Dr Lanlan Su
Department of Automatic Control and Systems Engineering
Lecturer
Full contact details
Department of Automatic Control and Systems Engineering
Amy Johnson Building
Portobello Street
Sheffield
S1 3JD
- Profile
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Dr. Su received the B.E. degree in electrical engineering from Zhejiang University, China, in 2014, and the Ph.D. degree in control systems from the University of Hong Kong under the supervision of Prof. Graziano Chesi, Hong Kong, in 2018. She is an awardee of the Hong Kong Ph.D. Fellowship Scheme established by the Research Grants Council of Hong Kong. In 2017, she was a visiting scholar at University of Notre Dame, USA, hosted by Prof. Vijay Gupta and Prof. Panos Antsaklis.
She joined the Department of Automatic and Control Systems Engineering at University of Sheffield as a lecturer in 2022. From 2020 to 2022, she was a Lecturer at the University of Leicester, UK. Before that, she was a Postdoctoral Research Associate at the University of Notre Dame, USA.
- Research interests
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Her research interests include robust control, networked control systems, large-scale complex dynamic network, distributed control/optimisation, convex optimisation, multiplier-based and dissipativity-based analysis.
- Publications
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Journal articles
- Lanlan Su [People in Control]. IEEE Control Systems, 43(5), 18-19.
- On the necessity and sufficiency of discrete-time O’Shea–Zames–Falb multipliers. Automatica, 150, 110872-110872.
- Distributed Resource Allocation Over Time-Varying Balanced Digraphs With Discrete-Time Communication. IEEE Transactions on Control of Network Systems, 9(1), 487-499.
- On the necessity and sufficiency of the Zames–Falb multipliers for bounded operators. Automatica, 131, 109787-109787.
- Robust monotonic convergent iterative learning control design: An LMI‐based method. International Journal of Robust and Nonlinear Control, 31(13), 6438-6453.
- Distributed Optimization With Event-Triggered Communication via Input Feedforward Passivity. IEEE Control Systems Letters, 5(1), 283-288.
- Stabilization of Linear Systems Across a Time-Varying AWGN Fading Channel. IEEE Transactions on Automatic Control, 65(11), 4902-4907.
- Analysis of Two-Dimensional Feedback Systems Over Networks Using Dissipativity. IEEE Transactions on Automatic Control, 65(8), 3241-3255.
- Feedback Passivation of Linear Systems With Fixed-Structure Controllers. IEEE Control Systems Letters, 4(2), 498-503.
- Consensus of Heterogeneous Multi-Agent Systems With Diffusive Couplings via Passivity Indices. IEEE Control Systems Letters, 3(2), 434-439.
- On the Design of Output Feedback Controllers for LTI Systems Over Fading Channels. IEEE Transactions on Automatic Control, 63(5), 1503-1508.
- Robust stability of uncertain linear systems with input and output quantization and packet loss. Automatica, 87, 267-273.
- Robust Stability Analysis and Synthesis for Uncertain Discrete-Time Networked Control Systems Over Fading Channels. IEEE Transactions on Automatic Control, 62(4), 1966-1971.
- Instant distributed MPC with reference governor. International Journal of Control, 1-11.
Conference proceedings papers
- Instant Distributed Model Predictive Control for Constrained Linear Systems. 2020 American Control Conference (ACC), 1 July 2020 - 3 July 2020.
- Stability analysis of networked control systems with uncertain packet-loss probability. 2018 SICE International Symposium on Control Systems (SICE ISCS), 9 March 2018 - 11 March 2018.
- Robust Stability of Uncertain Discrete-time Linear Systems with Input and Output Quantization. IFAC-PapersOnLine, Vol. 50(1) (pp 375-380)
- On the robust stability of uncertain discrete-time networked control systems over fading channels. 2015 American Control Conference (ACC), 1 July 2015 - 3 July 2015.
Preprints
- Steady-state analysis of networked epidemic models.
- On the Necessity and Sufficiency of Discrete-Time O'Shea-Zames-Falb Multipliers.
- On the Necessity and Sufficiency of the Zames-Falb Multipliers for Bounded Operators.
- Robust Monotonic Convergent Iterative Learning Control Design: an LMI-based Method.
- Analysis of Two-Dimensional Feedback Systems over Networks Using Dissipativity.
- Distributed Resource Allocation over Time-varying Balanced Digraphs with Discrete-time Communication.
- Feedback Passivation of Linear Systems with Fixed-Structured Controllers.
- Stabilization of Linear Systems Across a Time-Varying AWGN Fading Channel.
- Teaching activities
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ACS230 Control Systems Design and Analysis