A Novel Hybrid Deep Neural Network Model to Predict the Refrigerant Charge Amount of Heat Pumps

Hwang, Jeong‐Hwan; Duhirwe, Patrick Nzivugira; Yun, Geun Young; Lee, Sukho; Seo, Hyeongjoon; Kim, Inhan

doi:10.3390/su12072914

Cited by 8 publications

(3 citation statements)

References 49 publications

(91 reference statements)

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“…The form of learning used in this neural network is called supervised learning, meaning that the network needs to be trained first on examples before it can learn how to accomplish the task [33,34], as opposed to unsupervised learning which is beyond the scope of this work [35,36].…”

Section: System Model Equationsmentioning

confidence: 99%

Off-line Handwritten Signature Verification System: Artificial Neural Network Approach

Tahir¹,

Ausat²,

Bature³

et al. 2021

IJISA

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Nowadays, it is evident that signature is commonly used for personal verification, this justifies the necessity for an Automatic Verification System (AVS). Based on the application, verification could either be achieved Offline or Online. An online system uses the signature’s dynamic information; such information is captured at the instant the signature is generated. An offline system, on the other hand, uses an image (the signature is scanned). In this paper, some set of simple shaped geometric features are used in achieving offline Verification of signatures. These features include Baseline Slant Angle (BSA), Aspect Ratio (AR), and Normalized Area (NA), Center of Gravity as well as the line’s Slope that joins the Center of Gravities of the signature’s image two splits. Before the features extraction, a signature preprocessing is necessary to segregate its parts as well as to eliminate any available spurious noise. Primarily, System training is achieved via a signature record which was acquired from personalities whose signatures had to be validated through the system. An average signature is acquired for each subject as a result of incorporating the aforementioned features which were derived from a sample set of the subject’s true signatures. Therefore, a signature functions as the prototype for authentication against a requested test signature. The similarity measure within the feature space between the two signatures is determined by Euclidian distance. If the Euclidian distance is lower than a set threshold (i.e. analogous to the minimum acceptable degree of similarity), the test signature is certified as that of the claiming subject otherwise detected as a forgery. Details on the stated features, pre-processing, implementation, and the results are presented in this work.

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Section: System Model Equationsmentioning

confidence: 99%

Off-line Handwritten Signature Verification System: Artificial Neural Network Approach

Tahir¹,

Ausat²,

Bature³

et al. 2021

IJISA

View full text Add to dashboard Cite

show abstract

“…Therefore, to adapt the algorithm to other utilities, RES and climates, future research works can employ transfer learning methods. [71][72][73][74][75] Moreover, future studies in this field may also consider using deep reinforcement learning-based approach 76 and adapt it to individual households. Another limitation is that the failure of the PV system will cause the algorithm to switch to the grid indefinitely.…”

Section: Limitation and Future Researchmentioning

confidence: 99%

“…The proposed algorithm is developed for one type of RES (ie, PV system), and the EHP prediction models were evaluated based on the weather conditions of one region in South Korea which somewhat limits its deployment extents. Therefore, to adapt the algorithm to other utilities, RES and climates, future research works can employ transfer learning methods 71‐75 . Moreover, future studies in this field may also consider using deep reinforcement learning‐based approach 76 and adapt it to individual households.…”

Section: Limitation and Future Researchmentioning

confidence: 99%

A novel deep learning‐based integrated photovoltaic, energy storage system and electric heat pump system: Optimising energy usage and costs

et al. 2021

Self Cite

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The use of photovoltaic (PV) systems has drawn attention as a solution to reduce the dependence on fossil fuel for building energy needs. Moreover, incorporating energy storage systems (ESSs) in PV systems can optimise electric energy costs by increasing dependency on PV-generated energy during electric peak load times. However, current ESSs have limited capacities making it difficult to fully maximise PV-generated energy. We propose a novel integrated energy-efficient system for PV, ESS and electric heat pump (EHP) that maximises the usage of PV energy, optimises ESS usage and reduces EHP energy consumption costs. The components of the proposed integrated system are linked with a deep learning (DL)-based algorithm that forecasts PV energy generation and energy demand of the EHP. The proposed system schedules the charging/discharging time of ESSs depending on peak load times, the forecasted EHP electric demand, and PV-generated energy. The data used were collected for 10 months from a retail shop equipped with an EHP and ESS. We found that the developed DL-based forecasting models for PV and EHP are accurate and reliable (ie, R 2 above 0.95). Also, the results show that the proposed integrated energy-efficient PV-ESS-EHP system saves 12% of the total annual electric costs, which corresponds to 1 285 291 Won. The proposed system ensures an efficient method to maximise PV-generated energy resulting in reduced dependency on fossil fuels for building energy needs.

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Construction and verification of retinal vessel segmentation algorithm for color fundus image under BP neural network model

Tang

2020

J Supercomput

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A Novel Hybrid Deep Neural Network Model to Predict the Refrigerant Charge Amount of Heat Pumps

Cited by 8 publications

References 49 publications

Off-line Handwritten Signature Verification System: Artificial Neural Network Approach

Off-line Handwritten Signature Verification System: Artificial Neural Network Approach

A novel deep learning‐based integrated photovoltaic, energy storage system and electric heat pump system: Optimising energy usage and costs

Construction and verification of retinal vessel segmentation algorithm for color fundus image under BP neural network model

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