Generating Binary Species Range Maps

arXiv - QuanBio - Quantitative Methods Pub Date : 2024-08-28 DOI:arxiv-2408.15956

Filip Dorm, Christian Lange, Scott Loarie, Oisin Mac Aodha

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Abstract

Accurately predicting the geographic ranges of species is crucial for assisting conservation efforts. Traditionally, range maps were manually created by experts. However, species distribution models (SDMs) and, more recently, deep learning-based variants offer a potential automated alternative. Deep learning-based SDMs generate a continuous probability representing the predicted presence of a species at a given location, which must be binarized by setting per-species thresholds to obtain binary range maps. However, selecting appropriate per-species thresholds to binarize these predictions is non-trivial as different species can require distinct thresholds. In this work, we evaluate different approaches for automatically identifying the best thresholds for binarizing range maps using presence-only data. This includes approaches that require the generation of additional pseudo-absence data, along with ones that only require presence data. We also propose an extension of an existing presence-only technique that is more robust to outliers. We perform a detailed evaluation of different thresholding techniques on the tasks of binary range estimation and large-scale fine-grained visual classification, and we demonstrate improved performance over existing pseudo-absence free approaches using our method.

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生成二进制物种分布图

准确预测物种的地理分布范围对于协助物种保护工作至关重要。传统上，物种分布图是由专家手动绘制的。然而，物种分布模型（SDM）以及最近基于深度学习的变体提供了一种潜在的自动化替代方法。基于深度学习的物种分布模型会生成一个连续概率，代表一个物种在给定地点的预测存在概率，必须通过设置每个物种的阈值对其进行二值化处理，以获得二值分布图。然而，选择适当的物种阈值来对这些预测进行二值化并非易事，因为不同的物种可能需要不同的阈值。在这项工作中，我们对不同的方法进行了评估，以自动识别最佳阈值，从而使用纯存在数据对范围图进行二值化。其中包括需要生成额外伪存在数据的方法，以及只需要存在数据的方法。我们还提出了对现有纯存在技术的一种扩展，这种技术对异常值更有鲁棒性。我们在二进制范围估计和大规模细粒度视觉分类任务中对不同的阈值技术进行了详细评估，并利用我们的方法展示了比现有无伪存在方法更高的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuanBio - Quantitative Methods

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