(5) Plant science in the age of simulation intelligenceM. Stock, O. Pieters, T. De Swaef and F. Wyffels(2024) FRONTIERS IN PLANT SCIENCE. 14, 1299208. |
(4) Leveraging plant physiological dynamics using physical reservoir computingO. Pieters, T. De Swaef, M. Stock and F. wyffels(2022) SCIENTIFIC REPORTS. 12, 12594. |
(3) Hydraulics and beyond: a review on water potential as pivotal driver of physiological processes in plant modelsT. De Swaef, O. Pieters, S. Appeltans, I. Borra-Serrano, W. Coudron, V. Couvreur, S. Garré, P. Lootens, B. Nicolaï, L. Pols, C. Saint Cast, J. Šalagovič, M. Van Haeverbeke, M. Stock and F. wyffels(2022) IN SILICO PLANTS. 4, 1-28. |
(2) Limitations of snapshot hyperspectral cameras to monitor plant response dynamics in stress-free conditionsO. Pieters, T. De Swaef, P. Lootens, M. Stock, I. Roldán-Ruiz and F. wyffels(2020) COMPUTERS AND ELECTRONICS IN AGRICULTURE. 179, 105825. |
(1) Gloxinia - An open-source sensing platform to monitor the dynamic responses of plantsO. Pieters, T. De Swaef, P. Lootens, M. Stock, I. Roldán-Ruiz and F. wyffels(2020) SENSORS. 20, 3055. |