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Gu, J., Gao, B., Chen, Y., Jiang, L., Gao, Z., & Ma, X., et al. (2017). Wearable social sensing: content-based processing methodology and implementation. IEEE Sensors Journal, PP(21), 1–1.Search in Google Scholar
King, S. (2021). Create value with more integration in building automation controllers. Electrical engineering (Sep.).Search in Google Scholar
Shafik, M. B., Chen, H., & Rashed, G. I. (2020). Planning and reliability assessment to integrate distributed automation system into distribution networks utilizing binary hybrid pso and gsa algorithms considering uncertainties. International Transactions on Electrical Energy Systems.Search in Google Scholar
Reddy, D. (2018). The big picture for home automation. Electrical Engineering(APR.), 24–24.Search in Google Scholar
Grachev, V. V., Grishchenko, A. V., & Kruchek, V. A. (2018). Automation of adjustment of the selective characteristic of a locomotive traction generator with electric transmission. Russian Electrical Engineering, 89(10), 581–587.Search in Google Scholar
Sacke, N. (2021). Intelligent building automation with iot: the benefits. Electrical engineering(Apr.).Search in Google Scholar
Farzan Khatib‐Tohidkhaneh, Seyed Mohsen Mohammadi‐Hosseininejad, & Saberi, H. (2020). A probabilistic electric power distribution automation operational planning approach considering energy storage incorporation in service restoration. International Transactions on Electrical Energy Systems, 30(5).Search in Google Scholar
Popovic, Zeljko N.Knezevic, Stanko D.Kerleta, Vojin Dj. (2019). Network automation planning in distribution networks with distributed generators using a risk-based approach. Electrical engineering, 101(2).Search in Google Scholar
King, S. (2021). Developing standard enclosures for smart technology, iiot and automation. Electrical engineering (Oct.).Search in Google Scholar
Chang, W., Wei, R., Zhao, S., Wellings, A. J., Woodcock, J. C. P., & Burns, A. (2020). Development automation of real-time java. ACM Transactions on Embedded Computing Systems (TECS).Search in Google Scholar
Radhakrishnan, K. K., Moirangthem, J., Panda, S. K., & Amaratunga, G. A. J. (2018). Gis integrated automation of a near real-time power-flow service for electrical grids. IEEE Transactions on Industry Applications, PP(99), 1–1.Search in Google Scholar
Lin, Yu‐Hsiu. (2019). Novel smart home system architecture facilitated with distributed and embedded flexible edge analytics in demandide management. International Transactions on Electrical Energy Systems.Search in Google Scholar
Gao, Y. U., Lei, Y. U., & Chen, L. (2023). A successful framework for the accreditation of an electrical engineering and automation program. The international journal of engineering education(5), 39.Search in Google Scholar
Shuai, H. (2017). Development and intelligent design of electrical automation control technology. Revista de la Facultad de Ingenieria, 32(11), 979–983.Search in Google Scholar
Chu, Y., & Park, J. H. (2020). Efficient learning modules for embedded system. International Journal of Electrical Engineering Education.Search in Google Scholar
Sutar, S., Raha, A., & Raghunathan, V. (2018). Memory-based combination pufs for device authentication in embedded systems. IEEE Transactions on Multi-Scale Computing Systems.Search in Google Scholar
Chiang, H., Chen, Y., Wu, B., & Lee, T. (2017). Embedded driver-assistance system using multiple sensors for safe overtaking maneuver. IEEE Systems Journal, 8(3), 681–698.Search in Google Scholar
Xu, S. D., Huang, H. C., Kung, Y. C., & Chu, Y. Y. (2020). A networked multirobot cps with artificial immune fuzzy optimization for distributed formation control of embedded mobile robots. IEEE Transactions on Industrial Informatics, 16(1), 414–422.Search in Google Scholar
Chen, J. (2020). International conference on communication, computing and electronics systems - proceedings of iccces 2019. Lecture Notes in Electrical Engineering.Search in Google Scholar
Burcea, B. G. H. (2019). Mems-ic robustness optimization considering electrical and mechanical design and process parameters. ACM Transactions on Design Automation of Electronic Systems, 24(4).Search in Google Scholar