References
- Fu, M., and C. E. de Souza. 2009. “State Estimation for Linear Discrete-time Systems Using Quantized Measurements.” Automatica 45 (12): 2937–2945.
- Hu, J., Z. Wang, H. Gao, and L. K. Stergioulas. 2012. “Probability-guaranteed ℋ∞ Finite-horizon Filtering for a Class of Nonlinear Time-varying Systems with Sensor Saturations.” Systems & Control Letters 61 (4): 477–484.
- Kaczorek, T. 1985. Two-dimensional Linear Systems. Berlin: Springer.
- Liang, J., F. Sun, and X. Liu. 2014. “Finite-horizon H∞ Filtering for Time-varying Delay Systems with Randomly Varying Nonlinearities and Sensor Saturations.” Systems Science & Control Engineering: An Open Access Journal 2 (1): 1–18.
- Liang, J., Z. Wang, and X. Liu. 2014. “Robust State Estimation for Two-dimensional Stochastic Time-delay Systems with Missing Measurements and Sensor Saturation.” Multidim Syst Sign Process 25 (1): 157–177.
- Liu, Q., Z. Wang, X. He, and D. Zhou. 2014. “A Survey of Event-based Strategies on Control and Estimation.” Systems Science & Control Engineering: An Open Access Journal 2 (1): 90–97.
- Liu, Y., Z. Wang, J. Liang, and X. Liu. 2008. “Synchronization and State Estimation for Discrete-time Complex Networks with Distributed Delays.” IEEE Transactions on Systems, Man, and Cybernetics-Part B: Cybernetics 38 (5): 1314–1325.
- Roesser, R. P. 1975. “A Discrete State-space Model for Linear Image Processing.” IEEE Transactions on Automatic Control 20 (1): 1–10.
- Shen, B., Z. Wang, D. Ding, and H. Shu. 2013. “H∞ State Estimation for Complex Networks with Uncertain Inner Coupling and Incomplete Measurements.” IEEE Transactions on Neural Networks and Learning Systems 24 (12): 2027–2037.
- Wei, G., L. Wang, and F. Han. 2013. “A Gain-scheduled Approach to Fault-tolerant Control for Discrete-time Stochastic Delayed Systems with Randomly Occurring Actuator Faults.” Systems Science & Control Engineering: An Open Access Journal 1 (1): 82–90.
- Yang, F., Z. Wang, Y. S. Hung, and M. Gani. 2006. “ℋ∞ Control for Networked Systems with Random Communication Delays.” IEEE Transactions on Automatic Control 51 (3): 511–518.