Kompetensi IoT: Satu tinjauan sistematik
List of Authors
  • Muhammad Sukri Saud , Nur Shahirah Mohamed Nasir

Keyword
  • Tinjauan, Kompetensi, IoT

Abstract
  • Integrasi Internet of Things (IoT) dalam hidup dan rutin seharian telah meningkat secara ketara. Artikel ini membentangkan berkenaan tinjauan komprehensif terhadap kompetensi IoT, memfokuskan pada pengetahuan, kemahiran, kebolehan dan kelakuan yang diperlukan dalam individu dan organisasi untuk mengemudi landskap IoT dengan berkesan. Kajian ini dilakukan dengan pembacaan dari 20 kajian literatur dan rangka kerja sedia ada bagi mengenal pasti domain kompetensi utama yang menyumbang kepada kejayaan dalam usaha berkaitan IoT. Memandangkan IoT terus berkembang merentasi pelbagai sektor, pemahaman dan memupuk kompetensi yang diperlukan menjadi asas dalam memanfaatkan potensi secara penuh. Kajian ini bukan sahaja mensintesis pengetahuan sedia ada tetapi juga dapat memberikan pandangan terhadap hala tuju penyelidikan masa hadapan, pertimbangan dasar dan strategi bagi meningkatkan pembangunan kecekapan IoT. Dapatan dari kajian ini menggariskan kepada wacana yang berterusan dalam evolusi pengetahuan, kemahiran, kebolehan dan kelakuan yang diperlukan untuk berkembang maju dalam era ketersambungan dan teknologi pintar.

Reference
  • 1. Abdelhaq, M. (2022). Internet of Things Fundamentals, Architectures, Challenges and Solutions: A Survey. International Journal of Computer Science and Network Security, 22(1), 189-198. doi:10.22937/ijcsns.2022.22.1.26

    2. Aliyu, A. A., & Liu, J. S. (2023). Blockchain-Based Smart Farm Security Framework for the Internet of Things. Sensors, 23(18). doi:10.3390/s23187992

    3. Alkhariji, L., De, S., Rana, O., & Perera, C. (2023). Semantics-based privacy by design for Internet of Things applications. Future Generation Computer Systems, 138, 280-295. doi:10.1016/j.future.2022.08.013

    4. Analayo, B. (2021). Skill in Means and Mindfulness. Mindfulness, 8. doi:10.1007/s12671-021-01795-2

    5. Baucas, M. J., Spachos, P., & Plataniotis, K. N. (2023). Federated Learning and Blockchain-Enabled Fog-IoT Platform for Wearables in Predictive Healthcare. Ieee Transactions on Computational Social Systems, 10(4), 1732-1741. doi:10.1109/tcss.2023.3235950

    6. Beuran, R., Wang, J. D., Zhao, M., & Tan, Y. S. (2023). IoT security training for system developers: Methodology and tools. Internet of Things, 24, 18. doi:10.1016/j.iot.2023.100931

    7. Bilancini, E., Boncinelli, L., & Mattiassi, A. (2019). Assessing Actual Strategic Behavior to Construct a Measure of Strategic Ability. Frontiers in Psychology, 9, 15. doi:10.3389/fpsyg.2018.02750

    8. Bod'a, M., & Zimkova, E. (2019). Spatial Aspect in Bank Branch Performance Management. Inzinerine Ekonomika-Engineering Economics, 30(2), 128-139. doi:10.5755/j01.ee.30.2.19210

    9. Breil, S. M., Geukes, K., Wilson, R. E., Nestler, S., Vazire, S., & Back, M. D. (2019). Zooming into Real-Life Extraversion - how Personality and Situation Shape Sociability in Social Interactions. Collabra-Psychology, 5(1), 28. doi:10.1525/collabra.170

    10. Bucea-Manea-țoniş, R., Kuleto, V., Gudei, S. C. D., Lianu, C., Lianu, C., Ilić, M. P., & Păun, D. (2022). Artificial Intelligence Potential in Higher Education Institutions Enhanced Learning Environment in Romania and Serbia. Sustainability (Switzerland), 14(10). doi:10.3390/su14105842

    11. Castle-Green, T., Reeves, S., Fischer, J. E., & Koleva, B. (2023). Revisiting the Digital Plumber: Modifying the Installation Process of an Established Commercial IoT Alarm System. Computer Supported Cooperative Work-the Journal of Collaborative Computing and Work Practices, 32(3), 607-643. doi:10.1007/s10606-022-09455-2

    12. Chalermdit, J., Nilsook, P., & Wannapiroon, P. (2019). Analysis of an Intelligent Graphical Tutoring System Using the Internet of Things (IoT) to Develop the Competency of Embedded Systems. International journal of online and biomedical engineering, 15(4), 98-110. doi:10.3991/ijoe.v15i04.9511

    13. Chen, H., Ma, C., & Wang, Y. (2021). Application of New Sensor Technology in the Field of Education in the Era of Internet of Things. Journal of Sensors, 2021. doi:10.1155/2021/1527467

    14. Collaguazo, A., Villavicencio, M., Abran, A., & Ieee. (2020, Oct 18-24). Education Model for Developing IoT and Cloud Mobile Applications. Paper presented at the 4th IEEE International Conference on Edge Computing (IEEE EDGE) / IEEE World Congress on Services (SERVICES), Electr Network.

    15. Crespo, R., Lopez-Caudana, E., Ponce, P., & Ieee. (2019, Nov 06-07). An Immersive Week for Undergraduate Engineering Students for Developing IoT Competencies A Case Study at Tecnologico De Monterrey in Mexico. Paper presented at the 11th IEEE International Conference on Engineering Education (ICEED), Kanazawa, JAPAN.

    16. Daudov, I. M. (2022). Analysis and calculation of energy efficiency of radio beacons Internet of Things (IoT). Journal of Physics: Conference Series, 2176(1), 012015. doi:10.1088/1742-6596/2176/1/012015

    17. Dyer, A. M., Daily, S. M., Davidov, D. M., Anderson, S., Giacobbi, P. R., Lilly, C., . . . Abildso, C. G. (2020). A qualitative assessment of home visitors' knowledge, skills, and abilities in delivering prenatal physical activity curriculum modules. Children and Youth Services Review, 116, 9. doi:10.1016/j.childyouth.2020.105228

    18. Echelard, J. F., Méthot, F., Nguyen, H. A., & Pomey, M. P. (2020). Medical student training in eHealth: Scoping review. JMIR Medical Education, 6(2). doi:10.2196/20027

    19. Falloon, G. (2020). From digital literacy to digital competence: the teacher digital competency (TDC) framework. Educational Technology Research and Development, 68(5), 2449-2472. doi:10.1007/s11423-020-09767-4

    20. Frölich, S., Esmeyer, M., Endrass, T., Smolka, M. N., & Kiebel, S. J. (2023). Interaction between habits as action sequences and goal-directed behavior under time pressure. Frontiers in Neuroscience, 16, 15. doi:10.3389/fnins.2022.996957

    21. Ghosh, A., Edwards, D. J., & Hosseini, M. R. (2021). Patterns and trends in Internet of Things (IoT) research: future applications in the construction industry. Engineering Construction and Architectural Management, 28(2), 457-481. doi:10.1108/ecam-04-2020-0271

    22. Gul, N., Ahmed, S., Elahi, A., Kim, S. M., & Kim, J. (2022). Optimal Cooperative Spectrum Sensing Based on Butterfly Optimization Algorithm. Cmc-Computers Materials & Continua, 71(1), 369-387. doi:10.32604/cmc.2022.022260

    23. Gyrard, A., & Boudaoud, K. (2022). Interdisciplinary IoT and Emotion Knowledge Graph-Based Recommendation System to Boost Mental Health. Applied Sciences (Switzerland), 12(19). doi:10.3390/app12199712

    24. Hart, D., Franzen, D., Beeson, M., Bhat, R., Kulkarni, M., Thibodeau, L., . . . Promes, S. (2019). Integration of Entrustable Professional Activities with the Milestones for Emergency Medicine Residents. Western Journal of Emergency Medicine, 20(1), 35-42. doi:10.5811/westjem.2018.11.38912

    25. Humayun, M., Jhanjhi, N. Z., Alruwaili, M., Amalathas, S. S., Balasubramanian, V., & Selvaraj, B. (2020). Privacy protection and energy optimization for 5G-aided industrial internet of things. IEEE Access, 8, 183665-183677. doi:10.1109/ACCESS.2020.3028764

    26. Jassim, S. A., & Farhan, A. K. (2022). Designing a New Lightweight AES Algorithm to Improve the Security of the IoT Environment. IRAQI JOURNAL OF COMPUTERS, COMMUNICATIONS, CONTROL AND SYSTEMS ENGINEERING, 22(2), 96-108. doi:https://doi.org/10.33103/uot.ijccce.22.2.9

    27. Khokhlov, I., Reznik, L., & Ajmera, S. (2020). Sensors in Mobile Devices Knowledge Base. Ieee Sensors Letters, 4(3), 4. doi:10.1109/lsens.2020.2975161

    28. Knapik, W., Kowalska, M. K., Odlanicka-Poczobutt, M., & Kasperek, M. (2022). The Internet of Things through Internet Access Using an Electrical Power Transmission System (Power Line Communication) to Improve Digital Competencies and Quality of Life of Selected Social Groups in Poland’s Rural Areas. Energies, 15(14). doi:10.3390/en15145018

    29. Lam, W. S., Lam, W. H., & Lee, P. F. (2023). A Bibliometric Analysis of Digital Twin in the Supply Chain. Mathematics, 11(15), 24. doi:10.3390/math11153350

    30. Lelinge, B., & Svensson, C. (2020). TEACHERS' AWARENESS AND UNDERSTANDING OF STUDENTS' CONTENT KNOWLEDGE OF GEOMETRIC SHAPES. Problems of Education in the 21st Century, 78(5), 777-798. doi:10.33225/pec/20.78.777

    31. Liu, K. Z., Yang, M., Ling, Z., Yan, H. Y., Zhang, Y., Fu, X. W., & Zhao, W. (2021). On Manually Reverse Engineering Communication Protocols of Linux-Based IoT Systems. Ieee Internet of Things Journal, 8(8), 6815-6827. doi:10.1109/jiot.2020.3036232

    32. Liu, L., Song, X. Y., & Li, Y. (2022). The Emotional Mechanisms of Interpersonal Preemptive Behavior. Frontiers in Psychology, 13, 7. doi:10.3389/fpsyg.2022.841960

    33. Mahmood, M. R., Matin, M. A., Sarigiannidis, P., & Goudos, S. K. (2022). A Comprehensive Review on Artificial Intelligence/Machine Learning Algorithms for Empowering the Future IoT Toward 6G Era. IEEE Access, 10, 87535-87562. doi:10.1109/access.2022.3199689

    34. Manothiang, M., Nuratch, S., & Ieee. (2021, Dec 09-10). IoT Device and Virtual Representation Application Design and Implementation for Physical World and Virtual World Real-time Synchronization. Paper presented at the IEEE International Conference on Electrical, Computer, and Energy Technologies (ICECET), Cape Town, SOUTH AFRICA.

    35. Medveckis, A., Pigozne, T., & Tomsons, D. (2021). Enhancement of educators’ digital competences in the acquisition programming fundamentals in programming environment scratch. World Journal on Educational Technology: Current Issues, 13(4), 934-946. doi:10.18844/wjet.v13i4.6276

    36. Moreira, J., Pires, L. F., Van Sinderen, M., Daniele, L., & Girod-Genet, M. (2020). SAREF4health: Towards IoT standard-based ontology-driven cardiac e-health systems. Applied Ontology, 15(3), 385-410. doi:10.3233/AO-200232

    37. Nock, O., Starkey, J., & Angelopoulos, C. M. (2020). Addressing the Security Gap in IoT: Towards an IoT Cyber Range. Sensors, 20(18), 19. doi:10.3390/s20185439

    38. Pasko, L., Madziel, M., Stadnicka, D., Dec, G., Carreras-Coch, A., Solé-Beteta, X., . . . Atzeni, D. (2022). Plan and Develop Advanced Knowledge and Skills for Future Industrial Employees in the Field of Artificial Intelligence, Internet of Things and Edge Computing. Sustainability, 14(6). doi:10.3390/su14063312

    39. Patel, A. S., Brahmbhatt, M. N., Bariya, A. R., Nayak, J. B., & Singh, V. K. (2023). "Blockchain technology in food safety and traceability concern to livestock products". Heliyon, 9(6), 12. doi:10.1016/j.heliyon.2023.e16526

    40. Perin, A. P. J., Silva, D. E. D. S., & Valentim, N. M. C. (2023). Investigating Block Programming Tools in High School to Support Education 4.0: A Systematic Mapping Study. Informatics in Education, 22(3), 463-498. doi:10.15388/infedu.2023.21

    41. Puntel, L. A., Bolfe, É., Melchiori, R. J. M., Ortega, R., Tiscornia, G., Roel, A., . . . Balboa, G. R. (2023). How digital is agriculture in a subset of countries from South America? Adoption and limitations. Crop & Pasture Science, 74(6), 555-572. doi:10.1071/cp21759

    42. Rasmussen, J., Rasch-Christensen, A., & Qvortrup, L. (2022). Knowledge or competencies? A controversial question in contemporary curriculum debates. European Educational Research Journal, 21(6), 1009-1022. doi:10.1177/14749041211023338

    43. Rathore, S., Park, J. H., & Chang, H. (2021). Deep Learning and Blockchain-Empowered Security Framework for Intelligent 5G-Enabled IoT. IEEE Access, 9, 90075-90083. doi:10.1109/ACCESS.2021.3077069

    44. Robb, C. M. (2021). Talent dispositionalism. Synthese, 198(9), 8085-8102. doi:10.1007/s11229-020-02559-6

    45. Russo, M., Caloffi, A., Colovic, A., Pavone, P., Romeo, S., & Rossi, F. (2022). Mapping regional strengths in a key enabling technology: The distribution of Internet of Things competences across European regions. Papers in Regional Science, 101(4), 875-+. doi:10.1111/pirs.12679

    46. Sahrani, S., Ahmad, N. D., Mohamed, R., Talib, M. A., & Kit, C. J. (2023). Real-Time Monitoring of Oil Temperature in Distribution Power Transformer by Using Internet of Things. Pertanika Journal of Science and Technology, 31(1), 1-16. doi:10.47836/pjst.31.1.01

    47. Sánchez, J., Mallorquí, A., Briones, A., Zaballos, A., & Corral, G. (2020a). An Integral Pedagogical Strategy for Teaching and Learning IoT Cybersecurity. Sensors, 20(14). doi:10.3390/s20143970

    48. Sánchez, J., Mallorquí, A., Briones, A., Zaballos, A., & Corral, G. (2020b). An integral pedagogical strategy for teaching and learning iot cybersecurity. Sensors (Switzerland), 20(14), 1-35. doi:10.3390/s20143970

    49. Sargsyan, G., Castellon, N., Binnendijk, R., & Cozijnsen, P. (2019, Jul 08-13). Blockchain Security by Design Framework for Trust and Adoption in IoT Environment. Paper presented at the IEEE World Congress on Services (IEEE SERVICES), Milan, ITALY.

    50. Shirali, M., Tefke, T., Staudemeyer, R. C., & Pöhls, H. C. (2023). A Survey on Anonymous Communication Systems With a Focus on Dining Cryptographers Networks. IEEE Access, 11, 18631-18659. doi:10.1109/ACCESS.2023.3242870

    51. Siddoo, V., Sawattawee, J., Janchai, W., & Thinnukool, O. (2019). An exploratory study of digital workforce competency in Thailand. Heliyon, 5(5), e01723. doi:https://doi.org/10.1016/j.heliyon.2019.e01723

    52. Sreedevi, A. G., Harshitha, T. N., Sugumaran, V., & Shankar, P. (2022). Application of cognitive computing in healthcare, cybersecurity, big data and IoT: A literature review. Information Processing & Management, 59(2), 16. doi:10.1016/j.ipm.2022.102888

    53. Stuurman, K., & Kamara, I. (2016, Aug 22-24). IoT standardization. The approach in the field of data protection as a model for ensuring compliance of IoT applications? Paper presented at the 4th IEEE International Conference on Future Internet of Things and Cloud (FiCloud), Vienna, AUSTRIA.

    54. Sulisworo, D., Suwondo, N., Erviana, V. Y., & Fitrianawati, M. (2019). THE COLLABORATIVE ENVIRONMENT USING THE INTERNET OF THINGS IN THE THEMATIC BASED LEARNING AT THE PRIMARY SCHOOL IN INDONESIA. Information Technologies and Learning Tools, 72(4), 55-66. doi:10.33407/itlt.v72i4.3165

    55. Sundararajan, R. S., & Iqbal, M. T. (2022). A Solar Energy System with Vehicle-to-Home and Vehicle-to-Grid Option for Newfoundland/Canada Conditions through Mozilla IoT. Jordan Journal of Electrical Engineering, 8(1), 65-89. doi:10.5455/jjee.204-1624302314

    56. Tabuenca, B., Garcia-Alcantara, V., Gilarranz-Casado, C., Leo-Ramirez, A., Arquero-Gallego, J., & Tovar, E. (2022, Mar 28-31). Engineering IoT systems in the convergence between agronomic and computer sciences. Paper presented at the 13th IEEE Global Engineering Education Conference (IEEE EDUCON), Gammarth, TUNISIA.

    57. Tzafestas, S. G. (2018). Ethics and Law in the Internet of Things World. Smart Cities, 1(1), 98-120. doi:10.3390/smartcities1010006

    58. Villa, V., Bruno, G., Aliev, K., Piantanida, P., Corneli, A., & Antonelli, D. (2022). Machine Learning Framework for the Sustainable Maintenance of Building Facilities. Sustainability, 14(2), 17. doi:10.3390/su14020681

    59. Wang, N., Li, X. J., & Nie, H. (2021). Digital production control of manufacturing workshop based on internet of things. International Journal of Simulation Modelling, 20(3), 606-617. doi:10.2507/IJSIMM20-3-CO15

    60. Won, J. H., Kim, S. H., Lee, S. K., & You, Y. W. (2018). Study on measures for the enhancement of convergence security strategies in the era of the IoT. Journal of Advanced Research in Dynamical and Control Systems, 10(2), 1-7. Retrieved from https://www.scopus.com/inward/record.uri?eid=2-s2.0-85043755305&partnerID=40&md5=05f2eae01670f50edee93d0a87bb6a2d

    61. Zhang, H., Zhang, X., Guo, Z. Q., Wang, H. W., Cui, D., & Wen, Q. Y. (2023). Secure and Efficiently Searchable IoT Communication Data Management Model: Using Blockchain as a New Tool. Ieee Internet of Things Journal, 10(14), 11985-11999. doi:10.1109/jiot.2021.3121482

    62. Zur, A. (2020). Two Heads Are Better Than One-Entrepreneurial Continuous Learning through Massive Open Online Courses. Education Sciences, 10(3), 15. doi:10.3390/educsci10030062