Add to ORKGLeaf nitrogen (N) directly correlates to chlorophyll production, affecting crop growth and yield. Farmers use soil plant analysis development (SPAD) devices to calculate the amount of chlorophyll present in plants. However, monitoring large-scale crops using SPAD is prohibitively time-consuming and demanding. This paper presents an unmanned aerial vehicle (UAV) solution for estimating leaf N content in rice crops, from multispectral imagery. Our contribution is twofold: (i) a novel trajectory control strategy to reduce the angular wind-induced perturbations that affect image sampling accuracy during UAV flight, and (ii) machine learning models to estimate the canopy N via vegetation indices (VIs) obtained from the aerial imagery. This appro...
Abstract Background Unmanned aerial vehicle (UAV)-based remote sensing provides a flexible, low-cost...
The knowledge of rice nitrogen (N) requirements and uptake capacity are fundamental for the developm...
The use of Unmanned Aerial Vehicle (UAV) images for biomass and nitrogen estimation offers multiple ...
Leaf nitrogen (N) directly correlates to chlorophyll production, affecting crop growth and yield. Fa...
LNC (leaf nitrogen content) in crops is significant for diagnosing the crop growth status and guidin...
Proof of concept delivered. Three machine learning methods based on multivariable linear regressions...
Remote sensing-based mapping of crop nitrogen (N) status is beneficial for precision N management ov...
Accurate and timely monitoring of leaf nitrogen concentration (LNC) in rice is crucial to optimize n...
<p>Plant nitrogen concentration (PNC) is a critical indicator of N status for crops, and can be used...
This paper presents the integration of an UAV for the autonomous monitoring of rice crops. The syste...
Plant nitrogen concentration (PNC) is a critical indicator of N status for crops, and can be used fo...
Precision agriculture (PA) is an integration of a set of technologies aiming to improve productivity...
Unmanned aerial system (UAS)-based remote sensing is one promising technique for precision crop mana...
ABSTRACT: The Nitrogen content of rice leaves has a significant effect on growth quality and crop yi...
The rapid and accurate acquisition of rice growth variables using unmanned aerial system (UAS) is us...
Abstract Background Unmanned aerial vehicle (UAV)-based remote sensing provides a flexible, low-cost...
The knowledge of rice nitrogen (N) requirements and uptake capacity are fundamental for the developm...
The use of Unmanned Aerial Vehicle (UAV) images for biomass and nitrogen estimation offers multiple ...
Leaf nitrogen (N) directly correlates to chlorophyll production, affecting crop growth and yield. Fa...
LNC (leaf nitrogen content) in crops is significant for diagnosing the crop growth status and guidin...
Proof of concept delivered. Three machine learning methods based on multivariable linear regressions...
Remote sensing-based mapping of crop nitrogen (N) status is beneficial for precision N management ov...
Accurate and timely monitoring of leaf nitrogen concentration (LNC) in rice is crucial to optimize n...
<p>Plant nitrogen concentration (PNC) is a critical indicator of N status for crops, and can be used...
This paper presents the integration of an UAV for the autonomous monitoring of rice crops. The syste...
Plant nitrogen concentration (PNC) is a critical indicator of N status for crops, and can be used fo...
Precision agriculture (PA) is an integration of a set of technologies aiming to improve productivity...
Unmanned aerial system (UAS)-based remote sensing is one promising technique for precision crop mana...
ABSTRACT: The Nitrogen content of rice leaves has a significant effect on growth quality and crop yi...
The rapid and accurate acquisition of rice growth variables using unmanned aerial system (UAS) is us...
Abstract Background Unmanned aerial vehicle (UAV)-based remote sensing provides a flexible, low-cost...
The knowledge of rice nitrogen (N) requirements and uptake capacity are fundamental for the developm...
The use of Unmanned Aerial Vehicle (UAV) images for biomass and nitrogen estimation offers multiple ...