Development of deep learning-based mobile application for predicting in-situ habitat suitability of Perilla frutescens L. in real-time

IF 6.3 Q1 AGRICULTURAL ENGINEERING
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Abstract

Species distribution modeling (SDM) can be a valuable tool to improve perilla production by identifying optimal locations for its cultivation in the North Eastern Hill (NEH) region of India. Numerous habitat suitability modeling techniques are available; however, requirement of sophisticated hardware and software for their execution limits their in-situ utility to agriculturalists in real-time. Integrating SDM on edge devices for habitat suitability predictions is challenging due to the computational demands and complexity of current modeling techniques. Hence, in the present study, we developed an artificial intelligence (AI)-based mobile application to predict perilla habitat suitability solely from geographical location. Maximum Entropy (MaxEnt) software with perilla occurrence data from the NEH region was utilized to generate an accurate suitability map (Area Under Curve (AUC) for test data = 0.88). Probabilities and corresponding locations extracted from the suitability map were used as training data for AI models including Random Forest Regression (RFR), Support Vector Regression (SVR), and Artificial Neural Network (ANN). The ANN model, architecture being optimized using a genetic algorithm, achieved the best performance (R² = 0.81). All models show good predictive ability (R² > 0.75) in predicting actual habitat suitability (Residual Prediction Deviation (RPD) > 2.10), and a high degree of relationship between predicted and actual probabilities (AUC > 94.0 %) was also observed. The mobile application integrated with the ANN model achieved high AUC (>97.0 %) and R² (0.82) values for testing locations and predicted known perilla locations with an accuracy of 76.0 %. This shows the practical utility of AI-based mobile application for species distribution modeling and emphasizes its potential for perilla cultivators. The developed user-friendly mobile application may help farmers of NEH region to predict optimal locations for perilla cultivation in real-time with a single click, thereby enhancing sustainable production efficiency and biodiversity conservation efforts in their locales.

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开发基于深度学习的移动应用程序,实时预测紫苏的原生境适宜性
物种分布建模(SDM)是提高紫苏产量的重要工具,它可以确定在印度东北山区(NEH)种植紫苏的最佳地点。目前有许多栖息地适宜性建模技术,但由于需要复杂的硬件和软件来执行,限制了这些技术在农业领域的实时应用。由于当前建模技术的计算需求和复杂性,在边缘设备上集成 SDM 以进行栖息地适宜性预测具有挑战性。因此,在本研究中,我们开发了一个基于人工智能(AI)的移动应用程序,仅从地理位置预测紫苏的栖息地适宜性。利用最大熵(MaxEnt)软件和东北大西洋地区的紫苏发生数据生成了精确的适宜性地图(测试数据的曲线下面积(AUC)= 0.88)。从适宜性地图中提取的概率和相应位置被用作人工智能模型的训练数据,包括随机森林回归(RFR)、支持向量回归(SVR)和人工神经网络(ANN)。使用遗传算法优化结构的人工神经网络模型取得了最佳性能(R² = 0.81)。所有模型在预测实际栖息地适宜性(残差预测偏差(RPD)为 2.10)方面都显示出良好的预测能力(R² = 0.75),同时还观察到预测概率与实际概率之间的高度关系(AUC = 94.0 %)。集成了 ANN 模型的移动应用程序在测试位置方面实现了较高的 AUC 值(97.0%)和 R² 值(0.82),预测已知紫苏位置的准确率为 76.0%。这显示了基于人工智能的移动应用程序在物种分布建模方面的实用性,并强调了其对紫苏种植者的潜力。所开发的用户友好型移动应用程序可帮助东北高原地区的农民一键式实时预测最佳紫苏种植地点,从而提高当地的可持续生产效率和生物多样性保护工作。
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