Data-driven definition and modelling of plant growth

IF 6.3 Q1 AGRICULTURAL ENGINEERING Smart agricultural technology Pub Date : 2024-07-01 DOI:10.1016/j.atech.2024.100495
Vijja Wichitwechkarn , William Rohde , Charles Fox , Ruchi Choudhary
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引用次数: 0

Abstract

Many horticultural tasks require a definition of and means to measure ‘plant state’, a quantity that is used to represent and compare plants. The plant state's evolution through time (plant growth) can then be tracked. This is often performed informally by humans based on heuristic features for particular plant types. It can be used for example to recommend interventions to catch up on expected growth, or to measure the effects of experimental interventions on growth. This work provides a purely data-driven definition, that is easy to train, easy to non-destructively acquire training data, does not require expert annotations, and is easy to compute for any new plant type and growing conditions. The presented method is applied to a dataset of lettuce plants where it exceeds the performance of a hard baseline. This work also demonstrates that the presented method retains the intuitive properties expected for a plant growth model. Open source code implementation and data is provided.

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数据驱动的植物生长定义和建模
许多园艺工作都需要对 "植物状态 "进行定义和测量,"植物状态 "是一个用来表示和比较植物的量。然后可以跟踪植物状态随时间的演变(植物生长)。这通常是由人类根据特定植物类型的启发式特征非正式完成的。例如,它可用于推荐干预措施,以赶上预期的生长速度,或衡量实验干预措施对生长的影响。这项工作提供了一种纯粹由数据驱动的定义,它易于训练、易于非破坏性地获取训练数据、不需要专家注释,并且易于为任何新的植物类型和生长条件进行计算。该方法被应用于生菜植物数据集,其性能超过了硬基线。这项工作还证明,所提出的方法保留了植物生长模型应有的直观特性。提供了开放源代码实现和数据。
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