The Multi-Sensor and Multi-Temporal Dataset of Multiple Crops for In-Field Phenotyping and Monitoring
Phenotyping is crucial for understanding crop trait variation and advancing research, but is currently limited by expensive, labor-intensive monitoring. New phenotypic trait monitoring methods are being proposed to reduce this so-called phenotyping bottleneck via automation. These methods are often data-driven, requiring a dataset recorded with a specific sensor and corresponding reference values for developing novel methods. To this end, we present the {MuST}-C (Multi-Sensor, multi-Temporal, multiple Crops) dataset, which contains field data from various sensors collected over a growing season, covering six crop species. All data was georeferenced for alignment across sensors and dates. To collect our dataset, we deployed aerial and ground robotic platforms equipped with {RGB} cameras, {LiDARs}, and multispectral cameras, aiming to capture a wide variety of modalities and observations from different viewpoints. In addition to sensor data, we also provide manually collected leaf area index and biomass reference measurements. Our dataset enables the development of novel automatic phenotypic trait estimation methods, allows comparisons across different sensors, and generalizability across crop species.
- Published in:
Scientific Data - Type:
Article - Authors:
- Year:
2026 - Source:
https://www.nature.com/articles/s41597-025-06462-y
Citation information
: The Multi-Sensor and Multi-Temporal Dataset of Multiple Crops for In-Field Phenotyping and Monitoring, Scientific Data, 2026, January, Nature Publishing Group, https://www.nature.com/articles/s41597-025-06462-y, Chong.etal.2026a,
@Article{Chong.etal.2026a,
author={Chong, Yue Linn; Krämer, Julie; Chakhvashvili, Erekle; Marks, Elias; Esser, Felix; Dreier, Ansgar; Rosu, Radu Alexandru; Warstat, Kevin; Pude, Ralf; Behnke, Sven; Muller, Onno; Rascher, Uwe; Kuhlmann, Heiner; Stachniss, Cyrill; Behley, Jens; Klingbeil, Lasse},
title={The Multi-Sensor and Multi-Temporal Dataset of Multiple Crops for In-Field Phenotyping and Monitoring},
journal={Scientific Data},
month={January},
publisher={Nature Publishing Group},
url={https://www.nature.com/articles/s41597-025-06462-y},
year={2026},
abstract={Phenotyping is crucial for understanding crop trait variation and advancing research, but is currently limited by expensive, labor-intensive monitoring. New phenotypic trait monitoring methods are being proposed to reduce this so-called phenotyping bottleneck via automation. These methods are often data-driven, requiring a dataset recorded with a specific sensor and corresponding reference values...}}