Napasorn Phaokla
- Giannakos, Michail & Sampson, Demetrios & Kidziński, Łukasz. (2016). Introduction to smart learning analytics: foundations and developments in video-based learning. Smart Learning Environments, 3, 152-163.Google Scholar
Cross Ref
- Zhu, Zhiting & Yu, Ming-Hua & Riezebos. Peter. (2016). A research framework of smart education. Smart Learning Environments, 3, 4(2016), 7-15.Google ScholarCross Ref
- Wu, F.; Wu, T.; Yuce, M.R. (2018). An Internet-of-Things (IoT) Network System for Connected Safety and Health Monitoring Applications. Sensors 2019, 19(1), 21-25.Google Scholar
- Shawar, Bayan & Atwell, Eric. (2007). Chatbots: Are they Really Useful?. LDV Forum, 22(1), 29-49.Google Scholar
- The Pollution Control Department of Thailand. (2018). Air Quality Press, 62.Google Scholar
- WHO Regional Office for Europe. (2011). Public Health Advice on Preventing Health Effects of Heat: New update information for different audiences, Copenhagen, Denmark, 34.Google Scholar
- Hussein, Shawqi & Shariff, Sya & Mantoro, Teddy. (2017). Parental Involvement and Awareness Using Malaysian's Smart School Management System. Advanced Science Letters, 23, 712-716.Google ScholarCross Ref
- Al-Majeed Salah, Mirtskhulava Lela, Sarim AL-Zubaidy. (2016). Smart Education Environment System, Computer Science and Technology System, 44, 21-26.Google Scholar
- Spector, JM. (2014). Conceptualizing the emerging field of smart learning environments. Smart Learning Environments, 1(1), 5–10.Google ScholarCross Ref
- Salimi, Ladan & Ghonoodi, Alireza. (2012). The study of functional elements of management system in smart schools. Procedia - Social and Behavioral Sciences, 31, 140-144.Google ScholarCross Ref
- Hwang, G-J. (2014). Definition, framework and research issues of smart learning environments – A context-aware ubiquitous learning perspective. Smart Learning Environments,1(1), 492–414.Google ScholarCross Ref
- Rukhiran, M., & Netinant, P. (2020). Mobile Application Development of Hydroponic Smart Farm using Information Flow Diagram. Proceedings of the 5th International Conference on Information Technology: InCIT2020, Pattaya, Thailand, 150-155.Google ScholarCross Ref
- Rukhiran, M., & Netinant, P. (2020). IoT Architecture based on Information Flow Diagram for Vermiculture Smart Farming Kit. TEM Journal, 9(4).Google Scholar
- Lin, Hsueh-Chun & Kan, Yao-Chiang & Hong, yao-ming. (2011). The Comprehensive Gateway Model for Diverse Environmental Monitoring Upon Wireless Sensor Network. Sensors Journal IEEE, 11, 1293 - 1303.Google ScholarCross Ref
- L. Shkurti, X. Bajrami, E. Canhasi, B. Limani, S. Krrabaj and A. Hulaj. (2017). Development of ambient environmental monitoring system through wireless sensor network (WSN) using NodeMCU and “WSN monitoring”, The 6th Mediterranean Conference on Embedded Computing (MECO), Bar Montenegro, 11-15 June 2017, 1-5.Google ScholarCross Ref
- Gyorgy Molnar and Zoitan Szuts. (2018). The role of Chatbot in Formal Education. The IEEE 16th International Symposium on Intelligent Systems and Informatics, Serbia, 13-15 September 2018, 197-200.Google Scholar
- Ketakee Nimavat Prof., & Tushar Champaneria. (2017). Chatbots: An overview Types, Architecture, Tools and Future Possibilities. International Journal for Scientific Research & Development, 15(7), 1019-1024.Google Scholar
- Ministry of Education Malaysia. (2001). Report on Collaborative Monitoring of the Implementation of Pilot Project of Smart School in the Year 2000. Kuala Lumpur: Teacher Education Division. 253-280.Google Scholar
- Pavel Smutny, Petra Shreiberova. (2020). Chatbots for learning: A review of educational chatbots for the Facebook Messenger. Computer & Education, 151 ,103862.Google ScholarCross Ref
- Lopatovska I, Rink K, Knight I, (2019). Talk to me: Exploring user interactions with the Amazon Alexa. International Journal of Librarianship and Information Science. 51(4), 984-997.Google ScholarCross Ref
- Rukhiran, M., Netinant, P., & Elrad, T. (2020). Effecting of environmental conditions to accuracy rates of face recognition based on IoT solution. Journal of Current Science and Technology, 10(1), 21 – 33.Google Scholar
Recommendations
Developing Software Architecture for A Smart School Digital Framework
ICSIM '21: Proceedings of the 2021 4th International Conference on Software Engineering and Information ManagementEducation is a fundamental need for everyone. The smart school is an education institution that has been systematically implemented based on technology, in order to prepare children for the information age, and help with the school's activities, ...
Extended Reality for Smart Built Environments Design: Smart Lighting Design Testbed
Distributed, Ambient and Pervasive Interactions. Smart Environments, Ecosystems, and CitiesAbstractSmart Built Environment is an eco-system of ‘connected’ and ‘smart’ Internet of Things (IoT) devices that are embedded in a built environment. Smart lighting is an important category of smart IoT devices that has recently attracted research ...
A lightweight framework for secure life-logging in smart environments
AbstractAs the world becomes an interconnected network where objects and humans interact with each other, new challenges and threats appear in the ecosystem. In this interconnected world, smart objects have an important role in giving users ...
Comments