FrigoSense determines food condition from the air inside your refrigerator. What matters here is not the device but a patented algorithm trained by machine learning. The intelligence is in the software; the hardware is deliberately simple.
What used to require expensive laboratory equipment, FrigoSense does on cheap, reliable hardware — thanks to the algorithm. The value is in the software and the data, not in the hardware.
“Method and means of determining the state of products” is the foundation of the technology.
Trained on a large dataset, it reads patterns rather than a single number.
The device is designed to be as simple and reliable as possible, with minimal maintenance.
The principle is described without technological secrets — calibration, thresholds and signal processing are not disclosed.
The device measures indirect physical signals of the environment around the product — with no direct contact and no laboratory analysis.
The ML model looks for patterns across several channels at once, rather than relying on a single number.
The dashboard shows two separate signals and honestly indicates the level of confidence.
The public demo shows real air readings from a working device: temperature, humidity, CO₂, ammonia and hydrogen sulfide. It is an early-warning monitor, not a microbiological safety test.
FrigoSense separates product-quality clues from temperature-risk history — so that one green indicator never turns into a false promise of safety.
The device watches the air for spoilage-related trends: CO₂, ammonia, hydrogen sulfide and electronic-nose patterns. Useful for early changes in the chamber; works best with unpacked products. It is not a pathogen or histamine test.
Temperature exposure, door events and offline periods are interpreted separately from gases. It shows cold-chain stability and explains temperature abuse. It does not prove food safety.
The product is intentionally honest: it reports air and environment signals, not magical certainty about every product.
When there is not enough signal, it is not a failure. The gas channel cannot confidently judge the quality trend from the air (packaging, weak gas response, recent openings, offline gaps). In that case use temperature history, the use-by date and direct inspection.
Every year billions of dollars of food are wasted globally — much of it right at home. Invisible gases signal spoilage long before we see or smell it.
No. FrigoSense is an early-warning monitor, not a safety certificate. It tracks air and storage-condition signals that can help you inspect products earlier, but it does not replace labels, hygiene rules, direct inspection or laboratory testing.
Temperature, humidity, CO₂, ammonia, hydrogen sulfide and electronic-nose trends. The dashboard also shows device status — battery, firmware and connectivity — when available.
Gas signals may be weak when products are sealed. In that case FrigoSense helps with temperature history and cold-environment monitoring, but it cannot see inside closed packaging.
The gas channel cannot confidently assess the quality trend from the air. Causes include packaging, weak gas response, recent openings or gaps in data. Use temperature history, the use-by date and direct inspection.
No. Those require microbiological testing. FrigoSense reads indirect environmental and gas-pattern signals; it is not a pathogen detector.
Not by itself. The device monitors the shared air in the chamber. Product-specific conclusions require inventory context and validated data, so the dashboard keeps uncertainty visible.
A connected device sends new readings periodically when Wi-Fi is available. The dashboard then shows fresh sensor values, history and AI explanations based on available data.
It is an export for food-safety operations and audits: refrigerator/device, reporting period, temperature history, time outside limits, alerts, corrective actions and data-integrity details. It is not a laboratory safety test or a shelf-life forecast; it is evidence that storage conditions were monitored and deviations were handled.
Battery life depends on firmware settings, Wi-Fi quality, reporting interval and temperature. The dashboard shows battery status when the device reports it.
Yes. Connect the device to Wi-Fi, claim it in the dashboard and place it in the refrigerator away from direct condensation and blocked air circulation.
It is designed primarily for refrigerator conditions. Freezers can reduce gas dynamics and affect battery behavior, so freezer use should be treated as limited monitoring, not as a validated freshness assessment.
We’re onboarding a small group of beta users. Request a demo or join the beta — we’ll reach out with next steps.