His primary areas of study are Control theory, Linear system, Optimal control, Control system and Frequency domain. His Control theory study frequently links to adjacent areas such as Tracking. His Linear system research includes elements of Null, Eigenvalues and eigenvectors and Explicit formulae.
The Control system study combines topics in areas such as Limit cycle, Exponential stability, Nonlinear system and Open-loop controller. His Frequency domain research focuses on subjects like Sampled data systems, which are linked to Sampling, Algorithm and Sampling. His Robust control research incorporates elements of Symmetric matrix and Applied mathematics.
The scientist’s investigation covers issues in Control theory, Robust control, Mathematical optimization, Control system and Linear system. His Control theory study combines topics from a wide range of disciplines, such as Tracking and Communication channel. The various areas that Li Qiu examines in his Robust control study include Upper and lower bounds and Applied mathematics.
His Mathematical optimization research incorporates elements of Bounded function and Interpolation. The study incorporates disciplines such as Discrete time and continuous time and Fading in addition to Control system. His Linear system research includes elements of MIMO, Controllability and Pole–zero plot.
His scientific interests lie mostly in Control theory, Topology, Networked control system, Mathematical optimization and Matrix. His research on Control theory often connects related topics like Communication channel. His research investigates the link between Networked control system and topics such as Bounded function that cross with problems in Stability, Linear subspace, Robust control, Synchronizing and Vehicle dynamics.
His work in the fields of Optimization problem overlaps with other areas such as Load profile. His Matrix research also works with subjects such as
Li Qiu mainly focuses on Control theory, Mathematical optimization, Eigenvalues and eigenvectors, Discrete mathematics and Matrix. Li Qiu interconnects Upper and lower bounds and Bounded function in the investigation of issues within Control theory. His research integrates issues of Partially observable Markov decision process, Plane and Markov process in his study of Mathematical optimization.
His research in Eigenvalues and eigenvectors focuses on subjects like Positive-definite matrix, which are connected to Laplacian matrix, Applied mathematics, Zero, Simple and Passivity. As a part of the same scientific family, Li Qiu mostly works in the field of Matrix, focusing on Graph and, on occasion, Complex network, Computation, Randomized algorithm, Distributed algorithm and PageRank. As a part of the same scientific study, he usually deals with the Networked control system, concentrating on Nonlinear system and frequently concerns with Control system.
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A formula for computation of the real stability radius
Li Qiu;B. Bernhardsson;A. Rantzer;E.J. Davison.
H ∞ design of general multirate sampled-data control systems
Tongwen Chen;Li Qiu;Li Qiu.
Reconstruction of continuous-time systems from their non-uniformly sampled discrete-time systems
Feng Ding;Li Qiu;Tongwen Chen.
Feedback Stabilization of Discrete-Time Networked Systems Over Fading Channels
Nan Xiao;Lihua Xie;Li Qiu.
IEEE Transactions on Automatic Control (2012)
Limitations on maximal tracking accuracy
Jie Chen;Li Qiu;O. Toker.
IEEE Transactions on Automatic Control (2000)
Position control of linear switched reluctance motors for high-precision applications
Wai-Chuen Gan;N.C. Cheung;Li Qiu.
IEEE Transactions on Industry Applications (2003)
Tracking performance limitations in LTI multivariable discrete-time systems
O. Toker;Jie Chen;Li Qiu.
IEEE Transactions on Circuits and Systems I-regular Papers (2002)
Bias compensation based recursive least-squares identification algorithm for MISO systems
Feng Ding;Tongwen Chen;Li Qiu.
IEEE Transactions on Circuits and Systems Ii-express Briefs (2006)
The stability robustness of generalized eigenvalues
L. Qiu;E.J. Davison.
IEEE Transactions on Automatic Control (1992)
Stabilization of networked multi-input systems with channel resource allocation
Li Qiu;Guoxiang Gu;Wei Chen.
international conference on control, automation, robotics and vision (2008)
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