Simulation and Prediction for a Satellite Temperature Sensors Based on Artificial Neural Network

Abdelkhalek, Hamdy Soltan; Medhat, Haitham; Ziedan, Ibrahim; Mohamed, Amal

doi:10.5028/jatm.v11.1055

J.Aerosp. Technol. Manag.

2019

DOI: 10.5028/jatm.v11.1055

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Simulation and Prediction for a Satellite Temperature Sensors Based on Artificial Neural Network

Hamdy Soltan Abdelkhalek

Haitham Medhat

Ibrahim Ziedan

et al.

Abstract: Spacecrafts in space environment are exposed to several kinds of thermal sources such as radiation, albedo and emitted IR from the earth. The thermal control subsystem in spacecraft is used to keep all parts operating within allowable temperature ranges. A failure in one or many temperature sensors could lead to abnormal operation. Consequently, a prediction process must be performed to replace the missing data with estimated values to prevent abnormal behavior. The goal of the proposed model is to predict the… Show more

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Cited by 2 publications

References 27 publications

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Application of artificial neural network to screen out the dominant meteorological parameters for prediction of air temperature

Kumar,

Elumalai

2023

Earth Sci Inform

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The significant meteorological parameter, air temperature (TP), is often measured with limited spatial resolution, which necessitates the prediction of them at places far from monitoring stations and in the cases of accidentally missing data from the data loggers of monitoring stations. This study supports a non-location-specific model for air temperature prediction by combining a three-layer backpropagation artificial neural network (ANN) and meteorological data. The partial mutual information (PMI) algorithm & cross-correlation method incorporated with the ANN model reveals density altitude (DA), heat index (HI), relative humidity (RH), and wet bulb temperature (WB) as potential input variables for the prediction of TP. DA and HI are strongly correlated to TP for the whole year for all types of land covers whereas the dependency of TP on RH varies seasonally. RH is always a topping variable for air temperature prediction, which undoubtedly enhances the prediction accuracy. In pre-monsoon and monsoon, there are only three dominant input variables for the prediction of air temperature, i.e., DA, HI, and RH. In the post-monsoon, WB comes into role as an additional predictor. Using the predictor set of potential input variables, the prediction shows a good agreement between ANN-estimated air temperature and measured air temperature, i.e. the coefficient of determination of 99.46%, 99.23%, 99.73%, and 99.18% for pre-monsoon, monsoon, post-monsoon, and winter season, respectively. ANN modeling is a reliable method for predicting air temperature.

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Application of artificial neural network to screen out the dominant meteorological parameters for prediction of air temperature

Kumar,

Elumalai

2023

Earth Sci Inform

View full text Add to dashboard Cite

show abstract

Improving Brain Tumor Classification: An Approach Integrating Pre-Trained CNN Models and Machine Learning Algorithms

Shoaib,

Zhao,

Emara

et al. 2024

Heliyon

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Simulation and Prediction for a Satellite Temperature Sensors Based on Artificial Neural Network

Cited by 2 publications

References 27 publications

Application of artificial neural network to screen out the dominant meteorological parameters for prediction of air temperature

Application of artificial neural network to screen out the dominant meteorological parameters for prediction of air temperature

Improving Brain Tumor Classification: An Approach Integrating Pre-Trained CNN Models and Machine Learning Algorithms

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