it measures the atmosphere, we weave it into the fabric.

Our Proprietary Data Edge

Purpose‑built hardware that eliminates the blind spots in global atmospheric observation.

Long‑life platforms

Custom-built superpressure balloons cruise for months, surviving diurnal heating cycles and cold night cycles.

Rich sensor stack

Every craft collects wind speed & direction, temperature, humidity, pressure and GPS.

Programmed altitude

Each craft can be programmed execute flights over a specific calculated altitude, capturing exactly the data we need.

Ultra‑dense coverage

Continuous tracks deliver ~10,000 × the data captured by traditional weather balloons — especially in data‑sparse oceans and the tropics.

Built 100% in‑house

From balloon film design to flight electronics, every component is built by our team, giving us tight control over cost, QA, and upgrade cadence.

Cost‑efficient scale

In-house manufacturing drives unit cost <$20, enabling us to consistently supplement swarms and to launch for custom missions.

Real‑time feedback loop

We continuously ingest our balloon data, slashing drift in weather forecasts biases, and helping identify weather phenomenon like jet‑streams, tropopause folds, and other high‑impact layers.

Multi‑Modal
Assimilation Engine

Our pipeline pulls in satellite images, radar scans, and our own balloon data, and blends them into a gridded format our model ingests.

Probabilistic weather forecasting
Our generative forecasts enable probabilistic forecasting, showing the full spread of possible outcomes, instead of one overconfident guess.
Wind‑Type Segmentation Models
Specialized detection networks flag jet-stream limbs, tropopause-folds, and high-shear turbulence cells for aviation and stratospheric ops.
Real‑Time Feedback Loop
Ability to to stream telemetry, like Spyro Mesh balloon swarms to continuously create fresh initial conditions for our forecasting model.
Generative Upscaling Model
Physics-guided super-resolution upscaling model increases the resolution of precipitation and wind profiles.

By ingesting observations directly, we reduce the error in our initial conditions.

Tailored Solutions

Our forecasting models are designed to be modular and adaptable, allowing us to create custom solutions for specific use cases and industries.

Problem‑First

We begin with the client's mission goals and design the entire tool‑chain backwards from those KPIs.

Integrated Stack

Owning the balloons, the AI models, and the UX layer means one tightly‑coupled product — not a vendor patchwork.

White‑Glove Onboarding

We embed with client teams during rollout, elevate ops staff, and deliver workflow‑specific playbooks.

Living Roadmap

Front‑line feedback fuels new features and model tweaks so your tools evolve with your mission.

Long‑Term Partnership

Dedicated engineers and 24 / 7 support ensure fast iteration and relationships measured in years — not hand‑offs.

Use Cases

Our advanced atmospheric modeling technology enables a wide range of applications across different industries.

Aviation and UAS

Sub‑km wind‑shear / turbulence nowcasting, optimal flight‑level routing, fuel‑burn minimization

Weather Modification

Seed‑ready cloud detection, launch‑window alerts, seed‑particle dispersion trajectory modeling

Renewable Energy

Site‑specific wind forecasts, ramp‑rate alerts for grid and trading desks

Emergency Management

Rapid‑refresh severe‑storm and wildfire‑smoke plume guidance for first responders

Defense and Aerospace

High‑altitude mission planning and persistent ISR balloon path optimization

Climate Research

High‑resolution stratospheric datasets for atmosphere & climate‑change studies

Experience Our Models

Discover how our advanced atmospheric modeling technology can transform your operations with accuracy and reliability.