Browsing by Author "Fatinah Mohd Rahalim"
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Publication A Conceptual Model of Dual-Mode Tomography Technique for Dental Diagnostics(Malaysian Society for Computed Tomography & Imaging Technology, 2023-06-29) ;Nur Syafiqah Amirah Ab Sukor ;Juliza Jamaludin ;Normaliza Ab Malik ;Fatinah Mohd Rahalim ;Nur Rasyiqah Mohd FauziFarah Aina JamalMonitoring changes intooth structures and early diagnosis of carious lesions require quantitative imaging techniques. A chalky white spot on the tooth’s surface indicates enamel demineralization, early stage of thecarious lesion. Many advanced imaging modalities for identifying tooth tissuesimagehave been created, including magnetic resonance imaging(MRI), X-ray Computed Tomography, Positron Emission Tomography (PET), ultrasound, Single Photon Emission Computed Tomography (SPECT), and the most recent, Optical Coherence Tomography (OCT). In obtaining image information, some modalities use high dosesof radiation and energy that might harmpatient’s health. Most early commercial OCTs had limitations,such as bulkysizeandlow image resolution. To address the issues, this study proposes a dual mode tomography technique by combining OCT and ultrasound systemusing COMSOLMultiphysics software.Both methods offered non-invasive, non-ionizing, economical, and painless imaging techniques.The application of ultrasound system will help to overcome the OCT’s limitation to detect the penetration depth of caries lesion. Several simulations were performed to analyze the light and ultrasonic propagated waves which penetrate through the incisor teeth. In response to this goal, images of incisor teeth were created in silico with a high spatial resolution. As a result, the combination of OCT and ultrasound may offer the best approach for displaying and examiningchanges inthe oral cavity. - Some of the metrics are blocked by yourconsent settings
Publication Analysis on Clarity of Rubies Gemstones Using Charge-Coupled Device (CCD)(MyCT Publishers, 2021) ;Fatinah Mohd Rahalim ;Juliza Jamaludin ;Syarfa Najihah Raisin ;Irneza Ismail ;Yasmin Abdul Wahab ;Ruzairi Abdul Rahim ;Mus'ab Sahrim ;Sharma Rao Balakrishnan ;Wan Zakiah Wan Ismail ;Farah Aina Jamal MohamadNur Arina Hazwani Samsun ZainiRuby is one of the most precious gemstones on Earth that is always high in demand especially in the jewelry industries. Due to its high value and very expensive, a lot of imitation of ruby has been made. This results in the rising of more complicated issues as gemologists need to perform the grading valuation very carefully and precisely. The current and common grading techniques mostly depend on human vision, which eventually leads to error. This paper aims to analyze the clarity of rubies gemstones using Charge-Coupled Device (CCD). The CCD detects the light intensity and then convert the light intensity value into the voltage value. The CCD sensor is very special in its architecture design, consisting of more than 1000 very small pixels that are sensitive to light sources. Based on the previous research, CCD has high sensitivity to laser light source with wavelength range within 430 nm to 650 nm. This research is going to prove that CCD is able to detect the clarity of various grading of the pink to blood-red ruby stones. - Some of the metrics are blocked by yourconsent settings
Publication Cyber-Physical System (CPS) Application-A REVIEW(Institut Teknologi Nasional Bandung, 2020) ;Syarfa Najihah Raisin ;Juliza Jamaludin ;Fatinah Mohd Rahalim ;Farah Aina Mohd Jamal ;Nur Arina Hazwani Samsun ZainiBushra NaeemDue to its vast number of suitable applications, Cyber-Physical Systems (CPS) has been one of the emerging and rapidly-developed technologies in modern life. Its applications can be integrated and deployed in numerous sectors, for instance the automobile, home appliances, medical and industrial sectors. This field has seen immense development and research taking place, including the architecture model, security, communications mode, control systems model and also signal processing. CPS plays an important role in Industrial Revolution 4.0, where it is an integration of urbane network with intelligent production or process system.CPS main objective is to control the global networks with high credibility of data secured.This paper is basically a review of the CPS architectures, characteristics and its applications in daily basis. This review paper discusses how CPS are implemented in various industries and how it improves the efficiency of a system or application. Additionally, security enhancements in certain aspects of CPS application will also be reviewed and addressed. - Some of the metrics are blocked by yourconsent settings
Publication Gas-solid Two-phase Flow of Pulverized Coal by ECT: A Review(MyCT Publishers, 2021) ;Nur Arina Hazwani Samsun Zaini ;Ruzairi Abdul Rahim ;Juliza Jamaludin ;Herman Wahid ;Mimi Faisyalini Ramli ;Nasarudin Ahmad ;Mohamad Shukri Manaf ;Yusri Md. Yunos ;Anita Ahmad ;Ahmad Azahari Hamzah ;Chan Kok San ;Farah Aina Jamal Mohamad ;Navintiran ;Syarfa Najihah RaisinFatinah Mohd RahalimElectrical capacitance tomography (ECT) is a non-intrusive and non-invasive internal visualization tool that facilitates improved quantification by producing cross-sectional distribution information for any kind of multiphase flow. In a coal-fired power station, there are some concerning issues such as the sedimentation of pulverized coal in the piping system before it reaches the boiler system and the non-uniformity of its velocity, which contributes to a reduction in electricity generation and higher carbon dioxide emissions. The aim of this paper is to provide a review based on various research works on pulverized coal that utilized ECT system. This paper also consists of principle of ECT, image reconstruction, and velocity measurement. Further research and works will be executed based on the preliminary data gained to improve the existing works. - Some of the metrics are blocked by yourconsent settings
Publication NDT-Defect Detection on Concrete using Ultrasonic: A Review(MyCT Publishers, 2021) ;Farah Aina Jamal Mohamad ;Ruzairi Abdul Rahim ;Nasarudin Ahmad ;Juliza Jamaludin ;Sallehuddin Ibrahim ;Mohd Hafiz Fazalul Rahiman ;Nur Arina Hazwani Samsun Zaini ;Navintiran ;Syarfa Najihah RaisinFatinah Mohd RahalimNon-destructive test (NDT) is widely used in industrial applications due to its reliability as well as flexibility. Rather than other methods, NDT is more suitable and practical to be performed in order to detect flaws and deterioration in concrete structures. This paper provides a review by studying various research works on concrete by performing ultrasonic technique NDT. In particular, the working principle of ultrasonic NDT, type of sensor and techniques adopted in ultrasonic NDT are briefly described in this paper. Further research based on preliminary data will be conducted to improve previous experimental work. - Some of the metrics are blocked by yourconsent settings
Publication Non-invasive Grading Technique For Ruby Gemstone Using Charge-coupled Device (CCD)(Penerbit UTM Press, 2023) ;Fatinah Mohd Rahalim ;Juliza JamaludinSyarfa Najihah RaisiNRuby is one of the most popular and high-value gemstones that always attract the gemologist and jeweler in the diamond market. The wide use of ruby in various industries makes the grading of this gems more complicated due to a lot of synthetic and imitation rubies are made. The current grading techniques are mostly depending on the human visual assessment which prone to errors. This paper proposes a system that helps in grading the clarity characteristic of the ruby in non-invasive manner. The system includes a charge-coupled devices (CCD) and laser that is designed in the most suitable and effective way to conduct inspection on the light intensity of the ruby which will then determine the clarity of the ruby. CCD linear sensor is widely known as the reliable sensor especially when use in the optical system. The CCD linear sensor capture the light intensity from the ruby and convert it into the voltage value. The result shows a value of 1.7918 V obtained from the CCD linear sensor when ruby is placed in the system. This concludes that the CCD system can detect even slightest changes in the light intensity that can pass through the ruby and falls on the CCD linear sensor. The system is proven to be a reliable and effective system with 80% accuracy. - Some of the metrics are blocked by yourconsent settings
Publication Simulation Study on CCD Tomography System for Ruby Stone Optical Properties(MyCT Publishers, 2021) ;Syarfa Najihah Raisin ;Juliza Jamaludin ;Irneza Ismail ;Yasmin Abdul Wahab ;Ruzairi Abdul Rahim ;Mus'ab Sahrim ;Sharma Rao Balakrishnan ;Wan Zakiah Wan Ismail ;Fatinah Mohd Rahalim ;Farah Aina Mohd JamalNurul Arina Hazwani Samsu ZainiNinety percent of the ruby stones available worldwide come from Myanmar. Malaysia is known to be one of the countries that have been importing ruby stones for precious stone industries, manufacturing industries, medical and dentistry applications. There are several gemology tools which are used to investigate the grading of ruby stones such as loop, microscope, and dichroscope. Nevertheless, these tools are highly dependable on human visual assessment and require years of experience that may lead to error since ruby stone quality is evaluated based on its clarity and transparency. Hence, this paper addresses a simulation study on the optical properties of ruby stones via Charge-Coupled Device (CCD) Tomography approach. This paper indicates the capability of CCD and tomography system to analyze the ruby stone optical properties through image reconstruction based on the previous research. Linear Back Projection (LBP) algorithm will be used to construct two-dimensional image reconstruction of varieties ruby stones. From these image reconstructions, the transparency and blemishes of ruby stones can be analyzed. - Some of the metrics are blocked by yourconsent settings
Publication A Study Of Object Transparency Via Charge-Coupled Device Mathematical Modelling Assessment(Penerbit USIM, Universiti Sains Islam Malaysia, 2020-12-25) ;Syarfa Najihah Raisin ;Juliza Jamaludin ;Fatinah Mohd Rahalim ;Wan Zakiah Wan Ismail ;Irneza Ismail ;Sharma Rao Balakrishnan ;Mus'ab Sahrim ;Bushra Naeem ;Farah Aina Jamal Mohamad ;Ahmad Syahmi Mohd ZainAbdullah Solihin Mohd FauziThis research discusses an application of Couple-Charge Device (CCD) linear sensor and laser diode in an optical tomography (OPT) system. Tomography is a system that could capture a cross-sectional image based on sensor data scattered across the periphery of the examining device in non-invasive and non-intrusive framework. This project is focusing on how to quantify the level of object transparency based on CCD and mathematical modelling assessment. The objective of this project is to investigate the light refraction, reflection and absorption effect on object transparency. The study will include discussion on the light parameters and its mathematical expression. The voltage output measured by CCD defines the degree of intensity of light that is obtained after penetrating through different object transparency. In conclusion, this research has successfully proved the potential of CCD in OPT configuration to detect different size diameter of targeted transparent object which is the air bubble in non-flowing crystal-clear liquid. - Some of the metrics are blocked by yourconsent settings
Publication A Study on the Self-Sustaining Solar Module by Utilizing Solar Cell from Non-Degradable Waste(Lembaga Penelitian dan Pengabdian Masyarakat Institut Teknologi Nasional, 2021) ;Farah Aina Mohd Jamal ;Juliza Jamaludin ;Syarfa Najihah Raisin ;Mus'ab Sahrim ;Irneza Ismail ;Sharma Rao Balakrishnan ;Wan Zakiah Wan Ismail ;Bushra Naeem ;Abdullah Solihin Mohd Fauzi ;Ahmad Syahmi Mohd Zain ;Fatinah Mohd RahalimNur Arina Hazwani Samsun ZainIPresently, Malaysia is fostering growth in the green energy sector in order to reduce its carbon emissions and contribute in the fight against global warming. Renewable Energy (RE) such as solar cell could no longer be considered as a green technology because at the end of their lifecycle, they become non- biodegradable waste which in turn constitutes pollution and contributes to global warming. Thus, the aim of this research is to study a self-sustaining solar module produced by upcycling solar cells from non- biodegradable waste. Several solar cells from electronic devices were reused in this study. The results obtained show that a combination of 4V, 3V and 2V reused solar cells produced 10.20V and 47.9mW of power. This indicates that the proposed upcycled solar module is feasible and has the potential to aid in the promotion of clean and renewable energy use in order to attain the desired sustainable development goals. - Some of the metrics are blocked by yourconsent settings
Publication Tomography System Towards The Industrial Revolution 4.0(Malaysian Society for Computed Tomography and Imaging Technology-MyCT, 2021) ;Syarfa Najihah Raisin ;Juliza Jamaludin ;Fatinah Mohd Rahalim ;Fauzun Abdullah Asuhaimi ;Wan Zakiah Wan Ismail ;Irneza Ismail ;Yasmin Abdul Wahab ;Ruzairi Abdul Rahim ;Farah Aina Mohd JamalNurul Arina Hazwani Samsu ZainiThe world developed rapidly to provide better standard of living to the human being. Industrial revolution 4.0 promising in great revenue, investment and technological advancement to the society and various sectors. This paper presents an overview of tomography system towards the industrial revolution 4.0. Tomography is essentially a technique for showing an image representation through solid objects, such as a pipeline or the human body, in the two-dimensional and three-dimensional cross sections. Several tomography sensors, including optical tomography systems, ultrasonic tomography systems and an electrical tomography system, are discussed in terms of their hardware and image reconstruction. To provide a clear view of tomography system, a few examples of tomography system application in medical and process industries are discussed.