Author details

Yi Zhang1,2,3, Kairui Guo4 , Qin Yang<sup>1</sup> , Pang Winnie<sup>1</sup> , Kai Cao<sup>4</sup> , Qi Wang<sup>5</sup> , Andrey Savkin<sup>6</sup> , Branko Celler<sup>6</sup> , Hung Nguyen4 , Peng Xu2,3, Limei Xu1 , Dezhong Yao2,3 and Steven Su<sup>4</sup> \*

References

Council; 2013. p. 13-19

2007;54(7):1238-1246

30(6):747-754

2008;3:278-282

ing. Washington, DC. Paper 128c; 1988

Biomedical Engineering. 2005;52:1921-1930

Science. 1990;45(11):3299-3309

Control. 1994;39(5):932-943

[1] Frommer M. Clinical practice guidelines for the management of overweight and obesity in adults, adolescents and children in Australia. In: National Health Medical Research

Multi-Loop Integral Control-Based Heart Rate Regulation for Fast Tracking and Faulty-Tolerant Control…

http://dx.doi.org/10.5772/intechopen.71855

289

[2] Edwards S, Burroughs M. The Heart Rate Monitor Guidebook to Heart Zone Training.

[3] Su SW, Wang L, Celler BG, Savkin AV, Guo Y. Identification and control for heart rate regulation during treadmill exercise. IEEE Transactions on Biomedical Engineering.

[4] Su SW, Huang S, Wang L, Celler BG, Savkin AV, Guo Y, Cheng TM. Optimizing heart rate regulation for safe exercise. Annals of Biomedical Engineering. 2010;38(3):758-768 [5] Cheng T, Savkin AV, Celler BG, Su SW, Wang L. Nonlinear modelling and control of human heart rate response during exercise with various work load intensities. IEEE

[6] Mazenc F, Malisoff M, Querioz M. Tracking control and robustness analysis for a nonlinear model of human heart rate during exercise. Automatica. 2011;47(5):968-974 [7] Jamieson LP, Hunt KJ, Allan DB. A treadmill control protocol combining nonlinear, equally smooth increases in speed and gradient. Medical Engineering & Physics. 2008;

[8] Hunt KJ. Treadmill control protocols for arbitrary work rate profiles combining simultaneous nonlinear changes in speed and angle. Biomedical Signal Processing and Control.

[9] Weng K, Turk B, Dolores L, Nguyen TN, Celler BG, Su SW, Nguyen HT. Fast tracking of a given heart rate profile in treadmill exercise. In: 32th Annual International Conference of

[10] Skogestad S, Morari M. Variable selection for decentralized control. AIChE Annual Meet-

[11] Yu C, Fan M. Decentralized integral controllability and d-stability. Chemical Engineering

[12] Campo P, Morari M. Achievable closed-loop properties of systems under decentralized control: Conditions involving the steady state gain. IEEE Transactions and Automatic

[13] Su SW, Bao J, Lee PL. Analysis of decentralized integral controllability for nonlinear

[14] Meste O, Khaddoumi B, Blain G, Bermon S. Time-varying analysis methods and models for the respiratory and cardiac system coupling in graded exercise. IEEE Transactions on

IEEE Engineering in Medicine and Biology. Buenos Aires, #2569; 2010

systems. Computers and Chemical Engineering. 2004;28(9):1781-1787

California, USA, Sacramento: Heart Zones; 1999. p. 15

Transactions on Biomedical Engineering. 2008;55(11):2499-2508

\*Address all correspondence to: steven.su@uts.edu.au

1 School of Aeronautics and Astronautics, University of Electronic Science and Technology of China, Chengdu, China

2 Key Laboratory for NeuroInformation of Ministry of Education, School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu, China

3 Center for Information in BioMedicine, University of Electronic Science and Technology of China, Chengdu, China

4 Centre for Health Technologies, Faculty of Engineering and Information Technology, University of Technology, Sydney, NSW, Australia

5 Hapatobiliary Surgery Department, General Hospital of Ningxia Medical University, Ningxia, China

6 School of Electrical Engineering and Telecommunications, University of New South Wales, Sydney, NSW, Australia
