Estimation of Water Hyacinth Using Computer Vision

Gildas David Farid Adamon, M. A. Konnon, Merscial Raymond, Rodolphe Ndeji, A. Agonman, Adonai Gbaguidi, Togon Clotilde Guidi, L. Fagbemi
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Abstract

The different controls of water hyacinth, an invasive species of tropical and subtropical environ-ments, have demonstrated some limitations requiring additional monitoring tasks to maintain the ecological balance. Therefore, quantifying and valuing this aquatic biomass becomes a sustainable management alternative. However, the water hyacinth estimation remains a challenging task in developing countries with regard to the used methods: empirical relationships between yield and production indices calculated experimentally, structural parameters measured or calculated through specific experiments (not dynamic), etc. These methods lose precision depending on the type of plant, cultural methods and practices and the seasons. Then, it becomes urgent to develop a dynamic estimation method with a proven track record of reliability despite the inconsistency of the factors mentioned above. This article contributes to the improvement of aquatic biomass estimation by proposing a Computer Vision based solution for estimating fresh mass of water hyacinth. To achieve this goal, the morphology of the species is assessed and an XML classifier is developed. This model is then implemented in a mobile app facilitating its end use. The proposed algorithm demonstrated a mean average precision of 96.89%. Considering the recorded level of accurateness, the developed method can be used to estimate different types of biomass.
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利用计算机视觉估计水葫芦
水葫芦是热带和亚热带的一种入侵物种,对水葫芦的不同控制显示出一些局限性,需要额外的监测任务来维持生态平衡。因此,量化和评估这种水生生物量成为一种可持续的管理选择。然而,在使用的方法方面,水葫芦估算在发展中国家仍然是一项具有挑战性的任务:实验计算的产量和生产指数之间的经验关系,通过特定实验(非动态)测量或计算的结构参数等。这些方法因植物类型、栽培方法和实践以及季节而失去精确性。因此,迫切需要开发一种具有可靠跟踪记录的动态估计方法,尽管上述因素不一致。本文提出了一种基于计算机视觉的水葫芦新鲜质量估算方法,有助于提高水生生物量估算的准确性。为了实现这一目标,对物种的形态进行了评估,并开发了XML分类器。然后在移动应用程序中实现该模型,以方便其最终使用。该算法的平均精度为96.89%。考虑到记录的准确性,所开发的方法可用于估算不同类型的生物量。
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