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1. Advancements in Roundness Measurement Parts for Industrial Automation Using Internet of Things Architecture-Based Computer Vision and Image Processing Techniques

Author

Yazid Saif, Anika Zafiah M. Rus, Yusri Yusof, Maznah Lliyas Ahmed, Sami Al-Alimi, Djamal Hissein Didane, Anbia Adam, Yeong Hyeon Gu, Mohammed A. Al-masni, and Hakim Qaid Abdullah Abdulrab

Subjects
computer vision, image processing, CMM, 3SMVI, inspection, IoT, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

In the era of Industry 4.0, the digital capture of products has become a critical aspect, which prompts the need for reliable inspection methods. In the current technological landscape, the Internet of Things (IoT) holds significant value, especially for industrial devices that require seamless communication with local and cloud computing servers. This research focuses on the advancements made in roundness measurement techniques for industrial automation by leveraging an IoT architecture, computer vision, and image processing. The interconnectedness enables the efficient collection of feedback information, meeting the demands of closed-loop manufacturing. The accuracy and performance of assemblies heavily rely on the roundness of specific workpiece components. In order to address this problem, automated inspection methods are needed. A new method of computer vision for measuring and inspecting roundness is proposed in this paper. This method uses a non-contact method that takes into account all points on the contours of measured objects, making it more accurate and practical than conventional methods. The system developed by AMMC Laboratory captures Delrin work images and analyzes them using a specially designed 3SMVI system based on Open CV with Python script language. The system can measure and inspect several rounded components in the same part, including external frames and internal holes. It is calibrated to accommodate various units of measurement and has been tested using sample holes within the surface feature of the workpiece. According to the results of both techniques, there is a noticeable difference ranging from 2.9 µm to 11.6 µm. However, the accuracy of the measurements can be enhanced by utilizing a high-resolution camera with proper lighting. The results were compared to those obtained using a computer measurement machine (CMM), with a maximum difference of 8.7%.

Published
2023
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2. Implementing circularity measurements in industry 4.0-based manufacturing metrology using MQTT protocol and Open CV: A case study.

Author

Yazid Saif, Yusri Yusof, Anika Zafiah M Rus, Atef M Ghaleb, Sobhi Mejjaouli, Sami Al-Alimi, Djamal Hissein Didane, Kamran Latif, Aini Zuhra Abdul Kadir, Hamood Alshalabi, and Safwan Sadeq

Subjects
Medicine, Science
Abstract

In the context of Industry 4.0, manufacturing metrology is crucial for inspecting and measuring machines. The Internet of Things (IoT) technology enables seamless communication between advanced industrial devices through local and cloud computing servers. This study investigates the use of the MQTT protocol to enhance the performance of circularity measurement data transmission between cloud servers and round-hole data sources through Open CV. Accurate inspection of circular characteristics, particularly roundness errors, is vital for lubricant distribution, assemblies, and rotational force innovation. Circularity measurement techniques employ algorithms like the minimal zone circle tolerance algorithm. Vision inspection systems, utilizing image processing techniques, can promptly and accurately detect quality concerns by analyzing the model's surface through circular dimension analysis. This involves sending the model's image to a computer, which employs techniques such as Hough Transform, Edge Detection, and Contour Analysis to identify circular features and extract relevant parameters. This method is utilized in the camera industry and component assembly. To assess the performance, a comparative experiment was conducted between the non-contact-based 3SMVI system and the contact-based CMM system widely used in various industries for roundness evaluation. The CMM technique is known for its high precision but is time-consuming. Experimental results indicated a variation of 5 to 9.6 micrometers between the two methods. It is suggested that using a high-resolution camera and appropriate lighting conditions can further enhance result precision.

Published
2023
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3. Plasmodium knowlesi in humans, macaques and mosquitoes in peninsular Malaysia

Author

NorParina Ismail, Azahari Abdul H, Yusri Yusof M, Jiram Adela, Huat Tan, NoorAzian Yusuf M, Vythilingam Indra, NoorRain Abdullah, and LokmanHakim Sulaiman

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Since a large focus of human infection with Plasmodium knowlesi, a simian malaria parasite naturally found in long-tailed and pig tailed macaques, was reported in Sarawak, Malaysian Borneo, it was pertinent to study the situation in peninsular Malaysia. A study was thus initiated to screen human cases of Plasmodium malariae using molecular techniques, to determine the presence of P. knowlesi in non- human primates and to elucidate its vectors. Methods Nested polymerase chain reaction (PCR) was used to identify all Plasmodium species present in the human blood samples sent to the Parasitology laboratory of Institute for Medical Research. At the same time, non-human primates were also screened for malaria parasites and nested PCR was carried out to determine the presence of P. knowlesi. Mosquitoes were collected from Pahang by human landing collection and monkey-baited-traps situated on three different levels. All mosquitoes were identified and salivary glands and midguts of anopheline mosquitoes were dissected to determine the presence of malaria parasites and nested PCR was carried out on positive glands. Sequencing of the csp genes were carried on P. knowlesi samples from humans, monkeys and mosquitoes, positive by PCR. Results and Discussion Plasmodium knowlesi was detected in 77 (69.37%) of the 111 human samples, 10 (6.90%) of the 145 monkey blood and in 2 (1.7%) Anopheles cracens. Sequence of the csp gene clustered with other P. knowlesi isolates. Conclusion Human infection with Plasmodium knowlesi is occurring in most states of peninsular Malaysia. An. cracens is the main vector. Economic exploitation of the forest is perhaps bringing monkeys, mosquitoes and humans into increased contact. A single bite from a mosquito infected with P. knowlesi is sufficient to introduce the parasite to humans. Thus, this zoonotic transmission has to be considered in the future planning of malaria control.

Published
2008
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4. Advancements in Roundness Measurement Parts for Industrial Automation Using Internet of Things Architecture-Based Computer Vision and Image Processing Techniques

Author

Yazid Saif, Yazid Saif, Anika Zafiah M. Rus, Anika Zafiah M. Rus, Yusri Yusof, Yusri Yusof, Maznah Lliyas Ahmed, Maznah Lliyas Ahmed, Sami Al-Alimi, Sami Al-Alimi, Djamal Hissein Didane, Djamal Hissein Didane, Anbia Adam, Anbia Adam, Yeong Hyeon Gu, Yeong Hyeon Gu, Mohammed A. Al-masni, Mohammed A. Al-masni, Hakim Qaid Abdullah Abdulrab, Hakim Qaid Abdullah Abdulrab, Yazid Saif, Yazid Saif, Anika Zafiah M. Rus, Anika Zafiah M. Rus, Yusri Yusof, Yusri Yusof, Maznah Lliyas Ahmed, Maznah Lliyas Ahmed, Sami Al-Alimi, Sami Al-Alimi, Djamal Hissein Didane, Djamal Hissein Didane, Anbia Adam, Anbia Adam, Yeong Hyeon Gu, Yeong Hyeon Gu, Mohammed A. Al-masni, Mohammed A. Al-masni, and Hakim Qaid Abdullah Abdulrab, Hakim Qaid Abdullah Abdulrab

Abstract

In the era of Industry 4.0, the digital capture of products has become a critical aspect, which prompts the need for reliable inspection methods. In the current technological landscape, the Internet of Things (IoT) holds significant value, especially for industrial devices that require seamless communication with local and cloud computing servers. This research focuses on the advancements made in roundness measurement techniques for industrial automation by leveraging an IoT architecture, computer vision, and image processing. The interconnectedness enables the efficient collection of feedback information, meeting the demands of closed-loop manufacturing. The accuracy and performance of assemblies heavily rely on the roundness of specific workpiece components. In order to address this problem, automated inspection methods are needed. A new method of computer vision for measuring and inspecting roundness is proposed in this paper. This method uses a non-contact method that takes into account all points on the contours of measured objects, making it more accurate and practical than conventional methods. The system developed by AMMC Laboratory captures Delrin work images and analyzes them using a specially designed 3SMVI system based on Open CV with Python script language. The system can measure and inspect several rounded components in the same part, including external frames and internal holes. It is calibrated to accommodate various units of measurement and has been tested using sample holes within the surface feature of the workpiece. According to the results of both techniques, there is a noticeable difference ranging from 2.9 µm to 11.6 µm. However, the accuracy of the measurements can be enhanced by utilizing a high-resolution camera with proper lighting. The results were compared to those obtained using a computer measurement machine (CMM), with a maximum difference of 8.7%.

Published
2023

10. Development of a smart system based on STEP-NC for machine vision inspection with IoT environmental

Author

Noor Hatem, Kamran Latif, Yazid Saif, Yusri Yusof, Aini Zuhra Abdul Kadir, Maznah Iliyas Ahmad, and Anbia Adam

Subjects
Smart system, business.product_category, business.industry, Machine vision, Computer science, Mechanical Engineering, Cloud computing, USB, Industrial and Manufacturing Engineering, Computer Science Applications, law.invention, Machine tool, Microprocessor, Control and Systems Engineering, law, Feature (computer vision), STEP-NC, business, Software, Computer hardware
Abstract

The advancement of technology and the accomplishments of Industry 4.0 have expanded the possibilities for research in the vision system of the industrial inspection sector, which are intelligent, widely connected, fully adaptable, autonomous, and fully accessible based on the IoT environment. This advancement precisely bridges the gap between machine vision and object dimension measurements. The main goal is to develop the system of the 3SMVI in the milling machine based on the camera system and lighting system to ensure the quality of the product. This study proposes the development of an automated smart system-based interpreter STEP-NC information for a machine vision inspection (3SMVI) for detecting and measuring the surface feature of Example 1 Part 21 of ISO 14649 standard. This presents a 3SMVI development architecture that will guide the advancement with 3SMVI of the current Intelitek proLIGHT CNC milling machine. A standardised architectural 3SMVI platform is created. On that basis, machine tools, physical processes, real database range, operating units, and intelligent computer technologies are interconnected through a broad range of networks, including Wi-Fi and wireless connections. Machine vision inspection system (MVIS) is suggested as the digital model of the cyber domain physical tool. The OpenCV library developed a system platform that becomes cloud connectivity between the Raspberry Pi 4 board and the USB microprocessor on camera range. As a result, the machine vision inspection system is operated based on an algorithm designed for automatic measuring on a standard model. The primary outcome is developing a system prototype capable of inspecting the surface feature of a workpiece in real-time operation. Nonetheless, connectivity between machines can be carried out through Cyber Digital Twins (CDT). The obtained MVIS and prototype structure is appropriate for online surface measurement, and the system implementation has been designed and realised for automated measurement.

Published
2021

11. A case study: monitoring and inspection based on IoT for milling process

Author

Elias Daud, Aini Zuhra Abdul Kadir, Kamran Latif, Yusri Yusof, Yazid Saif, and Maznah Iliyas Ahmad

Subjects
business.product_category, Computer science, Process (engineering), Mechanical Engineering, Preventive maintenance, Industrial and Manufacturing Engineering, Computer Science Applications, Machine tool, Reliability engineering, Reliability (semiconductor), Machining, Control and Systems Engineering, Control theory, Numerical control, business, Communications protocol, Software
Abstract

Cyber-Physical Machine Tools (CPMT) is currently recognized as a new generation of machine tools that align with Industry 4.0 needs as a smart, well-connected, advanced accessibility and more adaptive and autonomous solution. It can be achieved through standardized design method and communication protocols. This article presents a case study on monitoring and inspection based on Internet of Things (IoT) for milling process toward CPMT. The proposed solution is capable to work in both G-code and Standard for Product Data Exchange Compliant with Numerical Control (STEP-NC)-based controller. The proposed case study demonstrated the controller’s capabilities. An IoT-based monitoring architecture was implemented for milling process monitoring. This approach is suitable for both standard. The interpreted machining information will be utilized to enable the machining parameter update and enable monitoring and machining integration and finally extendable for control activity. The monitoring and inspection approaches can achieve high accuracy of machining process condition detection and enable measurement of machined parts to fulfil CPMT needs and I4.0. The case study validated that the developed monitoring approach performed well and was highly sensitive to any changes during the machining process, specifically on the tool condition. While in the inspection approach, the reliability of the machined model was 99.97%. Based on the results of both the approaches, it is confirmed that both tasks can be designed and support digital factory and other manufacturing process stages in the future such as preventive maintenance, inspecting, sizing, assembling and others.

Published
2021

14. Development of virtual component-based STEP-compliant CNC system

Author

Kamran Latif, Aini Zuhra Abdul Kadir, and Yusri Yusof

Subjects
Parsing, Computer science, business.industry, Control (management), computer.software_genre, Industrial and Manufacturing Engineering, Microcontroller, Software, Arduino, Embedded system, Component (UML), Software system, Open architecture, business, computer
Abstract

Future manufacturing systems will need to be versatile, intelligent, adaptable, and long-lasting. Current systems cannot meet those criteria due to limitations in the data interface model and controller architecture. The Standard for the Exchange of Product Data-Numeric Control (STEP-NC) data interface model and open architecture control technology have the potential to enable the features of the next-generation manufacturing system. Three different programming approaches were used to implement the STEP-NC technology: indirect, interpreted and adapted. This study used open-architecture control, virtual component, and microcontroller technologies to develop an interpreted STEP-NC programming approach-based CNC system. The computer, Arduino microcontrollers, and custom boards were used to connect the system to the three-axis CNC milling machine. The STEP-NC implementation, on the other hand, has been done using a virtual component technology-based software system. The STEP-NC Part 21 programme file is read, parsed, interpreted, simulated, managed, and executed by the developed software. The paper’s content discusses system development as well as experimental validation. Finally, the study’s future directions are highlighted.

Published
2021

15. A review of G code, STEP, STEP-NC, and open architecture control technologies based embedded CNC systems

Author

Yusri Yusof, Kamran Latif, Anbia Adam, and Aini Zuhra Abdul Kadir

Subjects
0209 industrial biotechnology, Computer science, Process (engineering), Mechanical Engineering, Control (management), CAD, 02 engineering and technology, G-code, Manufacturing systems, Industrial and Manufacturing Engineering, Manufacturing engineering, Computer Science Applications, Product (business), 020901 industrial engineering & automation, Control and Systems Engineering, STEP-NC, Open architecture, computer, Software, computer.programming_language
Abstract

Computer Numeric Control (CNC) is a significant pillar of manufacturing for decades. These systems are an essential part of future manufacturing. In the urge towards the development of next-generation manufacturing systems, various technologies have been introduced. Moreover, based on those technologies, numerous systems have been developed all around the world. In order to assist in future research, the related major technologies and developments are discussed in this content. This paper presents the review of basics CN), Computer-Aided Design (CAD), Computer-Aided Process Planning (CAPP), Computer-Aided Manufacturing (CAM), G codes (ISO 6983), Standard for the Exchange of Product (STEP) model data (STEP), STEP-numeric control (STEP-NC), and open architecture control (OAC) technologies. The in-depth discussion on the development and implementation of the STEP and STEP-NC technologies is also addressed. The review also highlights the benefits and role of the open architecture control technology in the CNC system development. Apart from that, the paper also presents the last 17 years of embedded CNC systems development in tabular form, which shows the cocktail of various technologies and ISO data interface models. Finally, the paper concludes with future directions and recommendations.

Published
2021

16. COPEPOD AND NEMATODE PARASITES OF THE THREE-SPOTTED DAMSELFISH DASCYLLUS TRIMACULATUS FROM BIDONG ISLAND, TERENGGANU

Author

PEI YING LEE, YUSRI YUSOF, and MELISSA BEATA MARTIN

Abstract

This study focuses on the parasites in Dascyllus trimaculatus fish in Bidong Island. Though D. trimaculatus is a common reef fish, there is lack on parasites studies of this fish in Malaysia. The objectives of this study are to identify metazoan parasites and analyse the prevalence and mean intensity the parasites in D. trimaculatus. Sampling was randomly conducted on a coral colony of 100 meters within a 15m depth at Pantai Pasir Cina, Bidong Island. This research resulted in the identification of a copepod Lernaeocera branchialis and a nematode from the family Camallanidae. The copepods collected in this study infected 20 out of 42 D. trimaculatus specimens, whereas the nematode-like parasites collected infected 18 of out of 42 D. trimaculatus. All copepods found in the gills of D. trimaculatus had a prevalence of 4.95 and mean intensity of 47.62%, while the nematode-like parasite, which were found in the brain, had 2.72 prevalence and 42.86% mean intensity. This elucidates that both parasites are categorised as having light level but common frequency of infection, and the current IUCN status of D. trimaculatus has not been reported to be harmed by parasites. Though the mean intensity of both parasites is not harmful, the prevalence are concerning and might increase in the future, with further incorporation and monitoring of climate change factors that may affect the damselfish.

Published
2021

17. A FRAMEWORK TO DEVELOP INTELLIGENT SYSTEM FOR CAPTURING PRODUCT FEATURES USING OPEN CV TECHNIQUE

Author

Yusri Yusof, Maznah lliyas Ahmed, Aini Zuhra Abdul Kadir, Zohaib khan Pathan, Kamran Latif, and Yazid Saif

Subjects
Structure (mathematical logic), Computer science, business.industry, media_common.quotation_subject, Image processing, Convolutional neural network, Image (mathematics), Feature (computer vision), Product (mathematics), Numerical control, Computer vision, Quality (business), Artificial intelligence, business, media_common
Abstract

This research aims to propose an innovative framework using ISO14649 standard to detect defects in manufactured shaped objects or geometric surfaces of non-linear products of the CNC machine. The significant importance in order to recognize the potential to improve industry product quality inspection and encourage the waste of timing machines and product rejection. Open Computer Vision (Open CV) offers a smart, non-contact measurement and cost-effective technique to fulfil the requirements. The framework depends on the new technique of Open CV, which includes two parts: an intelligent selection of work-piece capturing the image for a particular inspection of the planar interfaces such as the hole, rectangular, pocket one, and the symmetric lighting model comparison approach for measurement of defects in the matched images. The contribution of this study is to build a structure in the computer vision method with a convolution neural network that predicts the classification of the feature for better accuracy and emphasizes the significant characteristics of the image processing technique coupled with experimental data on demanding image datasets and quality inspection measures.

Published
2020

18. Manifestasi Kaedah Halaqah Pada Zaman Rasulullah Saw:Aplikasi Dalam Sistem Pengajian Pondok Terpilih Di Negeri Kelantan (Manifestation of Halaqah Methods in Rasulullah SAW era : Applications in Selected Pondok System in Kelantan)

Author

Mohd Zahirwan Halim Zainal Abidin, Huzaimah Ismail, Abd. Munir Mohd Noh, Muhammad Yusri Yusof@Salleh, Paiz Hassan, and Ahmad Bakhtiar Jelani

Subjects
Islamic education, Pedagogy, Muslim community, Islam, Sociology, Document analysis
Abstract

The halaqah method was practiced in Islamic education since the period of Prophet Muhammad PBUH in order for convey knowledge and education to the Muslims. Continuity in applying the halaqah method in Islamic education has been continued as a legacy in Islam to continue the culture of knowledge established by the Prophet Muhammad PBUH. The establishment of pondok institutions, especially in the state of Kelantan, has demonstrated the application of the halaqah method in the teaching and learning system. Hence, the objective of this study is to study the history of halaqah method in education practised by Rasulullah SAW and also the applications of halaqah method in selected pondok’s, Pondok Pasir Tumbuh, Kota Bharu and Pondok Lubuk Tapah, Pasir Mas, Kelantan. This study uses a qualitative method based entirely on document analysis, interviews and observations to compile the data needed. The results of the study show that the halaqah method is still being used in pondok’s institutions eventhough the current globalization have changed the education system including the Islamic education. The halaqah method is still releven for improved knowledge among the Muslim community especially in pondok’s institutions in Kelantan. For conclusion, the applications of the halaqah method is important in Islamic education especially in pondok’s institutions as a model for practicing the Prophet's PBUH sunnah.

Published
2020

19. Machine monitoring system: a decade in review

Author

Elias Daud, Yusri Yusof, Yazid Saif, Kamran Latiff, Aini Zuhra Abdul Kadir, and Maznah Iliyas Ahmad

Subjects
0209 industrial biotechnology, business.product_category, Computer science, Process (engineering), business.industry, Mechanical Engineering, Machine condition monitoring, 02 engineering and technology, Automation, Industrial and Manufacturing Engineering, Field (computer science), Manufacturing engineering, Computer Science Applications, Machine tool, Domain (software engineering), 020901 industrial engineering & automation, Control and Systems Engineering, Manufacturing, Numerical control, Tool wear, business, Software
Abstract

In recent years, significant advancements have been achieved in the domain of machine monitoring as witnessed from the beginning of the new industrial revolution (IR) known as IR 4.0. This new revolution is characterized by complete automation, and an increase in the technological deployments and advanced devices used by various systems. As a result, considerable advancement has been reported by researchers and academia around the world by adopting and adapting the new technology related to the machine condition monitoring problem. For these reasons, it is important to highlight new findings and approaches in machine condition monitoring based on the wireless sensor solution and machine learning signal processing methodology that are relevant to assist in advancing this new revolution. This article presents a comprehensive review on tool condition monitoring (TCM), tool wear, and chatter based on vibration, cutting force, temperature, surface image, and smart label monitoring parameters from signal acquisition, signal processing methodology, and decision-making, particularly for the milling process. The paper also provides a brief introduction to the manufacturing industries and computer numerical control (CNC) machine tool demand and a review of machine monitoring and countries involvement in machine monitoring, as well as the approaches and a survey of machine monitoring. The aim is to contribute to this rapidly growing field of machine condition monitoring research by exploring the latest research findings on the solution approach for milling machine process monitoring, to help expedite future research, and to give some future direction that needs to be considered as a path to produce a standardized CNC machine platform.

Published
2020

20. Systematic review of STEP-NC-based inspection

Author

Maznah lliyas Ahmed, Yusri Yusof, Kamran Latif, Yazid Saif, and Aini Zuhra Abdul Kadir

Subjects
0209 industrial biotechnology, Process (engineering), business.industry, Computer science, Mechanical Engineering, media_common.quotation_subject, 02 engineering and technology, Industrial and Manufacturing Engineering, Computer Science Applications, 020901 industrial engineering & automation, Machining, Control and Systems Engineering, Taxonomy (general), Quality (business), Product (category theory), STEP-NC, Software engineering, business, Software, media_common
Abstract

Closed-loop inspection manufacturing (CLIM) and computer-aided inspection planning (CAIP) have increasingly been evolved into a size method that can be used to look at fashions in the industrial area with a number of methods. CAIP is hastily carried out in the gadget and will become an indispensable phase of the production system. Numerous scientific findings that tackle the theme from exclusive perspectives are accompanied by CLIM and CAIP in the measuring process. A systematic overview of these heterogeneous methods can be considered vital for CLIM to become aware of the ways in which CAIP can be used in your personal context. Thus, this systematic review of literature aims to analyze current inspection article and use of CLIM in CNC machines, assess heritage research to create a steady taxonomy, and provide a framework for forthcoming CLIM lookup in accordance with CAIP in the desktop gadget to enhance product quality. The consequences of this study provide a comprehensive taxonomy and a define in terms of the advanced features of this emerging technology. Articles on CAIP and CLIM, system-based technology, implementation of STEP/STEP-NC, and feature-based technology were discussed. As a result, various CLIM lookup findings regarding the machining machine tended to the center of attention rather on the VISION/aspects of the ISO14649-based computing device and further on inspection process planning perspectives, as well as factors indicating CLIM in technologies. This review paper will strengthen this study by supplying a deep analysis of the present facts to shut down the hole and lengthen the current literature.

Published
2020

21. Additive manufacturing cost estimation models—a classification review

Author

Saidin Wahab, Yusri Yusof, and Aini Zuhra Abdul Kadir

Subjects
Estimation, 0209 industrial biotechnology, Cost estimate, Computer science, business.industry, Mechanical Engineering, 02 engineering and technology, Industrial and Manufacturing Engineering, Manufacturing cost, Field (computer science), Computer Science Applications, Task (project management), Visualization, 020901 industrial engineering & automation, Risk analysis (engineering), Control and Systems Engineering, New product development, Industrial and production engineering, Activity-based costing, business, Software
Abstract

With the recent evolution of additive manufacturing (AM), accurate cost prediction models are of increasing importance to assist decision-making during product development tasks. Estimating the cost is a challenging task in that it requires a vast amount of manufacturing knowledge that has to be synchronised with many aspects from design to production. As a result, various AM cost models have been developed. This review is performed with the aim of providing an overview of the costing models being developed and utilised associated with the additive manufacturing product development phases. For a better understanding in this field, it is required to become familiar with the various terminologies, perspectives, concepts, techniques, and approaches used in developing these models. It was observed that the contexts and views described during the development of the models were often targeted at specific applications as well as technologies and were classified in many ways. Accordingly, the paper compiles different aspects of the cost estimation classification technique and provides definitions of some of the key terminologies. The main motivation is to provide broad and in-depth reviews of the estimation models developed over the past three decades using a systematic classification approach. From the review, a visualisation of future insights into the AM cost-oriented estimation framework from the perspective of various AM users can be better understood.

Published
2020

22. A Design of New Product Database System for Supporting Step-Compliant Total Integration Applications

Author

Chen Wong Keong and Yusri Yusof

Subjects
Database, Computer science, business.industry, New product development, computer.software_genre, business, computer
Abstract

Computer technology has become a very important element in an advanced manufacturing system. The good and systematic data model for the exchange of manufacturing information between different stages of development of product life cycle is paramount to ensure the product is manufactured and delivered to the market successfully. As a result, ISO 10303, an international standard, or well known as Standard for Exchange of Product Model Data (STEP) is not just for providing a neutral data format within the heterogenous CAD systems, its functionality has extended to the whole life cycle of product. STEP Part 21 is the first implementation method from EXPRESS modelling language and implemented successfully as neutral product data to integrate heterogeneous CAD platform. However, this CAD STEP Part21 text file is hardly to be applied in manufacturing processes since it consists of purely geometrical and topological data. In this research, a nonprocedural approach is presented to translate the EXPRESS language model of STEP CAD data into a new product database system model. A new nonprocedural approach of data enrichment and automated machining feature recognition is proposed and implemented on this newly developed product database system and provide a solution for the interrelated tasks of automated machining feature recognition: (1) extraction of geometrical feature from STEP CAD model data of the part (2) formation of part representation suitable for form feature identification (3) matching of form features. This paper proves the validity of this newly developed product database system by translating STEP Part21 file from a commercial CAD system to database system format, data enrichment, performing automated machining feature recognition and lastly generating STEP standard data according to AP224 for supporting STEP based process planning and manufacturing applications.

Published
2020

23. Modernizing Education System in Pondok Sungai Durian, Kuala Krai, Kelantan

Author

Ahmad Firdaus Mohd Noor, Abd. Munir Mohd Noh, Muhammad Yusri Yusof @ Salleh, Paiz Hassan, Huzaimah Ismail, and Mohd Zahirwan Halim Zainal Abidin

Subjects
business.industry, media_common.quotation_subject, Muslim community, Information technology, Islam, Modernization theory, Syllabus, Globalization, Institution, Charisma, Sociology, Social science, business, media_common
Abstract

Pondok is the earliest traditional Islamic education institution established in Malaysia in the 19th century. Kelantan is one of the states in Malaysia with many pondoks until it’s known as "Serambi Mekah" (the veranda of Mecca). However, the pondok system has experienced a drastic decline since the 20th century and some were closed. Among the factors that led to the fall of this institution are the challenges from modern educational institutions such as the schools and madrasah, the death of teachers and the dependence on the traditional system of studies. So, the pondok system needs to be modernised with the purpose to spread Islamic education and knowledge to the Muslim community in Malaysia today. Hence, the objective of this study is to review the development of Pondok Sungai Durian and to study the modernisation of the education system practiced by this pondok. To achieve this objective, this study used qualitative method of study, which were the library research and field studies based on document analysis, interviews and observations at Pondok Sungai Durian to obtain research data. The findings show that the transformation of Pondok Sungai Durian has created harmonisation between traditional learning system based on the halaqah, talaqqi and the use of turath kitab with the modern system based on a classroom system with a more contemporary syllabus. In addition, this system encourages and enhances students' knowledge as they are exposed to the traditional and modern studies at the same time, and this is important in generating the culture of knowledge and producing authoritative `ulama’ in this era of globalisation. Hence, the survival of Pondok Sungai Durian as a centre of Islamic education that retains the elements of traditional and modern studies is very relevant today. The development of the pondok system, especially Pondok Sungai Durian, has contributed to the development of charismatic characters among the `ulama’ (Islamic scholars), the intellectual development, da'wah and the growth of Islamic knowledge among Muslim community.

Published
2020

30. A Novel Integration between Service Oriented IoT based Monitoring with Open Architecture of CNC System Monitoring

Author

Yusri Yusof, Noor Hatem, Yazid Saif, Kamran Latif, Elias Daud, Anbia Adam, Maznah Iliyas Ahmad, Mohammad Sukri Mustapa, and Aini Zuhra Abdul Kadir

Subjects
business.industry, Computer science, Embedded system, Open architecture, Service oriented, business, Internet of Things, System monitoring
Abstract

Smart factories are focusing on bridging the gap between physical to cyber-physical systems through software applications. This article proposed an efficient and sufficient data acquisition, storing and processing real-time monitoring information, response, and feedback in milling process monitoring. A methodology to enable integration between service oriented IoT based monitoring with interpreted information for open Architecture CNC system was presented. The proposed system comprises four main layers: the perception layer, communication layer, application layer, and CNC machine. The developed system was validated through two case studies. First, the developed system successfully enabled data flow through the validation, from CNC machine back to CNC machine. Secondly, the reading of temperature, vibration and electric current monitoring is higher for the worn cutting tool than the new cutting tool. Third, the percentage difference between new and worn cutting tools for temperature monitoring is up to 3.38 %, and for vibration monitoring, it is up to 78.93 %. Fourth, the electric current reading is proportional to cutting force as the reading of electric current on cutting insert is higher than reading before cutting tool insert with percentage differences more than 8.33% up to 20%. Based on the findings, it was summarized that the developed integrated monitoring system is feasible enough based on the performance and highly sensitive to any changes that occurred during the machining process, specifically on the cutting tool condition. In the future, this integrated monitoring system could be applied to other Open CNC machine-based plug and play.

Published
2021

31. The Implementation of a Novel Augmented Reality (AR) Based Mobile Application on Open Platform Controller for CNC Machining Operation

Author

Yusri Yusof, Shamy Nazrein, Toong-Hai Sam, Anbia Adam, Kamran Latif, Aini Zuhra Abdul Kadir, and Danish Ali Memon

Subjects
Open platform, Computer science, Mobile phone, business.industry, Embedded system, Controller (computing), Cyber-physical system, Numerical control, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Augmented reality, STEP-NC, business, Automation
Abstract

Manufacturing technology has reached to a point where there is a need for online platform for users’ easy access. Essentially, the trend for Industry 4.0 towards automation and Cyber Physical System (CPS) has become a compulsory addition to any system, manufacturing is not an exception to the need of that technological improvement. With the number of mobile users growing by the day, open CNC system has risen to merge the idea of controlling, monitoring, and utilizing the mobile platform to its advantage. This paper proposes the implementation of an Augmented Reality (AR) based mobile application for guiding users to improve CNC machining operation as well as remotely control the system from mobile phone. The CNC system is developed from conventional PROLIGHT 1000 Milling CNC machine from Light Intelitek based on novel controller established as UTHM Open CNC Controller (UOCC) under the ISO 14649 of STEP-NC environment. The UOCC have efficient ability to operate and monitor the CNC machine from a distance which would reduce the risk of accidents and hazards from occurring while eliminating the use of paper and increasing machining efficiency.

Published
2021

32. Preliminary studies on hydrothermal synthesis of zeolite from Malaysian kaolinite clays

Author

Mohd Hafiz Dzarfan Othman, Mohd Amri Lajis, Khairul Nazri Yusof, Muhamad Zaini Yunos, Ainun Rahmawati, Yusri Yusof, Tijjani Abdullahi, and Zawati Harun

Subjects
Materials science, Scanning electron microscope, General Mathematics, 0211 other engineering and technologies, General Physics and Astronomy, 020101 civil engineering, 02 engineering and technology, General Chemistry, Raw material, General Biochemistry, Genetics and Molecular Biology, Hydrothermal circulation, 0201 civil engineering, Crystallinity, Chemical engineering, Hydrothermal synthesis, Kaolinite, Reactivity (chemistry), General Agricultural and Biological Sciences, Zeolite, 021101 geological & geomatics engineering
Abstract

The use of kaolin as a source of silica and alumina for synthesis of zeolite has been widely reported with various compositions and processing routes. However, since kaolin is highly influenced by geological origin and geographical formation, coupled with the processing method, two different crude kaolin were obtained at various locations in Peninsular Malaysia to serve as precursor for synthesis of zeolite. Hydrothermal treatments were made at reasonable low temperature of 90°C in an oven. The synthesized product was then analyzed using X-ray diffraction and scanning electron microscopy, to evaluate the potentials of the process and the product. The outcome of the analysis suggested that the breaking down of the clay structure and the armophization process can improve raw material reactivity. However, the crystallinity and composition of the crude kaolin together with appropriate incubation time can greatly influence the synthesis process and the product.

Published
2019

33. Analisis Isu-Isu Hukum Islam Berkaitan Wanita Dalam Fiqh Jihad Aliran Ekstremisme Agama

Author

Muhd Imran Abd Razak, Mohd Anuar Ramli, Rahimin Affandi Abdul Rahim, Muhammad Yusri Yusof @Salleh, and Paiz Hassan

Subjects
media_common.quotation_subject, Interpretation (philosophy), Law, Political science, Doctrine, Qualitative property, Islam, Combatant, Fiqh, Ideology, media_common
Abstract

The religious extremism ideology has gained the support of a small number of Muslim women. The increased participation of these groups is due to various internal and external factors. In regard of this, this study focuses on Islamic ruling issues related to the fiqh of women’s jihad in the doctrine of religious extremism, such as combatant and jihad marriage. This study applies the library approach by examining the materials of religious group extremism and classical also contemporary clerics discussing about the involvement of women in fiqh jihad. Qualitative data are collected and the content were analyzed based on deductive and comparative methods. The findings suggest that the religious extremism group uses a hard interpretation of Islamic ruling and is contrary to classical and contemporary clerics, for example in the issue of allowing women to take up arms as well as in the issue of jihad marriage that degrade women’s dignity. As a result the victims who were involved directly or indirectly will be discriminated involved in sexual exploitation and tyranny. Hence, the approach of discourse that offers women-friendly fiqh is greatly needed

Published
2019

34. A Case Study- Monitoring and Inspection Based on IoT for STEP-NC Data Model

Author

Yusri Yusof, Kamran Latif, Elias Daud, Aini Zuhra Abdul Kadir, Yazid Saif, and Maznah Iliyas Ahmad

Subjects
Data model, Computer science, business.industry, Data mining, STEP-NC, computer.software_genre, Internet of Things, business, computer
Abstract

Cyber-Physical Machine Tools (CPMT) is currently recognized as a new generation of machine tools that align with Industry 4.0 needs as a smart, well connected, advanced accessibility, more adaptive and autonomous solution. It can be achieved through standardized design method and communication protocols. This article presents a case study on monitoring and inspection based on Internet of Things (IoT) for STEP-NC data model toward a CPMT. More specifically, the monitoring approach utilizing an IoT based monitoring architecture for machining process monitoring, while the inspection approach using a coordinate measuring machine for machined part inspection. The monitoring and inspection approaches can achieve high accuracy of machining process condition detection and enable measurement of machined parts to fulfil CPMT needs and I4.0. The case study validated that the developed monitoring approach performed well and was highly sensitive to any changes during the machining process, specifically on the tool condition. As per the inspection approach, the reliability of the machined model was 99.97%. Based on the results of both the approaches, it is confirmed that both tasks can be designed and support digital factory and other manufacturing process stages in the future such as preventive maintenance, inspecting, sizing, assembling, and others.

Published
2021

36. Recent Advances in Applied Mechanics and Mechanical Engineering : Select Proceedings of ICAMME 2022

Author

Sanjay Yadav, Harish Kumar, Meher Wan, Pawan Kumar Arora, Yusri Yusof, Sanjay Yadav, Harish Kumar, Meher Wan, Pawan Kumar Arora, and Yusri Yusof

Subjects
Industrial engineering, Automation, Electric power production, Mechanics, Applied
Abstract

This book provides select proceedings of the 3rd International Conference on Applied Mechanics and Mechanical Engineering (ICAMME 2022). It covers the latest research in the fields of mechanics and mechanical engineering. Various topics covered in this book are engineering design, machinery and machine elements, mechanical structures and stress analysis, automotive engineering, engine technology, aerospace technology and astronautics, mechanical intelligent control and robotics, mechatronics, dynamical systems and control, fluid mechanics, industrial manufacturing and applied mechanics. The book will be useful for researchers and professionals working in the various fields of mechanical engineering.

Published
2023

37. Comparison of Energy Efficiency and Carbon Dioxide Emissions of Gas Turbine Cogeneration with Steam Absorption Chillers versus Conventional Chilled Water Generation

Author

Shahrul Nahar Omar Kamal, Mohd Kamarul Yusri Yusof, Danny Tam Hong Khai, Adzuieen Nordin, and Didi Asmara Salim

Subjects
Cogeneration, Water chiller, Power station, Waste management, Chilled water, Greenhouse gas, District cooling, Fuel efficiency, Environmental science, Emission intensity
Abstract

Malaysia government committed to reduce greenhouse gas emission by 45{%} by 2030. This target was set with 35{%} on unconditional basis and 10{%} on conditional basis upon receipt of climate finance funding, technology transfer and capacity building developed countries. This paper demonstrate how cogeneration district cooling power plant helped to mitigate greenhouse gas emission by comparing fuel efficiency and carbon dioxide emissions of the cogeneration district cooling plant and a conventional electrical chiller plant which electricity was imported from the power grid. The GT Pro simulation is used to estimate the efficiency and the carbon dioxide emissions from the power plant. Results and analyses indicate that the cogeneration district cooling plant consumed 30.47{%} less primary energy and emit 44.43{%} less of carbon dioxide as compared to the conventional power plant. Hence, the adoption of cogeneration district cooling plant will definitely help the nation goal to reduce greenhouse emission intensity by 35{%} to 45{%} by 2030.

Published
2020

38. A novel integrating between tool path optimization using an ACO algorithm and interpreter for open architecture CNC system

Author

Aini Zuhra Abdul Kadir, Yusri Yusof, Kamran Latif, Noor Hatem, and M. A. Mohammed

Subjects
0209 industrial biotechnology, Cutting tool, Computer science, business.industry, Ant colony optimization algorithms, General Engineering, Context (language use), 02 engineering and technology, Computer Science Applications, 020901 industrial engineering & automation, Software, Data model, Machining, Artificial Intelligence, Path (graph theory), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Open architecture, business, Algorithm
Abstract

This article proposes an effective methodology to reduce manufacturing time through the creation of quasi-optimal G command sequences, based on initial machining codes derived from CAD/CAM Service-Oriented Architecture (SOA) software. The optimization steps involved minimizing travel path time for CNC manufacturing machine milling and drilling. Also, identifying the optimal order of operation that enabled the shortest travel path for the cutting tool. These steps resulted in consistent enhancements of approximately 10.41% and 16.58% for milling and drilling machining, respectively. Furthermore, high-performing Ant Colony Optimization (ACO) algorithms were used to optimize the travel path time. In the context of automatic NC program production, the optimization of the cutting tool’s travel path could be achieved by integrating the ACO algorithm and the Open Architecture Control (OAC) into commercial CAD/CAM. In this paper, a new optimized generation of CNC systems, based on combining the Open Architecture Control (OAC) technology supported by the G-code data model and the optimization algorithm are presented.

Published
2021

40. Feasibility Study of Turbine Inlet Air Cooling using Mechanical Chillers in Malaysia Climate

Author

Shahrul Nahar Omar Kamal, Mohd Kamarul Yusri Yusof, Danny Tam Hong Khai, Didi Asmara Salim, and Mohd Sahril Mohd Fouzi

Subjects
Chiller, Air cooling, Engineering, geography, geography.geographical_feature_category, Waste management, business.industry, 020209 energy, Nuclear engineering, Context (language use), 02 engineering and technology, Inlet, Turbine, Sizing, Heat capacity rate, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, ASHRAE 90.1, 0204 chemical engineering, business
Abstract

The performance of a gas turbine is dependent on the ambient air temperature. The gas turbine’s power output is reduced and heat rate is increased as a result of higher air temperature. The warm and humid climate in Malaysia, with its high ambient air temperature, has an adverse effect on the performance of gas turbine generators. Turbine Inlet Air Cooling is a power augmentation technology for gas turbines, which reduces the turbine inlet air temperature thereby improving the power output and heat rate of the machine. In this paper the effect of Turbine Inlet Air Cooling using electric chillers, on the performance of the LM6000PD Gas Turbine Generator (43.5MW ISO rating) is evaluated in the context of the Malaysian climate. GT Pro software is used to evaluate the performance of the gas turbine generator with ambient air temperature cooled to 12°C. The ambient design points used for the sizing of the chillers are the 0.4% Evaporative (Design Point A) and the 0.4% Cooling (Design Point B) design points for Sitiawan, Perak as published by ASHRAE. It is observed that Design Point A results in a chiller capacity of 1950RT which is sufficient to satisfy the cooling demand of the Turbine Inlet Air Cooling system for approximately 98% of the operating hours in a year, while Design Point B yields a smaller chiller size of 1700RT which is capable of meeting the Turbine Inlet Air Cooling requirement for approximately 72% of the annual operating hours. In terms of Gas Turbine performance, the net power output is increased by 27.5% and 32.11% while the net heat rate is reduced by 2.8% and 3.74% for Design Points A and B respectively. The substantial improvement in gas turbine net power output and heat rate as predicted by the GT Pro demonstrate that Turbine Inlet Air Cooling using electric chillers is effective as a power augmentation technology in Malaysia.

Published
2017

41. New Open CNC Machine Motion Control System for ISO 14649 and ISO 6983

Author

Yusri Yusof, Wan Muhammad Zaki, Qadir Bux Alias Imran Latif, Kamran Latif, and S. N. S Jamaludin

Subjects
0209 industrial biotechnology, Health (social science), General Computer Science, Computer science, General Mathematics, General Engineering, Control engineering, 02 engineering and technology, Motion control, Education, 020901 industrial engineering & automation, General Energy, Numerical control, General Environmental Science
Published
2017

42. Fiqh Versi Alam Melayu: Satu Analisis Sejarah

Author

Rahimin Affandi Abdul Rahim, Siti Maimunah Kahal, and Muhammad Yusri Yusof @ Salleh

Subjects
Middle East, Geography, language, Islam, Fiqh, Social science, Ancient history, World view, Knowledge development, language.human_language, Malay
Abstract

This study discusses how Islam became the most important episode in the history of the Malay World. The arrival of Islam that had modified the world view of Arab communities in the Arab World brought about the same changes to the Malay World. The Islamisation process resulted in knowledge development which produced paradigms vialable for Malay society. The basic traditions formulated by Islamic theologians in the 16th-18th centuries has become the core foundation for the Islamic Malay World until today. This is a theory from Middle East fiqh that has been changed to suit the culture and identities of the Malay World and as the guidance of life for the Malay community. The various Malay World fiqh sources have made it to become unique and very special and this study pays particular reference to the Malay World Fiqh. Thus, this version of Fiqh is analyzed based on the history of the Malay World with its abundant Islamic knowledge that emerged from the process of Islamisation. The analysis shows that Islamisation has produced a Malay World version of fiqh as an important channel in the creation of knowledge and characteristics of the community and has contributed to the rapid development of Islam.

Published
2016

43. Techno-economic Assessment of Turbine Inlet Air Cooling for Small Scale Combined Cycle Power Plant in Malaysia Climate

Author

Shahrul Nahar Omar Kamal, Danny Tam Hong Khai, Adzuieen Nordin, Mohd Kamarul Yusri Yusof, Mohamad Asyraf Bin Othoman, and Didi Asmara Salim

Subjects
Air cooling, geography, geography.geographical_feature_category, Power station, Combined cycle, Environmental engineering, Internal rate of return, Inlet, Turbine, Power (physics), law.invention, Steam turbine, law, Environmental science
Abstract

A combined cycle power plant produces power and steam which the steam is used to generate additional power. The main source of the power and steam was the fuel entering the gas turbine. Hence the power and the steam being produced are related to the temperature inlet of the gas turbine. This study is to investigate the performance and economic effect of with and without using turbine inlet air cooling at the combined cycle power plant. The techno-economic formulations were used for evaluating the performance and the cost rates. Results indicate that with using of turbine inlet air cooling, the performance of gas turbine increased while the performance of steam turbine decreased. However, the power output of the power plant in Malaysia climate is increased due to contributed by performance of aero-derivative gas turbine. The results also demonstrate that the used of turbine inlet air cooling in combined cycle power plant is more profitable due to higher Net Present Value and Internal Rate of Return compared to without turbine inlet air cooling.

Published
2019

46. Review On Advanced Numerical Control In Manufacturing System

Author

Anbia Adam and Yusri Yusof

Subjects
Focus (computing), Machining, Computer science, Numerical control, Advanced manufacturing, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Software transformation, computer.file_format, Manufacturing systems, ISO 10303, computer, Manufacturing engineering, Variety (cybernetics)
Abstract

Advanced manufacturing is making its mark on the world with continuous development on its system whether hardware or software transformation. The manufacturing machine like Computer Numerical Control (CNC) or other cutting machinery is undergoing various improvements from every corner of the world. CNC has been manipulated to even works on a variety of operating platform such as Androids, Linux and Windows. The machines now perform not only better, but it can also be controlled from the other parts of the world through the e-manufacturing. The aim of this review is to provide a better view on advanced manufacturing, and how it evolved from conventional manufacturing, especially on CNC machining. The problems that occurred on ISO 6983 is highlighted which leads to ISO 10303 and several other improvements which is patented throughout the world. The patents focus mainly on recent manufacturing machining. This review includes brief introduction on CNC, with brief discussion on conventional and advanced manufacturing, patents and conclusions.

Published
2019

47. Machine Process Condition Monitoring with 3MP

Author

Anbia Adam, Mohd Elias Daud, Maznah Iliyas Ahmad, and Yusri Yusof

Subjects
Machining process, Computer science, media_common.quotation_subject, Real-time computing, Process (computing), Condition monitoring, Quality (business), media_common, Term (time), Domain (software engineering)
Abstract

Recently, machine process domain is archiving significant advancement in term of sensing technology. The technology has a powerful impact on enabling self -monitoring and results in high quality of final product. The aim of this paper is to propose a new method on machine process condition monitoring by 3MP. 3MP (Modern Machine Monitoring Process) works wirelessly to integrate between machine, computer and 6 type of sensory device.

Published
2019

48. Penggunaan Fatwa Sebagai Medium Counter-Terrorisme Dalam Menangani Gejala Terrorisme

Author

Mohd Anuar Bin Ramli, Rahimin Affandi Abdul Rahim, Muhd Imran Abdul Razak, Muhammad Yusri Yusof @ Salleh, Paiz Hasan, and Muhammad Izzul Syahmi Zulkepli

Subjects
lcsh:Islam, jihad, Fatwa, religious extremism, lcsh:BP1-253, counter ideology, wasatiyyah
Abstract

Fatwa has proven to play a significant role in the history of Islamic law. From the legal view of a personal matter until it is formalized, the role of fatwa is crucial to the community as it has either positive or negative impacts.There is no exception to religious extremism, the fatwa of certain figures has influenced individual psychology and beliefs or groups committed to acts of terrorism. As for the opposing parties, various fatwa have also been issued to deal with such extremism. Based on these facts, this study examines the weakness of fatwa as a medium of counter religious terrorism. By using a full qualitative methodology, documentation data related to the theme of the study are analyzed inductively, deductively and comparative. The findings show that extremist groups have used fatwa methods to develop their ideology and influence. In addition, various parties including Western scholars have realized the importance of fatwas as counter-ideological tools, but the study found that there is still room for fatwa improvement such as more detailed ideological justification, consistency in fatwa and even justice in its contents.

Published
2018

49. Interpreting the G-code of drilling machining to use in open CNC controller machine

Author

Yusri Yusof, Kamran Latif, Mohd Afandi P. Mohammed, Aini Zuhra Abdul Kadir, and Noor Hatem

Subjects
History, Machining, Computer science, Control theory, Drilling, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Control engineering, G-code, computer, Computer Science Applications, Education, computer.programming_language
Abstract

Computer numerical control (CNC) software is the “brain” of a machine tool as it controls the machine tool’s movement. The development of open CNC controller systems is one of the most popular topics in the last three decades due to the current CNC remains exclusive and costly. However, there is no open-source system that can use with an open CNC controller. In this developed system, the drilling G-code was analyzed to extract the points before simulating and sending it to any open CNC controller machine. Among the machining processes used most extensively is drilling. The used modules and functions are created by LabVIEW. The results show the system’s extracted points are similar to the draw drilling point in Solid work.

Published
2021

50. Development of a feature-based open soft-CNC system

Author

Kamran Latif, Qadir Bux Alias Imran Latif, Yusri Yusof, and Aydin Nassehi

Subjects
Interpreter, 0209 industrial biotechnology, business.product_category, Monitoring, Computer science, 02 engineering and technology, Industrial and Manufacturing Engineering, Open architecture controller, STEP-NC, 020901 industrial engineering & automation, 0202 electrical engineering, electronic engineering, information engineering, Open architecture, business.industry, Mechanical Engineering, CNC, Motion control, Computer Science Applications, Machine tool, Data model, Control and Systems Engineering, Embedded system, Scalability, Numerical control, Resource allocation, 020201 artificial intelligence & image processing, business, Simulation, Software
Abstract

Modern computer numerical control (CNC) is intended to be more flexible, interoperable, adoptable, open, and intelligent. In realisation of such a CNC system, an ISO standard known as STEP for numeric control (STEP-NC) or ISO 14649 was developed in 2004 to alleviate a number of challenges associated with the widely used CNC standard (ISO 6983). Implementation of STEP-NC was initially carried out on some commercial CNC systems via an indirect STEP-NC programming approach. However, this approach failed to meet all the requirements of a modern CNC system, due to the translation of data from the high level to low level, which is vendor-specific and machine tool dependent, thus detrimental to the basic resource independent philosophy of STEP-NC. This paper presents a new generation of CNC systems, based on the Open Architecture Control (OAC) technology supported by STEP-NC data model to fundamentally solve these challenges. The developed system employs a new set of techniques for STEP-NC data interpretation, graphical verification, execution, monitoring, and report generation that supersede the exiting techniques in scope and capability. Using these techniques, the proposed system provides a flexible, intelligent, and adaptable manufacturing platform that can provide unprecedented levels of scalability and resource allocation agility in modern manufacturing enterprises. A prototype implementation of the proposed model is based on STEP-NC interpretation, 3D simulation, machine motion control, and live video monitoring with automatic document generation modules has been used to verify and validate the system in conjunction with industrially inspired test components.

Published
2016

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