[Bru, R., Coll, C., Romero-Vivo, S. and Sanchez, E. (2003). Some problems about structural properties of positive descriptor systems, in L. Benvenuti et al. (Eds.), Positive Systems, Lecture Notes in Control and Information Sciences, Vol. 294, Springer, Berlin, pp. 233–240.10.1007/978-3-540-44928-7_32]Search in Google Scholar
[Bru, R., Coll, C. and Sanchez, E. (2000). About positively discrete-time singular systems, in M.E. Mastorakis (Ed.), System and Control: Theory and Applications, World Scientific and Engineering Society, Athens, pp. 44–48.]Search in Google Scholar
[Campbell, S.L., Meyer, C. and Rose, N. (1976). Applications of the Drazin inverse to linear systems of differential equations with singular constant coefficients, SIAM Journal on Applied Mathematics31(3): 411–425.10.1137/0131035]Search in Google Scholar
[Caputo, M. and Fabrizio, M. (2015). A new definition of fractional derivative without singular kernel, Progress in Fractional Differentiation and Applications1(2): 1–13.]Search in Google Scholar
[Dai, L. (1989). Singular Control Systems, Lecture Notes in Control and Information Sciences, Vol. 118, Springer-Verlag, Berlin.]Search in Google Scholar
[Dodig, M. and Stosic, M. (2009). Singular systems state feedbacks problems, Linear Algebra and Its Applications431(8): 1267–1292.10.1016/j.laa.2009.04.024]Search in Google Scholar
[Duan, G.R. (2010). Analysis and Design of Descriptor Linear Systems, Springer, New York, NY.10.1007/978-1-4419-6397-0]Search in Google Scholar
[Fahmy, M.M. and O’Reilly, J. (1989). Matrix pencil of closed-loop descriptor systems: Infinite-eigenvalues assignment, International Journal of Control49(4): 1421–1431.10.1080/00207178908559713]Search in Google Scholar
[Farina, L. and Rinaldi, S. (2000). Positive Linear Systems: Theory and Applications, J. Wiley, New York, NY.10.1002/9781118033029]Search in Google Scholar
[Gantmacher, F.R. (1959). The Theory of Matrices, Chelsea Publishing Company, London.]Search in Google Scholar
[Kaczorek, T. (1997). Positive singular discrete time linear systems, Bulletin of the Polish Academy of Sciences: Technical Sciences45(4): 619–631.]Search in Google Scholar
[Kaczorek, T. (1998a). Positive descriptor discrete-time linear systems, Problems of Nonlinear Analysis in Engineering Systems1(7): 38–54.]Search in Google Scholar
[Kaczorek, T. (1998b). Vectors and Matrices in Automation and Electrotechnics, WNT, Warsaw, (in Polish).]Search in Google Scholar
[Kaczorek, T. (2001). Positive 1D and 2D Systems, Springer-Verlag, London.10.1007/978-1-4471-0221-2]Search in Google Scholar
[Kaczorek, T. (2011a). New stability tests of positive standard and fractional linear systems, Circuits and Systems2(4): 261–268.10.4236/cs.2011.24036]Search in Google Scholar
[Kaczorek, T. (2011b). Positive linear systems consisting of n subsystems with different fractional orders, IEEE Transactions on Circuits and Systems58(6): 1203–1210.10.1109/TCSI.2010.2096111]Search in Google Scholar
[Kaczorek, T. (2012). Selected Problems of Fractional Systems Theory, Springer-Verlag, Berlin.10.1007/978-3-642-20502-6]Search in Google Scholar
[Kaczorek, T. (2014a). Descriptor positive discrete-time and continuous-time nonlinear systems, 34 IEEE-SPIE Joint Symposium, Wilga, Poland, DOI:10.1117/12.2074558.10.1117/12.2074558]Search in Google Scholar
[Kaczorek, T. (2014b). Positivity and linearization of a class of nonlinear discrete-time systems by state feedbacks, Logistyka (6): 5078–5083.]Search in Google Scholar
[Kaczorek, T. (2015a). Analysis of positive and stable fractional continuous-time linear systems by the use of Caputo–Fabrizio derivative, 12th International Conference on Mechatronic Systems and Materials (MSM’2016), Białystok, Poland.10.7148/2016-0053]Search in Google Scholar
[Kaczorek, T. (2015b). Positivity and stability of discrete-time nonlinear systems, IEEE 2nd International Conference on Cybernetics (CYBCONF), Gdynia, Poland.10.1109/CYBConf.2015.7175924]Search in Google Scholar
[Klamka, J. (2013). Controllability of dynamical systems: A survey, Bulletin of the Polish Academy of Sciences: Technical Sciences61(2): 221–229.10.2478/bpasts-2013-0031]Search in Google Scholar
[Kucera, V. and Zagalak, P. (1988). Fundamental theorem of state feedback for singular systems, Automatica24(5): 653–658.10.1016/0005-1098(88)90112-4]Search in Google Scholar
[Losada, J. and Nieto, J. (2015). Properties of a new fractional derivative without singular kernel, Progress in Fractional Differentiation and Applications1(2): 87–92.]Search in Google Scholar
[Ostalczyk, P. (2016). Discrete Fractional Calculus, World Scientific Publishing Company, River Edge, NJ.10.1142/9833]Search in Google Scholar
[Van Dooren, P. (1979). The computation of Kronecker’s canonical form of a singular pencil, Linear Algebra and Its Applications27: 103–140.10.1016/0024-3795(79)90035-1]Search in Google Scholar
[Virnik, E. (2008). Stability analysis of positive descriptor systems, Linear Algebra and Its Applications429(10): 2640–2659.10.1016/j.laa.2008.03.002]Search in Google Scholar
[Zhang, H., Xie, D., Zhang, H. and Wang, G. (2014a). Stability analysis for discrete-time switched systems with unstable subsystems by a mode-dependent average dwell time approach, ISA Transactions53(4): 1081–1086.10.1016/j.isatra.2014.05.02024925136]Search in Google Scholar
[Zhang, J., Han, Z., Wu, H. and Hung, J. (2014b). Robust stabilization of discrete-time positive switched systems with uncertainties and average dwell time switching, Circuits, Systems and Signal Processing33(1): 71–95.10.1007/s00034-013-9632-1]Search in Google Scholar