1. Daniel JP. Fly-by-wireless Airbus end-user viewpoint. Fly-by-Wireless Workshop, 2007.
2. Zahmati AS, Fernando X, Kojori H. Emerging wireless applications in aerospace: benefits, challenges, and existing
methods. Proc. 4th CANEUS Fly-by-Wireless workshop (FBW11), 2011; 87–90.
3. Ost M, Pichavant C. Update on wireless avionics intra-communications (WAIC). ICAO WG-F Meeting, 2011.
4. Zahrnati AS, Fernando X, Kojori H. Transmission delay in wireless sensing , command and control applications
for aircraft. Proc. 4th CANEUS Fly-by-Wireless workshop (FBW11), 2011; 91–94.
5. van de Wouw N, Naghshtabrizi P, Cloosterman M, Hespanha JP. Tracking control for sampled-data systems with
uncertain time-varying sampling intervals and delays. International Journal of Robust and Nonlinear Control 2010;
20:387–411.
6. Zhou Q, Shi P. A new approach to network-based H1 control for stochastic systems. International Journal of
Robust and Nonlinear Control 2012; 22:1036–1059.
7. Yang H, Xia Y, Shi P. Stabilization of networked control systems with nonuniform random sampling periods.
International Journal of Robust and Nonlinear Control 2011; 21:501–526.
8. Hale JK, Lunel SMV. Introduction to Functional Differential Equations. Springer, 1993.
9. Gu K, Kharitonov VL, Chen J. Stability of Time-Delay Systems. Birkhauser, 2003.
10. Boukas EK, Liu ZK. Deterministic ans Stochastic Time Delay Systems. Birkhauser, 2002.
11. Yamamoto Y. New approach to sampled-data control systems—a function space method. Proc. 29th IEEE
Conference on Decision and Control, 6, 1990; 1882–1887.
12. Bamieh B, Pearson JB, Francis B, Tannenbaum A. A lifting technique for linear periodic systems with applications
to sampled-data control. Systems & Control Letters 1991; 17(2):79–88.
13. Yamamoto Y. A Function Space Approach to Sampled Data Control Systems and Trackmg Problems. IEEE
Transactions on Automatic Control 1994; 39(4):703–713.
14. Chen T, Francis B. Optimal Sampled-Data Control Systems. Communication and Control Engineering Series,
Springer-Verlag: Berlin, 1995.
15. Hu LS, Lam J, Cao YY, Shao HH. A linear matrix inequality (LMI) approach to robust H2 sampled-data control
for linear uncertain systems. IEEE Transactions on Systems, Man, and Cybernetics 2003; 33(1):149–155.
16. Naghshtabrizi P, Hespanha JP, Teel AR. Exponential stability of impulsive systems with application to uncertain
sampled-data systems. Systems & Control Letters 2008; 57(5):378–385.
17. Naghshtabrizi P, Hespanha JP, Teel AR. Stability of delay impulsive systems with application to networked control
systems. Transactions of the Institute of Measurement and Control 2010; 32(5):511–528.
18. Fridman E, Seuret A, Richard JP. Robust sampled-data stabilization of linear systems: an input delay approach.
Automatica 2004; 40(8):1441–1446.
19. Gao H, Chen T, Lam J. A new delay system approach to network-based control. Automatica Jan 2008; 44(1):39–52.
20. Fridman E. A refined input delay approach to sampled-data control. Automatica 2010; 46(2):421–427.
21. Zhu X, Wang Y. New stability and stabilization criteria for sampled data systems. Proc. 8th IEEE International
Conference on Control and Automation, vol. 1, 2010; 1829–1834.
22. Liu K, Fridman E. Networked-based stabilization via discontinuous Lyapunov functionals. International Journal
of Robust and Nonlinear Control 2012; 22:420–436.
23. Mirkin L. Some remarks on the use of time-varying delay to model sample-and-hold circuits. IEEE Transactions
on Automatic Control 2007; 52(6):1109–1112.
24. Krasovskii N. Stability of Motion: Applications of Lyapunov’s Second Method to Differential Systems and Equations
with Delay. Stanford University Press, 1963.
25. Hespanha JP, Naghshtabrizi P, Xu Y. A Survey of Recent Results in Networked Control Systems. Proceedings of
the IEEE 2007; 95(1):138–162.
26. Strum JF. Using SeDuMi 1.02, a MATLAB toolbox for optimization over symmetric cones. Optimization Methods
and Software 1999; 11-12:625–653. URL http://sedumi.ie.lehigh.edu/.
27. L¨ofberg J. YALMIP: A Toolbox for Modeling and Optimization in MATLAB. Proc. CACSD Conference, Taipei,
Taiwan, 2004. URL http://users.isy.liu.se/johanl/yalmip/.
28. Liberzon D. On stabilization of linear systems with limited information. IEEE Transactions on Automatic Control
2003; 48(2):304–307.
29. Shao H. New delay-dependent stability criteria for systems with interval delay. Automatica 2009; 45(3):744–749.
30. Sun J, Liu G, Chen J, Rees D. Improved delay-range-dependent stability criteria for linear systems with timevarying
delays. Automatica 2010; 46(2):466–470.
31. Dong H, Wang Z, Gao H. Robust H1 filtering for a class of nonlinear networked systems with multiple stochastic
communication delays and packet dropouts. IEEE Transactions on Signal Processing 2010; 58(4):1957–1966.
32. Dong H, Wang Z, Gao H. Distributed filtering for a class of time-varying systems over sensor networks with
quantization errors and successive packet dropouts. IEEE Transactions on Signal Processing 2012; 60(6):3164–
3173.
33. Cloosterman M, van de Wouw N, Heemels M, Nijmeijer H. Robust stability of networked control systems with
time-varying network-induced delays. Proc. 45th IEEE Conference on Decision and Control, 2006; 4980–4985.
34. Nilsson J. Real-Time Control Systems with Delays. PhD Thesis, Lund Institute of Technology 1998.
35. Zhang W, Branicky MS, Phillips SM. Stability of networked control systems. IEEE Control Systems Magazine
2001; 21(1):84–99.
36. Fridman E, Orlov Y. Exponential stability of linear distributed parameter systems with time-varying delays.
Automatica 2009; 45(1):194–201.
37. Hoffman K, Kunze R. Linear Algebra. 2nd edn., Prentice Hall, 1971.
38. Boyd S, El Ghaoui L, Feron E, Balakrishnan V. Linear Matrix Inequalities in System and Control Theory. SIAM,
1994.
39. Khalil H. Nonlinear Systems. Prentice Hall, 2002.
40. Park P, Ko JW. Stability and robust stability for systems with a time-varying delay. Automatica 2007; 43(10):1855–
1858.