Research on power quality assessment based on ubiquitous power IoT

[1] Yang M, Huang X L, Miu W W, et al. (2020). Deep Reinforcement Learning Based Green Resource Allocation Mechanism in Mobile Edge Network for Ubiquitous Power IoT [J]. DEStech Transactions on Engineering and Technology Research. Search in Google Scholar

[2] Zhou Z, Chen X, Liao H, et al. (2020). Context-Aware Learning-Based Resource Allocation for Ubiquitous Power IoT [J]. 2020. Search in Google Scholar

[3] Jiang A, Yuan H, Li D, et al. (2019). Key technologies of ubiquitous power Internet of Things-aided smart grid [J]. Journal of Renewable and Sustainable Energy, 11(6), 062702. Search in Google Scholar

[4] Srensen S L, Sartori I, Lindberg K B, et al. (2019). Electricity analysis for energy management in neighbourhoods: Case study of a large housing cooperative in Norway [J]. Journal of Physics: Conference Series, 1343(1), 012057-012062. Search in Google Scholar

[5] Chen B R, Hong D K, Wang L, et al. (2022). Research on Hybrid Communication Networking Protocol Optimization Technology of Ubiquitous Electric Internet of Things [C]. IoT and Big Data Technologies for Health Care. Springer, Cham. Search in Google Scholar

[6] Tang J, Li J, Zhong A, et al. (2019). Application of LoRa and NB-IoT in Ubiquitous Power Internet of Things: A Case Study of Fault Indicator in Electricity Distribution Network [C]. 2019 4th International Conference on Intelligent Green Building and Smart Grid (IGBSG). Search in Google Scholar

[7] Luo J, Yao S, Gou J, et al. (2019). A Secure Transmission Scheme of Sensitive Power Information in Ubiquitous Power IoT [C]. CSAI2019: 2019 3rd International Conference on Computer Science and Artificial Intelligence. Search in Google Scholar

[8] Wang Y, Liang Y, Tian W, et al. (2020). Resource Allocation Mechanism in Electric Vehicle Charging Scenario for Ubiquitous Power-IoT Coverage Enhancement [J]. Search in Google Scholar

[9] Yang W, Liu W, Wei X, et al. (2021). EdgeKeeper: a trusted edge computing framework for ubiquitous power Internet of Things [J]. Frontiers of Information Technology & Electronic Engineering. Search in Google Scholar

[10] Yang W, Liu W, Wei X, et al. (2019). Micro-Kernel OS Architecture and its Ecosystem Construction for Ubiquitous Electric Power IoT [C]. 2019 IEEE International Conference on Energy Internet (ICEI). IEEE. Search in Google Scholar

[11] Li J, Li D, Ning Z, et al. (2019). Dual-Ethernet Interface Performance Test Method Based on Ubiquitous Power Internet of Things MCU Chip. Search in Google Scholar

[12] Quartey J D, Ametorwotia W D, Laari P B. Household (2022). Effective Demand for Electricity in Ghana: Analysis and Implication for Tariffs [J]. Management & Economics Research Journal, 4. Search in Google Scholar

[13] Rahimi Z, Modiriat B. (2021). Discourse Analysis of the Country's Electricity Sector Management and Policy Making. Search in Google Scholar

[14] Joshi G, Shivam Kumar, Agarwal N. (2020). Manage Electricity Bills with Smart Electricity Load Management Based on IoT [J]. Search in Google Scholar

[15] Oshri B, Hu A, Adelson P, et al. (2018). Infrastructure Quality Assessment in Africa using Satellite Imagery and Deep Learning [J]. ACM. Search in Google Scholar

[16] Chen L, Dong X, Kuang X, et al. (2019). Towards Ubiquitous Power Distribution Communication: Multiservice Access and QoS Guarantees for IoT Applications in Smart Grid [C]. 2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia). IEEE. Search in Google Scholar

[17] Parto M, Saldana C, Kurfess T. (2020). A Novel Three-Layer IoT Architecture for Shared, Private, Scalable, and Real-time Machine Learning from Ubiquitous Cyber-Physical Systems [J]. Procedia Manufacturing, 48, 959-967. Search in Google Scholar

[18] Chakareski J. (2017). Aerial UAV-IoT Sensing for Ubiquitous Immersive Communication and Virtual Human Teleportation [J]. Search in Google Scholar

[19] Zhao M, Li Y, Yang L. (2020). Application of Ubiquitous Power Internet of Things in Power Grid Construction [J]. Search in Google Scholar

[20] Wang L, Wang D, Zhang G, et al. (2019). LTE 230MHz Wireless Private Network-Based Edge-Cloud Collaboration Architecture for Ubiquitous Power Internet of Things [C]. 2019 IEEE 11th International Conference on Communication Software and Networks (ICCSN). IEEE. Search in Google Scholar

[21] Bebortta S, Senapati D, Rajput N K, et al. (2020). Evidence of power-law behavior in cognitive IoT applications [J]. Neural Computing and Applications, 32(2). Search in Google Scholar

[22] Wang J, Guan G, Wang C, et al. (2019). Research on Dedicated Network of Distribution Electric Power IoT Based on LoRa Technology and Multi-fork tree Model [J]. IOP Conference Series: Earth and Environmental Science, 358(3), 032057-032062. Search in Google Scholar

[23] Dobref V, Popov P, Mocanu V. (2018). The Quality of Electricity Assessment in Marine Power Systems [C]. 2018 International Conference and Exposition on Electrical And Power Engineering (EPE). Search in Google Scholar

[24] Willems B, Mulder M. (2016). Competition in Retail Electricity Markets: An Assessment of Ten Years Dutch Experience [J]. Discussion Paper, 16012-eef Search in Google Scholar

[25] L Méndez, E Forniés, Garrain D, et al. (2021). Upgraded Metallurgical Grade Silicon for solar electricity production: a comparative Life Cycle Assessment [J]. Search in Google Scholar

[26] Adams S, Kuch D, Diamond L, et al. (2021). Social license to automate: A critical review of emerging approaches to electricity demand management [J]. Energy Research & Social Science, 80(2). Search in Google Scholar

[27] Judge M A, Manzoor A, Khattak H A, et al. (2020). Secure Transmission Lines Monitoring and Efficient Electricity Management in Ultra-Reliable Low Latency Industrial Internet of Things [J]. Computer Standards & Interfaces, 2020(1), 1-14. Search in Google Scholar

[28] Celotto A, Loia V, Senatore S. (2015). Fuzzy linguistic approach to quality assessment model for electricity network infrastructure [J]. Information Sciences, 304, 1-15. Search in Google Scholar

[29] Rakhimov O S, Mirzoev D N, Grachieva E I. (2021). Experimental study of quality and electricity losses in low voltage rural electric networks [J]. Power Engineering Research Equipment Technology, 23(3), 209-222. Search in Google Scholar

[30] Nunayon S S, Olanipekun E A, Famakin I O. (2020). Determining key drivers of efficient electricity management practices in public universities in Southwestern Nigeria: An empirical study [J]. International Journal of Sustainability in Higher Education, aop(aop). Search in Google Scholar

[31] Angelis E D, Carnevale C, Marcoberardino G D, et al. (2021). Low Emission Road Transport Scenarios: An Integrated Assessment of Energy Demand, Air Quality, GHG Emissions, and Costs [J]. IEEE Transactions on Automation Science and Engineering, PP(99), 1-11. Search in Google Scholar

[32] Algarvio H. (2021). Management of Local Citizen Energy Communities and Bilateral Contracting in Multi-Agent Electricity Markets [J]. Smart Cities, 4. Search in Google Scholar

[33] Iliopoulos N, Kudo S, France N. (2020). Assessing the willingness of residential electricity consumers to adopt demand side management and distributed energy resources: A case study on the Japanese market. Search in Google Scholar