Researcher

Research interest in solid oxide fuel cells, energy, computer-assisted numerical analysis, shape memory alloys, composite, vibration, etc.
About

Research interest

Solid Oxide Fuel Cell (SOFC), Renewable Energy, Shape Memory Alloy, Composite, Wind Tunnel Experiment Analysis, Hammer Impact Testing.

About

Recent achievement in publication

Web of Science

Total publications
1
articles
Citing articles
1
articles
Highest times cited
1
times
H-index
1
and keep growing

Update : 3 February 2023
Source

Scopus

Total publications
1
articles
Citing articles
1
articles
Highest times cited
1
times
H-index
1
and keep growing
Update : 3 February 2023
Source

Google scholar

Total publicationsons
1
articles
Citing articles
1
articles
Highest times cited
1
times
H-index
1
and keep growing
i10-index
1
and keep growing
Update : 3 February 2023
Source
About

Latest publications in 2022

Simplex Method for Profit Maximization in Bakery Store

International Journal of Advanced Research in Technology and Innovation, e-ISSN: 2682-8324 | Vol. 4, No. 2, 92-98, 2022

Linear programming is an operational research technique widely used to identify action solutions for managers. The linear programming model explores the efficient use of available raw materials to produce different marketable products. Linear programming will encourage companies to increase production by taking full advantage of this opportunity. However, the trial-and-error approach is most often used by many organizations. As a result, firms find it challenging to allocate scarce resources in a profit-maximizing manner. This study focuses on implementing optimization principles to optimize manufacturing revenues through linear programming to measure production costs and determine their optimal benefits. The study uses data from bakery reports for five market bread: chicken loaf, spicy loaf, curry chicken bun, sausage bun, and a doughnut. The attribute has been identified as a linear programming problem, built mathematically and solved using Excel software. The results show that bakery units should concentrate more on producing chicken puffs and curry chicken buns. In comparison, other products should be produced less because their value becomes zero to reach the maximum monthly profit of RM 38,200. The analysis found that chicken puff and chicken curry buns objectively contribute to the revenue. Therefore, more chicken floss and chicken curry buns must be produced and sold to maximize profit.

An improved K-means algorithm based on min-max distance and BWP metrics

Asian Journal of Fundamental and Applied Sciences, e-ISSN: 2716-5957, Vol. 3, No. 2, 1-9, 2022

The k-means algorithm is a conventional unsupervised cluster analysis algorithm, which is fast and easy to implement. Still, the number of clusters needs to be defined, and selecting the centre of mass is uncertain. A K-means algorithm based on the combination of maximum-minimum distance and Between-Within-Proportion (BWP) metrics is proposed to overcome these limitations. The results of simulation experiments on three datasets in the UCI database show that the proposed algorithm outperforms both the conventional K-means algorithm and the maximum-minimum distance-based K-means algorithm in terms of accuracy and clustering effect.

Pfizer stock price prediction based on extreme learning machine

International Journal of Advanced Research in Engineering Innovation, e-ISSN: 2682-8499, Vol. 4, No. 2, 8-16, 2022

Nowadays, an Extreme learning machine (ELM) is known to be a fast learning algorithm of single-hidden layer feedforward neural network (SLFNs), and overcomes the disadvantages of the classical learning algorithm in neural network methods multiple iterations, huge search space and a large number of calculations, only needs to set the appropriate numbers of hidden layer nodes, assigns the weight of input and deviation of hidden layers without iteration. Research shows that the stock market is a very complex nonlinear system, which requires artificial intelligence theory, statistics theory and economic theory to study the stock price forecast. In this paper, ELM is introduced in predicting the stock price of Pfizer company, and by comparing it with SVM and BP, we analyze its feasibility and advantage in stock price prediction. The experiment results show that ELM is of high accuracy of prediction and apparent advantages in parameter selection and learning speed.

An improved clustering algorithm based on improved artificial bee colony and K-means algorithms

International Journal of Advanced Research in Technology and Innovation, e-ISSN: 2682-8324, Vol. 4, No. 2, 1-9, 2022

To overcome the shortcomings of the K-means clustering algorithm, an improved artificial bee colony algorithm is proposed. By adding a dynamic adjustment factor to the honey source search strategy, the algorithm can automatically adjust the search range in different evolutionary periods, enhancing the algorithm's global search ability and local exploitation ability. The central solution idea, which contains more optimal solution information, is introduced to improve the swarm's search efficiency and accelerate the algorithm's convergence speed. The improved bee colony algorithm is used to optimise the Kmeans algorithm to improve the performance of the clustering effect. The simulation results show that the optimised K-means algorithm has strong stability, and the clustering effect has
been significantly improved.

Numerical analysis of the effect of pore size toward the performance of solid oxide fuel cell

Lecture Notes in Electrical Engineering, Proceedings of the 11th International Conference on Robotics, Vision, Signal Processing and Power Applications - Enhancing Research and Innovation through the Fourth Industrial Revolution, ISBN 978-981-16-8129-5, Volume 829, 2022

The effect of the anode pore size is numerically investigated with the aids of artificial solid oxide fuel cell (SOFC) microstructure information. The standalone effect of the pore size is impossible to be realized by the experimental approach. Additionally, the complete real microstructure information is also limited in the open literature as it required sub-micron 3D imaging equipment. The dusty-gas model is implemented into the developed quasi-3D SOFC model for the gas diffusion in the anode. The model with real microstructure information is successfully validated. The actual anode pore radius of 0.283 lm is artificially replaced with a radius of 0.025, 0.050, 0.250, 0.500, and 2.500 micron. Decrement of area-specific reactant (ASR) for the anode concentration is found with the increment of pore radius. Also, such increment promotes a small increment of ASRs for the anode activation and the anode ohmic loss.

Improved K-Means Clustering for Initial Center Selection in Training Radial Basis Function Networks

Lecture Notes in Electrical Engineering, Proceedings of the 11th International Conference on Robotics, Vision, Signal Processing and Power Applications - Enhancing Research and Innovation through the Fourth Industrial Revolution, ISBN 978-981-16-8129-5, Volume 829, 2022

Radial Basis Function networks accuracies mainly affected by its center selection from dataset. K-means (KM) clustering is a widely in numerous field for data classification and centers selection. However, initial centers selection poses high impact on KM clustering outcome. It suffers from its immense reliance on the initial centers selection algorithm from the dataset. KM algorithm has been enhanced for its performance from diverse perspectives over the years. Nonetheless, a good balance between quality and efficiency of the centers selected by the algorithm is not attained. To overcome this issue, this paper proposed an improvement on KM clustering algorithm in getting initial centers and reduce its sensitivity to initial centers. This paper introduce the use of improved K-means (KM) clustering that consider the each point distance as probability for selecting the initial centers with radial basis function network (RBFN) training algorithm. The proposed approach uses improved KM for centers selection in RBFN training algorithm shows accuracy improvement in predictions and with simpler network architecture compared to the conventional RBFN. The proposed network called IKM-RBFN was tested against the conventional RBFN, KM-RBFN, backpropagation neural network and long short-term memory neural network in FOREX EURUSD pair price predictions. The results are compared to proposed method on its root mean square error (RMSE) and mean absolute error (MAE) results. The proposed method shows promising results in improving RMSE
accuracy over 20% in compared to other tested networks.

Microwave Dielectric Properties and Absorption Analysis for Seashells Through Transmission-Reflection Method Using Waveguides

Lecture Notes in Electrical Engineering, Proceedings of the 11th International Conference on Robotics, Vision, Signal Processing and Power Applications - Enhancing Research and Innovation through the Fourth Industrial Revolution, ISBN 978-981-16-8129-5, Volume 829, 2022

This work is aim to investigate microwave dielectric behavior and microwave absorption of seashells through transmission-reflection method using waveguides. Microwave dielectric and absorption characteristic are judged through the measured reflection and transmission coefficient via two waveguides in conjunction with P-series network analyzer (PNA) from 8.2 GHz to 18 GHz. Anadara granosa seashells are collected in this work for comparison. The measurement was conducted in various temperature, i.e. 35 °C, 50 °C and 60 °C. The sample was prepared in specified dimension, according to the operating frequency range. Results in this study reveals absorption coefficient is function of frequency and dimension. As the frequency increase, the |S11| decrease whereas the |S21| increase. Better absorption was demonstrated by seashells in room temperature than the heated seashell.

About

List of Journal articles

  • Simplex method for profit maximization in bakery store
    International Journal of Advanced Research in Technology and Innovation e-ISSN: 2682-8324 | Vol. 4, No. 2, 92-98, 2022

    Linear programming is an operational research technique widely used to identify action solutions for managers. The linear programming model explores the efficient use of available raw materials to produce different marketable products. Linear programming will encourage companies to increase production by taking full advantage of this opportunity. However, the trial-and-error approach is most often used by many organizations. As a result, firms find it challenging to allocate scarce resources in a profit-maximizing manner. This study focuses on implementing optimization principles to optimize manufacturing revenues through linear programming to measure production costs and determine their optimal benefits. The study uses data from bakery reports for five market bread: chicken loaf, spicy loaf, curry chicken bun, sausage bun, and a doughnut. The attribute has been identified as a linear programming problem, built mathematically and solved using Excel software. The results show that bakery units should concentrate more on producing chicken puffs and curry chicken buns. In comparison, other products should be produced less because their value becomes zero to reach the maximum monthly profit of RM 38,200. The analysis found that chicken puff and chicken curry buns objectively contribute to the revenue. Therefore, more chicken floss and chicken curry buns must be produced and sold to maximize profit.
  • An improved k-means algorithm based on min-max distance and BWP metrics
  • Pfizer stock price prediction based on extreme learning machine
  • An improved clustering algorithm based on improved artificial bee colony and k-means algorithms
  • An improved SIR modek for COVID-19 epidemic In Malaysia
  • Obstructive sleep apnea-hypopnea syndrome prediction using improved BP neural network model
  • Semi-autonomous trolley cart
  • Conceptual design for smart organic waste recycling system
  • Microwave dielectric analysis of thermal degradation on vegetable oils
  • Implementation of multi-component dusty-gas model for species transport in quasi-three-dimensional numerical analysis of solid oxide fuel cell. Part II: direct ammonia fuel
  • Implementation of multi-component dusty-gas model for species transport in quasi-three-dimensional numerical analysis of solid oxide fuel cell. Part I: hydrogen fuel
  • Quasi-three-dimensional numerical simulation of a solid oxide fuel cell short stack: Effects of flow configurations including air-flow alternation
  • Numerical analysis on effect of aspect ratio of planar solid oxide fuel cell fueled with decomposed ammonia
  • A dynamic cellular automaton model for large-scale pedestrian evacuation
  • Simulation of the airflow characteristics inside hard disk drive
  • Microscopic dynamics of pedestrian evacuation in hypermarket
  • Simulating evacuations with obstacles using a modified dynamic cellular automata model
  • Investigation of water hammer effect through pipeline system
  • Development of low wind speed anemometer
  • Optimization model for lathe management
  • Enhancing passive stereo face recognition using PCA and fuzzy c-means clustering
  • Phase transformation temperatures for shape memory alloy wire
About

List of Conference Proceeding articles

  • Numerical analysis of the effect of pore size toward the performance of solid oxide fuel cell
    Proceedings of the 11th International Conference on Robotics, Vision, Signal Processing and Power Applications - Enhancing Research and Innovation through the Fourth Industrial Revolution, ISBN 978-981-16-8129-5 |Lecture Notes in Electrical Engineering,  Volume 829, 150 - 155, 2022

    The effect of the anode pore size is numerically investigated with the aids of artificial solid oxide fuel cell (SOFC) microstructure information. The standalone effect of the pore size is impossible to be realized by the experimental approach. Additionally, the complete real microstructure information is also limited in the open literature as it required sub-micron 3D imaging equipment. The dusty-gas model is implemented into the developed quasi-3D SOFC model for the gas diffusion in the anode. The model with real microstructure information is successfully validated. The actual anode pore radius of 0.283 micron is artificially replaced with a radius of 0.025, 0.050, 0.250, 0.500, and 2.500 micron. Decrement of area-specific reactant (ASR) for the anode concentration is found with the increment of pore radius. Also, such increment promotes a small increment of ASRs for the anode activation and the anode ohmic loss.
  • Improved k-means clustering for initial center selection in training radial basis function networks
  • Microwave dielectric properties and absorption analysis for seashells through transmission-reflection method using waveguides
  • Numerical analysis on the effect of geometry aspect ratio for planar intermediate temperature solid oxide fuel cell
  • Implementation of Microstructure Information into Quasi-3-Dimensional Numerical Analysis of Solid Oxide Fuel Cell
  • Study on moisture content in animal fats using six-port reflectometer (SPR)
  • An incremental clustering algorithm based on Mahalanobis distance
  • Scale deposition analysis of fluid flow characteristic in a concentric reducer using CFD approach
  • Static hole error analysis within laminar and turbulent regime using CFD approach
  • Tesla turbine for energy conversion - an automotive application
  • Effects of traffic speed level on frustration index in cellular automata traffic simulation
  • Computational fluid dynamics analysis of shell-and-double concentric-tube heat exchanger
  • Developing land use scenario dynamics using cellular automata and agent integrated model
  • Optimization of tesla turbine using computational fluid dynamics approach
  • Computational fluid dynamics study for aerofoil
  • Development of Tesla turbine for green energy application
  • Thermo-mechanical properties of shape memory alloy
  • Fundamental frequency of hybrid composite plate embedded with shape memory alloy wire
  • Shape memory alloy hybrid composite plate for vibration control
  • Vibration characteristics of shape memory alloy hybrid composite plate
About

List of Poster

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