基于H2O深度学习框架和套袋的混凝土坍落度模型计算，降低噪声和过拟合影响

Q3 Decision Sciences

JOIV International Journal on Informatics Visualization Pub Date : 2023-06-13 DOI:10.30630/joiv.7.2.1201

S. Santosa, Yonathan P. Santosa, Garup Lambang Goro, -. Wahjoedi, Jamal Mahbub

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引用次数: 0

摘要

混凝土坍落度试验的混凝土配合比设计特点较多，噪声较大。这些数据会影响机器学习的预测。本研究旨在实验H2O深度学习框架和Bagging对噪声数据和过度拟合的避免，以创建混凝土坍落度模型。数据包括水泥、高炉矿渣、粉煤灰、水、高效减水剂、粗骨料、细骨料、年龄、坍落度和抗压强度。混凝土混合设计的主要数据，使用来自默拉皮火山、穆蒂兰山和卡利奥罗的细骨料材料。粗骨料采自帕莫坦、杰帕拉、三宝垄、云加兰和Mojosongo Boyolali中爪哇。水泥使用Gresik和Holcim产品，水来自三宝垄的Tembalang。实验模型采用激活函数TanH，输入层7个神经元，隐藏层20个神经元，输出层1个神经元，参数L1=1.0E-5, L2=0.0, max weight=10.0, epsilon=1.0E-8, rho=0.99, epoch=800，可以实现RMSE为2.272。该结果表明，引入Bagging后，与没有Bagging的模型相比，误差可以减少到2.5 RMSE左右(降低50%)。人工测试的混合数据用于模型评估。结果表明，该模型能够达到RMSE 0.568。通过本研究，该模型可用于进一步的研究，如创建坍落度设计实习设备/应用软件。

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Computational of Concrete Slump Model Based on H2O Deep Learning framework and Bagging to reduce Effects of Noise and Overfitting

Concrete mixture design for concrete slump test has many characteristics and mostly noisy. Such data will affect prediction of machine learning. This study aims to experiment on H2O Deep Learning framework and Bagging for noisy data and overfitting avoidance to create the Concrete Slump Model. The data consists of cement, blast furnace slag, fly ash, water, superplasticizer, coarse aggregate, fine aggregate, age, slump, and compressive strength. A primary data for concrete mixed design using the fine aggregate material from Merapi Volcano, the hills of Muntilan, and Kalioro. The coarse aggregate was obtained from Pamotan, Jepara, Semarang, Ungaran, and Mojosongo Boyolali Central Java. The cement was using Gresik and Holcim product and the water was from Tembalang, Semarang. The experiment model with one input layer with 7 neurons, one hidden layer with 20 neurons, and one output layer with 1 neuron using activation function TanH, with parameter L1=1.0E-5, L2=0.0, max weight=10.0, epsilon=1.0E-8, rho=0.99, and epoch=800 is able to achieve RMSE of 2.272. This result shows that after introducing Bagging, the error can be reduced up to 2.5 RMSE approximately (50% lower) compared to the model without Bagging. The manually tested mixture data was used to model evaluation. The result shows that the model was able to achieve RMSE 0.568. Following this study, this model can be used for further research such as creating slump design practicum equipment/ application software.

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