Associate Professor Dr.Chutiphon Pukdeboon

Position : Associate Professor
Contact
  • Address : Department of Mathematics, Faculty of Applied Science,
    King Mongkut’s University of Technology North Bangkok
    1518 Piboolsongkram Road, Bangsue, Bangkok 10802 Thailand
  • Tel : 02-555-2000 ext.4524 / 02-587-8258
  • E-Mail : chutiphon.p@sci.kmutnb.ac.th
Education

Bachelor : B. Eng. Electrical Engineering, Kasetsart University,

Bangkok, Thailand. (1997)

Master : M Sc. Computational Sciences, Chulalongkorn University,

Bangkok, Thailand. (2002)

Doctorate: Ph.D. Applied Mathematics, University of Sheffield,

Sheffield, England. (2010)

Dissertation Adviser : Professor Alan Zinober

Dissertation Title : Optimal Higher-Order Sliding Mode Controller Designs

for Spacecraft Attitude Manoeuvres

Expertise and Experience

Teaching Experience

Courses: Master Degree in Applied Mathematics

- Mathematical Modeling

- Mathematics of Control Sysyems

Courses: Bachelor Degree in Applied Mathematics

- Calculus of Variations

- Optimization Techniques

- Discrete Mathematics and Applications

- Ordinary Differential Equations

Research

Conferences Papers

1. Pukdeboon, C., Zinober, A.S.I., “Optimal sliding mode controllers

for attitude tracking of spacecraft”, 18th IEEE International Conference on

Control Applications Part of 2009 IEEE Multi-conference on Systems and

Control, Saint Petersburg, Russia, July 8-10, 2009.

2. Pukdeboon, C. and Zinober, A.S.I. (2009) Optimal sliding mode

controllers for spacecraft attitude manoeuvres. In: Proceedings of the 6th

International Federation of Automatic Control. 6th IFAC Symposium on

Robust Control Design, June 16-18, , Haifa, 2009.

3. Pukdeboon, C. Dynamic output feedback sliding mode control for

spacecraft attitude monoeuvres, In: Proceedings of the 8th International

Conference on Electrical Engineering/Electronics, Computer,

Telecommunications and Information Technology (ECTI-CON), Khon

Kaen, Thailand, 17-19 May 2011, pp. 545-548.

4. Pukdeboon, C. Optimal Sliding Mode Control for Spacecraft Approaching

a Tumbling Target, In: Proceedings of the 7th IMT-GT International

Conference on Mathematics, Statistics and its Applications (ICMSA

2011), Bangkok, Thailand, 21-23 July 2011, pp. 346-358.

Published Books (in Thai)

- Real Analysis, 2015

- Discrete Mathematics, 2015,

Some of the Publications

1. Pukdeboon, C., Zinober, A.S.I. and Thein, M.-W. L., “Quasicontinuous higher-order sliding mode controllers for spacecraft

attitude tracking manoeuvres”, IEEE Transactions on Industrial

Electronics 2010; 57(4):1436-1444 (2015 Impact factor 6.383)

2. Pukdeboon, C, “Optimal sliding mode controllers for attitude

stabilization of flexible spacecraft”, Mathematical Problems in

Engineering, Article Number: 863092, DOI: 10.1155/2011/863092

Published: 2011. (2015 Impact factor 0.644)

3. Pukdeboon, C, Zinober, A.S.I., “Control Lyapunov function

optimal sliding mode controllers for attitude tracking of

spacecraft”, Journal of Franklin institute and applied mathematics,

2012; 349(2):456-475 (2014 Impact factor 2.327)

4. Pukdeboon, C, “Finite-Time Second-Order Sliding Mode

Controllers for Spacecraft Attitude Tracking,” Mathematical

Problems in Engineering, Article Number:930269, Published:

2013. (2014 Impact factor 0.644)

5. Pukdeboon, C, “Optimal Output feedback controllers for

spacecraft attitude tracking ”, Asian Journal of Control, vol. 15,

no.5, pp. 530-540, 2013. (2014 Impact factor 1.407)

6. Pukdeboon, C, Jitpattanakul, A. “Finite-time anti-disturbance

inverse optimal attitude tracking of flexible spacecraft,”

Mathematical Problems in Engineering, Article

Number:967574, Published: 2013. (2014 Impact factor 0.644)

7. Pukdeboon, C, and Siricharuanun, P. “Nonsingular terminal

sliding mode based finite-time control for spacecraft attitude

tracking,” International Journal of Control, Automation and

Systems, vol. 12, no.3, pp. 530-540, 2014. (2015 Impact factor

1.219)

8. Pukdeboon, C, “Adaptive-gain second-order sliding mode control

of attitude tracking of flexible spacecraft,” Mathematical

Problems in Engineering, Article Number:312494, Published:

2014. (2015 Impact factor 0.644)

9. Pukdeboon, C, and Kumam, P. “Robust optimal sliding mode

control for spacecraft position and attitude maneuvers,”

Aerospace Science and Technology, vol. 43, pp. 329-342, 2015.

(2015 Impact factor 1.751)

10. Pukdeboon, C, “Inverse optimal sliding mode control of

spacecraft with coupled translation and attitude dynamics,”

International Journal of Systems Science, vol. 46, no.13, pp.

2421-2438, 2015. (2015 Impact factor 1.947)

11. Pukdeboon, C, “Adaptive backstepping finite-time sliding mode

control of spacecraft attitude tracking,” Journal of Systems

Engineering and Electronics, vol. 26, no.4, pp. 826-839, 2015.

(2015 Impact factor 0.468)

12. Pukdeboon, C, “Output feedback second order sliding mode

control of spacecraft attitude and translation motion,”

International Journal of Control, Automation and Systems, vol.

14, no.2, pp. 411-424, 2016. (2015 Impact factor 1.219)

13. Pukdeboon, C, “Inverse optimal attitude stabilization of flexible

spacecraft with actuator saturation,” International Journal of

Aerospace Engineering, Article ID 1395952, pp. 1-15, 2016.

(2015 Impact factor 0.889)

14. Pukdeboon, C, “Anti-disturbance inverse optimal control for

spacecraft position and attitude maneuvers with input saturation,”

Advances in Mechanical Engineering, vol. 8, no.5, pp.1-14, 2016.

(2015 Impact factor 0.640)

Academic Articles
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