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Intelligent Metaverse Museum Based on the Universal Design to Enhance Immersive Learning Experiences

Sittisak Chomjan, Panita Wannapiroon and Prachyanun Nilsook (2023)
S. Chomjan, P. Wannapiroon and P. Nilsook, “Intelligent Metaverse Museum Based on the Universal Design to Enhance Immersive Learning Experiences,”
2023 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C), Bangkok, Thailand, 2023, pp. 83-87,
https://doi.org/10.1109/RI2C60382.2023.10356029.

Abstract:The rapid growth of information technology and communication has led to a transformation in the traditional concept of museums that is familiar to everyone. Technology has the potential to create channels for users to acquire new knowledge and experiences. Consequently, researchers have shown interest in designing museum architecture that is engaging, captivating to visitors, efficient in imparting knowledge, and equally accessible to all individuals. The objective of this research is twofold: 1) to study the process of creating immersive learning experiences for an intelligent universe museum based on universal design principles, and 2) to design an intelligent metaverse museum architecture based on universal design principles to enhance immersive learning experiences.

System Architecture Analysis: Artificial Intelligence of Things

Sant Phanichsiti, Pallop Piriyasurawong and Prachyanun Nilsook (2023)
S. Phanichsiti, P. Piriyasurawong and P. Nilsook, “System Architecture Analysis: Artificial Intelligence of Things,”
2023 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C), Bangkok, Thailand, 2023, pp. 72-76,
https://doi.org/10.1109/RI2C60382.2023.10356004.

Abstract:This research aims to analyze and design the system architecture of artificial intelligence of things on visual programming. The research methodology involved theories and research papers relating to the system architecture, artificial intelligence, the internet of things, and artificial intelligence of things and the analysis and design of the artificial intelligence of things. The research method is used in content analysis form and data analysis by content analysis technique. The expected benefit is that it applies artificial intelligence of things which is one of the emerging technologies transforming in real-world industry 4.0 era for education.

IoT, 6G and Digital Twin For Smart Campus

Tanapeak Pexyean, Kobkiat Saraubon and Prachyanun Nilsook (2023)
T. Pexyean, K. Saraubon and P. Nilsook, “IoT, 6G and Digital Twin For Smart Campus,”
2023 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C), Bangkok, Thailand, 2023, pp. 46-50,
https://doi.org/10.1109/RI2C60382.2023.10355994.

Abstract:Smart Campus This research aims to present the use of the Internet of Things and smart technologies that work with 6G networks to intelligently improve the energy management capabilities of campuses. Whether it’s personal. Teachers and students, including those with disabilities, have a better quality of life. Within the university, energy consumption data is collected. Organizations to manage energy management systems Reduce energy consumption Reduce management by using technology to manage and reduce campus costs, transparently monitor energy consumption and use of campus educational equipment, especially cost and expense management, and sustainable energy use. Control usage data, energy consumption results, and estimate budget allocation related to educational institutions. IoT and Cloud Computing are also integrated into 6G networks embedded in state-of-the-art devices for use in environmental management and intelligent energy management, as well as creating new energy models and management that can solve future emergencies with external on-premises virtual energy control anytime, anywhere. Smart Building Management with twin technologies helps to intelligently manage and control indoor energy systems, such as automation for temperature control in buildings. Air conditioner energy consumption control system Electricity consumption control in lighting system This saves energy and increases the usability of buildings within smart campuses.

System Architecture of Electronic Asset Supply Chain Intelligent Platform for Digital Higher Education

Denchai Panket, Panita Wannapiroon & Prachyanun Nilsook (2024)
System Architecture of Electronic Asset Supply Chain Intelligent
Platform for Digital Higher Education.
Higher Education Studies; Vol. 14, No. 1; 2024, pp.22-32.
https://doi.org/10.5539/hes.v14n1p22

Abstract

This research aims to design an intelligent platform architecture for electronic asset supply chains for digital higher education and to evaluate the architecture of the intelligent platform for electronic asset supply chains for digital higher education. The sample group consists of evaluations of the intelligent platform architecture for the electronic asset supply chains for digital higher education by experts. These experts assess and certify the appropriateness of the architecture, evaluating the content’s suitability and the management processes. The evaluations were conducted by 5 experts who have experience in managing assets in higher education or relevant areas. The research results indicate that the designed intelligent platform architecture for electronic asset supply chains for digital higher education, on average, scored 4.43, which is considered ‘good’. The evaluation of its developmental trend from architecture to platform has an average score of 4.80, considered ‘very good’. Following that, both the system (Administrators) and the (Webserver and Database Server) evaluations yielded the same average score of 4.60, which is also ranked as ‘very good.’

สวัสดีปีใหม่ พ.ศ.2567 Happy New Year 2024

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Distributed Communicative Language Training Platform Using Automatic Speech Recognition Technology for Smart University

Keywords: 

Distributed Enterprise, Communicative Language Teaching, Automatic Speech Recognition, Smart University

ABSTRACT

The purpose of this research is to achieve the following objectives: 1) Synthesize documents and international research on the characteristics of a smart university. 2) Synthesize the processes of distributed communicative language training (DCLT). 3) Design the system architecture of a DCLT platform that utilizes automatic speech recognition (ASR) technology for a smart university. 4) Evaluate the appropriateness of a DCLT platform that utilizes ASR technology for a smart university. Nine experts were selected for this research. They were required to have more than five years of relevant experience in the field, including expertise in system architecture, distributed enterprise, language teaching, and ASR. The research instruments included a suitable assessment form for evaluating the system architecture of a DCLT platform that utilizes ASR technology for a smart university. The results of this research indicate that the DCLT platform, which utilizes ASR technology, was considered suitable for a smart university.

Phuengrod, S., Wannapiroon, P., & Nilsook, P. (2023). Distributed Communicative Language Training Platform
Using Automatic Speech Recognition Technology for Smart University.
International Journal of Emerging Technologies in Learning (iJET),
18(24), pp. 96–111. https://doi.org/10.3991/ijet.v18i24.40619

A Fabricator Competency for Engineering Students in Tertiary Education

ABSTRACTThis article presents the development of fabricator competency for engineering students in tertiary education during the seamless era. This study explored the approach to synthesizing, designing, and developing fabricator competency. The study identified six key components of fabricator competency: 1) Knowledge of materials, 2) Problem-solving and design, 3) Using design software, 4) Using hardware and machines, 5) Safety knowledge and awareness, and 6) Communication and publication. This study emphasizes the importance of human poten-tial development, specifically in the case of engineering students in tertiary education. A com-petency framework for a fabricator in the seamless era has been developed by synthesizing, designing, and developing fabricator competencies based on published research on fabrica-tor competency.

Srisawat, S., Wannapiroon, P., Nilsook, P. (2023). A Fabricator Competency for Engineering Students in Tertiary Education.
International Journal of Engineering Pedagogy (iJEP), 13(8), pp. 117–130.
https://doi.org/10.3991/ijep.v13i8.41653

Coordination Mechanisms and Systems to Enhance Thai Early Childhood Development Management Efficiency

Abstract
Early childhood development (ECD) is critical for ensuring the long-term well-being and success of individuals and societies. In Thailand, the management of ECD services faces significant challenges due to fragmented coordination and integration across various sectors and agencies. Therefore, this study aimed to enhance the efficiency of Thai early childhood development management (ECDM) by developing coordination mechanisms and systems (CMS). A mixed-methods approach was utilized, involving online structured interviews with six ECDM policymakers, content analysis of the data, and four focus group discussions with ten individuals from various sectors. A draft handbook for CMS was developed through an online connoisseurship seminar, and an opinion questionnaire was collected from 200 executives and practitioners across four Thai regions using Google Forms. The results identified four mechanisms crucial for driving an effective EDCM coordination system: national, provincial, subdistrict, and coordination. These mechanisms comprised an information and communication
technology (ICT) system, a management system, a resource management system combined with budget planning, and a supervision, monitoring, and evaluation system. Additionally, three stages of policy
recommendations were proposed: urgent, intermediate, and long-term. This research provides a framework for improving ECDM in Thailand, promoting better integration and efficiency in delivering
essential early childhood services.

Keywords: Coordination mechanisms and systems, Early childhood development management efficiency, Education development, Thailand

Werayut Chatakan, Phanagrid Boonpob, Nopparat Chairueang, Julalax Sutra, Naruporn Thitipraserth and Prachyanun Nilsook. (2024)
Coordination Mechanisms and Systems to Enhance Thai Early Childhood Development Management Efficiency.
Asia-Pacific Journal of Research in Early Childhood Education. Vol.18, No.3, September 2024, pp.61-85.
http://dx.doi.org/10.17206/apjrece.2024.18.3.61


https://www.pecerajournal.com/detail/30011042

Constructionism Imagineering Learning Model via Metaverse to Enhance Young Innovators

Abstract

Constructionism imagineering learning model via metaverse is an instrument for promoting self-learning through hands-on. To create new knowledge for young innovators by combining the concepts of technology and new learning platforms to create new ideas. Designing teaching and learning that can be used to learn in the new normal focuses on continuous learning at any time, anywhere, with the benefits of using technology. The sample group is six experts in designing and developing learning models and learning systems from various institutions in higher education by purposive sampling. The research instruments are as follows. 1) The constructionism imagineering learning model via metaverse to enhance young innovators. 2) The constructionism imagineering learning process via metaverse to enhance young innovators. 3) An assessment form for the constructionism imagineering learning model via metaverse to enhance young innovators. 4) An assessment form for the constructionism imagineering learning process via metaverse to enhance young innovators. Analyse data using mean and standard deviation. The researchers found that the constructionism imagineering learning model via metaverse and the constructionism imagineering learning model via metaverse, which is developed is appropriate to enhance young innovators at the highest level, following the research hypotheses.

Suputtra Sapliyan, Pinanta Chatwattana & Prachyanun Nilsook (2023)
Constructionism Imagineering Learning Model via Metaverse to Enhance Young Innovators. Journal of Education and Learning; Vol. 12, No. 4; 2023 ; pp.81-91. (ERIC)
https://doi.org/10.5539/jel.v12n4p81