Optimise Crop Health with
Hyperspectral Insights from Pixxel’s Satellites

Pixxel’s satellites capture imagery across up to 150 spectral bands, enabling accurate crop classification and supporting sustainable agricultural practices.

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Hyperspectral data helps identify in-field patterns and regional trends, allowing for precise problem detection, targeted planning, and responsible resource use. This technology also enables continuous monitoring of crop variations, improving decision-making throughout the growing season.

With 5-metre spatial resolution, Pixxel’s satellites reveal detailed insights into crop variation, biochemical composition, and overall health.

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Hyperspectral data detects nutrient deficiencies, vegetation stress, and soil imbalances, enabling timely interventions that improve yields, reduce costs, and optimise resource allocation. Continuous monitoring empowers precise action for healthier crops, soil recovery, and long-term agricultural sustainability.

Pixxel’s hyperspectral satellites offer daily global revisit, making it possible to detect crop diseases and pest outbreaks before visible symptoms appear.

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By identifying early stress signals, the technology enables timely action to mitigate risks and minimise losses. Agronomists can monitor crop performance more precisely and respond effectively to both biotic and abiotic stressors, ensuring stronger yields at harvest.

Pixxel's hyperspectral technology delivers 10x more data than conventional satellites, allowing for precise crop species and variety classification.

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Hyperspectral imaging supports smarter fertilisation strategies by assessing plant health, analysing soil conditions, and identifying effluent issues. The technology also helps detect early signs of crop stress before they become visible, improving response time and effectiveness.