T.C. Green

26.9k total citations · 9 hit papers
361 papers, 18.3k citations indexed

About

T.C. Green is a scholar working on Electrical and Electronic Engineering, Control and Systems Engineering and Mechanical Engineering. According to data from OpenAlex, T.C. Green has authored 361 papers receiving a total of 18.3k indexed citations (citations by other indexed papers that have themselves been cited), including 292 papers in Electrical and Electronic Engineering, 137 papers in Control and Systems Engineering and 30 papers in Mechanical Engineering. Recurrent topics in T.C. Green's work include Microgrid Control and Optimization (111 papers), HVDC Systems and Fault Protection (109 papers) and Silicon Carbide Semiconductor Technologies (62 papers). T.C. Green is often cited by papers focused on Microgrid Control and Optimization (111 papers), HVDC Systems and Fault Protection (109 papers) and Silicon Carbide Semiconductor Technologies (62 papers). T.C. Green collaborates with scholars based in United Kingdom, United States and China. T.C. Green's co-authors include Milan Prodanović, N. Pogaku, Paul D. Mitcheson, Eric M. Yeatman, Andrew S. Holmes, C.A. Hernandez-Aramburo, Michael Merlin, Yunjie Gu, Nathaniel Bottrell and Jeffrey M. Bloemink and has published in prestigious journals such as Neuron, Journal of Neuroscience and SHILAP Revista de lepidopterología.

In The Last Decade

T.C. Green

350 papers receiving 17.5k citations

Hit Papers

Modeling, Analysis and Testing of Autonomous Operation of... 2004 2026 2011 2018 2007 2008 2008 2004 2004 500 1000 1.5k 2.0k
What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

  1. Modeling, Analysis and Testing of Autonomous Operation of an Inverter-Based Microgrid
    2007 2.3k citations T.C. Green et al. IEEE Transactions on Power Electronics profile →
  2. Energy Harvesting From Human and Machine Motion for Wireless Electronic Devices
    2008 1.4k citations Paul D. Mitcheson, T.C. Green et al. profile →
  3. Energy Management in Autonomous Microgrid Using Stability-Constrained Droop Control of Inverters
    2008 601 citations T.C. Green et al. IEEE Transactions on Power Electronics profile →
  4. Architectures for Vibration-Driven Micropower Generators
    2004 576 citations Paul D. Mitcheson, T.C. Green et al. profile →
  5. MEMS electrostatic micropower generator for low frequency operation
    2004 487 citations Paul D. Mitcheson, T.C. Green et al. profile →
  6. Fuel Consumption Minimization of a Microgrid
    2005 414 citations T.C. Green et al. IEEE Transactions on Industry Applications profile →
  7. Dynamic Stability of a Microgrid With an Active Load
    2013 338 citations T.C. Green et al. IEEE Transactions on Power Electronics profile →
  8. Revisiting Grid-Forming and Grid-Following Inverters: A Duality Theory
    2022 279 citations Yitong Li, Yunjie Gu et al. profile →
  9. Power System Stability With a High Penetration of Inverter-Based Resources
    2022 138 citations Yunjie Gu, T.C. Green profile →

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
T.C. Green United Kingdom 62 15.9k 9.9k 3.0k 1.6k 1.3k 361 18.3k
Zhe Zhang China 48 6.6k 0.4× 2.5k 0.3× 1.1k 0.4× 1.2k 0.7× 377 0.3× 781 10.5k
Anı́bal T. de Almeida Portugal 56 5.4k 0.3× 2.4k 0.2× 1.8k 0.6× 2.5k 1.5× 323 0.2× 341 10.1k
Huai Wang Denmark 52 11.0k 0.7× 3.8k 0.4× 1.1k 0.4× 229 0.1× 460 0.3× 437 12.5k
Wei Xu China 43 6.4k 0.4× 3.5k 0.3× 1.1k 0.4× 278 0.2× 115 0.1× 474 8.0k
Abbas Z. Kouzani Australia 51 2.2k 0.1× 620 0.1× 1.6k 0.5× 3.4k 2.1× 94 0.1× 496 10.1k
An Luo China 42 4.9k 0.3× 3.3k 0.3× 531 0.2× 45 0.0× 803 0.6× 304 5.9k
Jun Hu China 54 5.2k 0.3× 1.5k 0.2× 885 0.3× 4.6k 2.9× 30 0.0× 371 11.1k
Ben Horan Australia 36 3.2k 0.2× 1.1k 0.1× 359 0.1× 267 0.2× 333 0.2× 159 5.7k
Yong Tang China 69 4.3k 0.3× 332 0.0× 7.0k 2.3× 2.8k 1.7× 54 0.0× 671 16.8k
Geert Deconinck Belgium 43 4.2k 0.3× 2.0k 0.2× 164 0.1× 152 0.1× 216 0.2× 462 6.4k

Countries citing papers authored by T.C. Green

Since Specialization
Citations

This map shows the geographic impact of T.C. Green's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by T.C. Green with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites T.C. Green more than expected).

Fields of papers citing papers by T.C. Green

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by T.C. Green. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by T.C. Green. The network helps show where T.C. Green may publish in the future.

Co-authorship network of co-authors of T.C. Green

This figure shows the co-authorship network connecting the top 25 collaborators of T.C. Green. A scholar is included among the top collaborators of T.C. Green based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with T.C. Green. T.C. Green is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
2.
Jansen, Malte, et al.. (2022). Island in the Sea: The prospects and impacts of an offshore wind power hub in the North Sea. Advances in Applied Energy. 6. 100090–100090. 33 indexed citations
3.
Hou, Xiaochao, Kai Sun, Ning Zhang, et al.. (2021). Priority-Driven Self-Optimizing Power Control Scheme for Interlinking Converters of Hybrid AC/DC Microgrid Clusters in Decentralized Manner. IEEE Transactions on Power Electronics. 37(5). 5970–5983. 27 indexed citations
4.
Cameron, Keith C., et al.. (2020). The effect of polyferric sulphate treated farm dairy effluent and clarified water on leaching losses, greenhouse gas emissions and pasture growth. New Zealand Journal of Agricultural Research. 64(3). 271–285. 9 indexed citations
5.
Xiang, Xin, Yunjie Gu, Kaiwen Chen, Alessandro Astolfi, & T.C. Green. (2020). On the Dynamics of Inherent Balancing of Modular Multilevel DC–AC–DC Converters. IEEE Transactions on Power Electronics. 36(1). 34–40. 5 indexed citations
6.
Gu, Yunjie, et al.. (2019). Motion-Induction Compensation to Mitigate Sub-Synchronous Oscillation in Wind Farms. IEEE Transactions on Sustainable Energy. 11(3). 1247–1256. 21 indexed citations
7.
Junyent‐Ferré, Adrià, et al.. (2019). Comparative Optimization Design of a Modular Multilevel Converter Tapping Cells and a 2L-VSC for Hybrid LV ac/dc Microgrids. IEEE Transactions on Industry Applications. 55(3). 3228–3240. 29 indexed citations
8.
Gu, Yunjie, Yitong Li, & T.C. Green. (2018). Impedance/Admittance Modeling of Three-Phase AC Systems: A General Representation. arXiv (Cornell University). 1 indexed citations
9.
Guo, Jingli, Jun Liang, Xiaotian Zhang, et al.. (2016). Reliability Analysis of MMCs Considering Submodule Designs with Individual or Series-Operated IGBTs. IEEE Transactions on Power Delivery. 32(2). 666–677. 60 indexed citations
10.
Luth, Thomas, Michael Merlin, & T.C. Green. (2014). Modular multilevel DC/DC converter architectures for HVDC taps. 1–10. 56 indexed citations
11.
Brown, Abbie & T.C. Green. (2012). QR Codes in the Classroom: Applications of Augmented Reality. Society for Information Technology & Teacher Education International Conference. 2012(1). 3434–3436. 2 indexed citations
12.
Green, T.C., et al.. (2011). Small-signal model of photovoltaic power converter for selection of Perturb and Observe algorithm step time. European Conference on Power Electronics and Applications. 1–5. 3 indexed citations
13.
Bloemink, Jeffrey M. & T.C. Green. (2010). Increasing distributed generation penetration using soft normally-open points. Spiral (Imperial College London). 1–8. 180 indexed citations
14.
Green, T.C., et al.. (2010). Taking Laptops Schoolwide: A Professional Learning Community Approach.. Learning and leading with technology. 38(1). 12–15. 3 indexed citations
15.
Green, T.C., et al.. (2009). Korean Parents' Perceptions on the Importance of Computer Usage for Themselves and Their Children: An Exploratory Study.. SHILAP Revista de lepidopterología. 1(2). 54–66. 5 indexed citations
16.
Brucoli, Maria, T.C. Green, & John D. McDonald. (2007). Modelling and Analysis of Fault Behaviour of Inverter Microgrids to Aid Future Fault Detection. 1–6. 74 indexed citations
17.
Rehtanz, Christian, et al.. (2003). Control avanzado de dispositivos FACTS. 21–26.
18.
Andersson, Göran, T.C. Green, Bikash C. Pal, & Christian Rehtanz. (2003). Advanced FACTS control. Spiral (Imperial College London). 1 indexed citations
19.
He, Xiangning, B.W. Williams, S.J. Finney, & T.C. Green. (2002). Analysis and comparison of a new passive lossless snubber for high frequency converter application. European Conference on Power Electronics and Applications. 344–349. 9 indexed citations
20.
Reay, Donald, T.C. Green, & B.W. Williams. (1993). Minimisation of torque ripple in a switched reluctance motor using a neural network. 224–228. 7 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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