动物产品生产中的人工神经网络

Sára Ágnes Nagy, István Csabai, Tamás Varga, Bettina Póth-Szebenyi, György Gábor, Norbert Solymosi
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引用次数: 0

摘要

人工智能(AI)的兴起在农业领域并没有被忽视。动物生产中产生的大量数据(“大数据”)的处理越来越多地使用人工智能,特别是机器学习(ML)。机器学习是人工智能的一个分支,其中算法被自动训练以使用给定的数据集解决感兴趣的任务。机器学习有几个子领域,其中我们关注的是人工神经网络(ANNs),它在农业中应用最成功。人工神经网络的基本单位是人工神经元。它们彼此连接,就像大脑中的突触一样,形成一个网络。人工神经网络可以被认为是复杂的数学模型,它可以在考虑数百万个参数的学习过程后,根据给定的数据做出预测。由于它们非常灵活,这些网络在许多领域都有广泛的应用。其中一个领域是农业的一个子集,即动物生产。在我们的工作中,我们概述了人工神经网络的一般结构和操作。我们提供了深入了解的指标广泛用于表示预测的准确性和他们的计算方法。可能的应用用具体来自粮食生产领域的例子加以说明。除了牛、猪和家禽养殖场的问题外,所引用的作品还应对水产养殖和养蜂人面临的挑战,这一事实说明了广泛的应用范围。尽管人工神经网络有很多优点,但它不能解决所有类型的问题。因此,在我们的工作中,我们也关注该方法的局限性。我们的工作有助于农业背景下人工智能、机器学习和人工神经网络的定义。
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Mesterséges neurális hálózatok az állatitermék-előállításban
The rise of artificial intelligence (AI) is not going unnoticed in the agricultural sector. The processing of the large amounts of data (’big data’) generated in animal production is increasingly being done using artificial intelligence, particularly machine learning (ML). Machine learning is a branch of AI, in which algorithms are automatically trained to solve a task of interest using a given dataset. There are several sub-areas of ML, of which we focus on artificial neural networks (ANNs), the most successfully used in agriculture. The basic units of an ANN are artificial neurons. These are connected to each other similarly to synapses in the brain, forming a network. ANNs can be considered complex mathematical models that can make predictions from given data after a learning process, taking into account millions of parameters. Because they are pretty flexible, these networks have a wide range of applications in many fields. One such field is a subset of agriculture, namely animal production. In our work, we outline the general structure and operation of ANNs. We provide insight into the metrics widely used to indicate the accuracy of prediction and their calculation methods. Possible applications are illustrated with examples specifically from the field of food production. The wide range of applications is illustrated by the fact that the works cited also respond to the challenges faced by aquacultures and beekeepers, in addition to the problems of cattle, pig and poultry farms. Despite their many good features, ANNs cannot solve all problems, regardless of type. Therefore, in our work we also concern about the limitations of the method. Our work contributes to the definition of artificial intelligence, machine learning, and artificial neural networks in the context of agriculture.
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