HADRON
Hearing the true signal in the noise.
A physics-based signal processing method that helps weak, structured signals stand out from noise — demonstrated on real-world data across GPS, radar, wireless and acoustic detection.
Every system listens through noise. HADRON works at the raw signal level — before conventional processing — and lifts a weak, structured signal into view above the noise. It is a detection layer: it reveals that the signal is there.
The core idea
From noise, a cleaner signal.
HADRON operates as a pre-processing layer on raw sensor data. Deterministic. No training data. No changes to existing infrastructure. The downstream system receives a stronger input — and the improvement is measurable.
About JAWD
Signal processing from first principles
JAWD AS is a Norwegian deep-technology company based in Bergen. We developed HADRON — a proprietary signal processing method that works directly on raw sensor data, before conventional processing takes place. It aims to give existing systems cleaner, stronger input — with measurable gains in the cases we have tested.
Physics-based
Not AI, not machine learning. Deterministic and explainable.
Multi-domain
GPS, radar, wireless, sonar, satellite, acoustics.
Real-world data
Measured on real-world data — not simulated.
Patent pending
Proprietary signal processing method.
Technology
A new layer in the signal chain
Our technology enhances raw sensor data before the existing receiver processes it. The result: a cleaner, stronger input, with measurable gains in the cases we have tested. No modifications needed. Measured and repeatable.
Multi-domain
Tested across GPS integrity, radar & imaging clutter, weak-signal detection and acoustic drone detection — one platform, adapted per domain.
Measured results
Real-world data results, measured and repeatable across multiple independent datasets and platforms.
Drop-in deployment
Delivered as software today, with a compact hardware module on the roadmap. No changes to existing infrastructure required.
Technology overview
How HADRON works
Measured performance
Measured on real-world data
Measured on real-world data across every domain we've tested — not in simulation.
GPS under attack
Holds position under live spoofing on recognised public test suites.
Radar & imaging
Targets stand out more clearly from clutter and speckle, across real recordings.
Weak-signal detection
In over-the-air SDR tests, a structured signal stays detectable several dB below where an energy detector goes blind.
Acoustic detection
In early field tests, a small drone was detected acoustically while it was inaudible to the ear. Detection front-end; the drone-or-not decision is a separate layer.
One technology
Wherever signals fight through noise.
Because the processing operates at the fundamental signal level, it applies wherever a weak, structured signal must be found in noise — spotting a faint emitter, or pulling a target out of radar clutter.
Applications
One technology, many domains
GPS anti-spoofing
Helps hold position under spoofing — single antenna, low-cost setup.
Acoustic drone detection
In early field tests, a small drone was detected acoustically while it was inaudible to the ear. HADRON runs as the detection front end; the drone-or-not decision sits in a separate classifier.
Signal detection / SIGINT
A cheap, frequency-blind front end that flags a structured transmission below the energy-detector floor — for spectrum surveillance and low-probability-of-intercept detection. Detection, not decoding.
Radar clutter
Targets stand out more clearly from sea/ground clutter across real radar recordings.
SAR imaging
Targets stand out more clearly from speckle.
Passive sonar
The same coherence-detection mechanism applied to passive listening — surfacing a faint, structured acoustic source against ocean noise. Detection only, not data recovery.
Spotlight · GPS anti-spoofing
Holds position under attack.
GPS spoofing is a growing threat to vehicles, drones, and critical infrastructure. HADRON maintains correct position even under active spoofing — using deterministic signal processing.
Holds position in the tests we ran
Across the public spoofing test suites we ran, the receiver kept reporting position. Navigation track: promising — not yet operationally certified.
No special hardware
A single antenna and low-cost equipment. Deterministic — no training data.
Contact
Let's talk
Interested in evaluating HADRON on your own raw data, a partnership, or API access? We welcome enquiries from technology partners, investors, and organisations evaluating the technology for their domain.
jawdas@jawdas.comDaniel Hammenfors — Founder & CEO
Bergen, Norway · Org.nr 917 155 658