# James Lam

## H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering H-index 91 Citations 26,914 359 World Ranking 75 National Ranking 5

## Research.com Recognitions

### Awards & Achievements

2012 - IEEE Fellow For contributions to analysis and synthesis of control systems

## What is he best known for?

### The fields of study he is best known for:

• Control theory
• Mathematical analysis
• Ecology

James Lam mainly focuses on Control theory, Linear matrix inequality, Exponential stability, Linear system and Robust control. His Control theory research includes themes of State and Mathematical optimization. His work deals with themes such as Full state feedback, Quadratic equation and H control, which intersect with Linear matrix inequality.

His research integrates issues of Linearization, Artificial neural network, Applied mathematics, Exponential function and Upper and lower bounds in his study of Exponential stability. His biological study spans a wide range of topics, including Matrix, Delay dependent, Bounded function and Stability theory. James Lam has included themes like Exponential growth and Jumping in his Robust control study.

### His most cited work include:

• Brief paper: Stabilization of linear systems over networks with bounded packet loss (595 citations)
• Brief An LMI approach to design robust fault detection filter for uncertain LTI systems (480 citations)
• Delay-Dependent $H_{\infty }$ Control and Filtering for Uncertain Markovian Jump Systems With Time-Varying Delays (474 citations)

## What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Control theory, Linear matrix inequality, Exponential stability, Linear system and Control theory. His Control theory research is multidisciplinary, incorporating perspectives in Matrix, State and Mathematical optimization. He combines subjects such as H-infinity methods in control theory, Discrete time and continuous time, Robust control, Norm and Full state feedback with his study of Linear matrix inequality.

His work in Exponential stability covers topics such as Applied mathematics which are related to areas like Reduction. The study incorporates disciplines such as Control system, Iterative method and Bounded function in addition to Linear system. His Control theory research is under the purview of Control engineering.

### He most often published in these fields:

• Control theory (63.21%)
• Linear matrix inequality (18.90%)
• Exponential stability (16.05%)

## What were the highlights of his more recent work (between 2016-2021)?

• Environmental chemistry (13.71%)
• Control theory (63.21%)
• South china (5.02%)

### In recent papers he was focusing on the following fields of study:

James Lam focuses on Environmental chemistry, Control theory, South china, Exponential stability and Control theory. His work in the fields of Environmental chemistry, such as Bioaccumulation, intersects with other areas such as Enantiomer. His Control theory research focuses on Bounded function and how it relates to Feed forward.

His work deals with themes such as Positive systems, Iterative method, Lyapunov function and Applied mathematics, which intersect with Exponential stability. His Lyapunov function research is multidisciplinary, relying on both Upper and lower bounds and Piecewise. His work on Matrix expands to the thematically related Control theory.

### Between 2016 and 2021, his most popular works were:

• Stability analysis and L1-gain characterization for switched positive systems under dwell-time constraint (95 citations)
• Occurrence, Distribution, and Fate of Organic UV Filters in Coral Communities (76 citations)
• Occurrence, Distribution, and Fate of Organic UV Filters in Coral Communities (76 citations)

## In his most recent research, the most cited papers focused on:

• Control theory
• Mathematical analysis
• Artificial intelligence

His primary areas of investigation include Environmental chemistry, Control theory, Sewage treatment, Control theory and Microbiology. His work on Bioaccumulation as part of general Environmental chemistry research is frequently linked to Phytoplankton, Limnohabitans and Nitrosopumilus, bridging the gap between disciplines. The Exponential stability and Positive systems research he does as part of his general Control theory study is frequently linked to other disciplines of science, such as Dwell time, therefore creating a link between diverse domains of science.

The study incorporates disciplines such as Wastewater, Effluent and Sewage in addition to Sewage treatment. As a member of one scientific family, he mostly works in the field of Control theory, focusing on Matrix and, on occasion, Basis, Actuator saturation, Vibration control, Markov chain and Numerical stability. His Microbiology study incorporates themes from Microbiome, Gut flora, Dysbiosis, Oxidative stress and Toxicity.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

## Top Publications

Brief paper: Stabilization of linear systems over networks with bounded packet loss

Junlin Xiong;James Lam.
Automatica (2007)

901 Citations

Robust H/sup /spl infin// filtering for uncertain Markovian jump systems with mode-dependent time delays

Shengyuan Xu;Tongwen Chen;J. Lam.
IEEE Transactions on Automatic Control (2003)

750 Citations

Delay-Dependent $H_{\infty }$ Control and Filtering for Uncertain Markovian Jump Systems With Time-Varying Delays

Shengyuan Xu;J. Lam;Xuerong Mao.
IEEE Transactions on Circuits and Systems (2007)

695 Citations

Technical Communique: Static Output Feedback Stabilization: An ILMI Approach

Yong-Yan Cao;James Lam;You-Xiam Sun.
Automatica (1998)

693 Citations

Robust integral sliding mode control for uncertain stochastic systems with time-varying delay

Yugang Niu;Daniel W C Ho;James Lam.
Automatica (2005)

655 Citations

Brief An LMI approach to design robust fault detection filter for uncertain LTI systems

Maiying Zhong;Steven X. Ding;James Lam;Haibo Wang.
Automatica (2003)

649 Citations

Brief On robust stabilization of Markovian jump systems with uncertain switching probabilities

Junlin Xiong;James Lam;Huijun Gao;Daniel W. C. Ho.
Automatica (2005)

507 Citations

Semi-active H∞ control of vehicle suspension with magneto-rheological dampers

Haiping Du;Kam Yim Sze;James Lam.
Journal of Sound and Vibration (2005)

396 Citations

Semi-Global Leader-Following Consensus of Linear Multi-Agent Systems With Input Saturation via Low Gain Feedback

Housheng Su;M. Z. Q. Chen;J. Lam;Zongli Lin.
IEEE Transactions on Circuits and Systems I-regular Papers (2013)

392 Citations

Stability and Stabilization of Delayed T--S Fuzzy Systems: A Delay Partitioning Approach

Yan Zhao;Huijun Gao;J. Lam;Baozhu Du.
IEEE Transactions on Fuzzy Systems (2009)

365 Citations

Profile was last updated on December 6th, 2021.
The ranking h-index is inferred from publications deemed to belong to the considered discipline.

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