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DR. BANLUE SRISUCHINWONG (ASSOCIATE PROFESSOR)
Faculty
:
School of Information, Computer, and Communication Technology (ICT)
Name
:
Dr. Banlue Srisuchinwong (Associate Professor)
Position
:
Associate Professor
E - Mail
:
banlue@siit.tu.ac.th
Phone Rangsit
:
Phone Bangkadi
:
+66-2-501-3505~20
Phone Extension
:
5002
  Education
  • BEng (Honors), Electrical Engineering, King Mongkut's Institute of Technology Ladkrabang, Thailand.
  • Postgraduate Diploma of the Philips International Institute of Technological Studies, (Electronics), Eindhoven, The Netherlands.
  • MSc, The University of Manchester, The UK.
  • PhD, The University of Manchester, The UK.
  Academic Awards
  • The Excellent Research Publication Award 2019, Sirindhorn International Institute of Technology (SIIT), 28 June, 2019.
  • The Patent Award 2019, Sirindhorn International Institute of Technology (SIIT), 28 June, 2019.
  • The TU Honor Plaque 2017, in recognition of the recipient of a research award granted by the instiutute outside Thammasat University (TU), 21 November 2017.
  • The TU Distinguished Research Award 2016 in Science and Technology, Thammasat University (TU), 26 December 2016.
  • The Gold Paper Award 2016 in Science and Technology, the 3rd Management and Innovation Technology International Conference (MITicon 2016), October 2016.
  • The SIIT Research Award 2011, Sirindhorn International Institute of Technology (SIIT), 28 June 2012.
  • The ICT Award 2010, (the 3rd-prize award), the Ministry of Information and Communication Technology (MICT), 9 March 2011.
  • The British Council Scholarship, the UK, October 1989-1991.
  • The Overseas Research Studentship (ORS) Award, CVCP, the UK, October 1988-1989.
  • The Philips Scholarship, Philips International Institute of Technological Studies (PII), and Philips Research Laboratories, Eindhoven, the Netherlands, January 1987-February 1988.
  Research Areas
  • Microelectronics
  • Periodic/chaotic circuits and systems
  Research Interests

Chaotic Circuits and Systems

Simple current-tunable chaotic oscillators. Simple current-mirror chaotic oscillators. Chaos in delay differential equations. Integer-order and fractional-order chaotic oscillators. Chaos-based secure communications.

Sinusoidal Oscillators and Analogue Filters
Integer-order and fractional-order sinusoidal oscillators. Analogue filters.

  Work Experiences

Sirindhorn International Institute of Technology (SIIT), Thammasat University (TU), Thailand.

  • September 2002 - 2007 : Executive Assistant Director
  • May 2000 - November 2002 : Institute Secretary
  • May 1998 : Associate Professor of Electrical Engineering
  • January - March 2001 : Acting Head of School of Electrical Engineering and Information Technology
  • January - March 2001 : Acting Chairperson of Electrical Engineering Program
  • June 1997 - April 1998 : Acting Deputy Director, Acting System Manager
  • November 1993 - April 1998 : Assistant Professor of Electrical Engineering
  • November 1993 - May 1996 : Chairperson of the Department of Electrical Engineering

Department of Electrical Engineering and Electronics, The University of Manchester, the UK.

  • April - September 1993 : A full-time postdoctoral research associate (The 2nd renewed contract of employment).
  • April 1992 - March 1993 : A full-time postdoctoral research associate (The 1st contract of employment). Involving design and VLSI implementation of integrated sensors for high-speed electron detectors.

Data Transmission Systems Group, Philips Research Laboratories, Eindhoven, The Netherlands.

  • September 1987 - February 1988 : Research assistant. Involving design of analogue integrated circuits for a 1GHz sinusoidal quadrature oscillator.
  • June - August 1987 : Research assistant. Involving construction of a user interface using the EQIIR Program for the design of recursive digital filters.
  Theses Supervised
Master Theses Supervised
 
2007 : Wimol San-Um, Developments of Low-Power Low-Error Class AB Switched-Current and Switched-Voltage Analog Memory Cells.
2012 : Buncha Munmuangsaen, Chaotic Systems and Circuits with Applications to Chaos-Based Secure Communications.
2017: Irfan Ahmad, A Simplest Circuit for the Highest Complexity of 4D Minimum-Seven-Term No-Equilibrium Hyperchaos with Global (Hidden) Attractor, and A Simple 4D Two-Transistor Chaotic Circuit.
 
Doctoral Theses Supervised
 
2005 : Adisorn Leelasantitham, Developments of Low-Power High-Frequency All-Current-Mirror Sinusoidal Quadrature Oscillators.
2007 : Worawat Sa-ngiamvibool, 10.7-MHz Fully-Balanced, High-Q, Wide-Dynamic-Range, Current-Tunable Gm-C Bandpass Filters.
  Professional Activities
  • Journal Referee in IEEE Transactions on Circuits and Systems II: Express Briefs, Physics Letters A, Journal of the Franklin Institute, International Journal of Electronics
  • Associate Member, Thai Academy of Science and Technology Foundation
  • Researcher, National Research Council of Thailand (NRCT)
  • Member, Academic Committee No. 900, Thai Industrial Standard Institute, Ministry of Industry, 1997-2013
  • Treasurer, Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) Association, 2004-2010
  • Secretary General, Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) Association, 2002-2003
  • ECTI Life Membership (for a Founding Committee Member), Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) Association, May 2019.
  List of Publications

International Journals

  1. Irfan Ahmad, Banlue Srisuchinwong, and Wimol San-Um (2018), "On the First Hyperchaotic Hyperjerk System with No Equilibria: A Simple Circuit for Hidden Attractors," IEEE Access, vol. 6, no. 1, pp. 35449-35456, December. (Date of Publication: 25 June 2018). ISI impact factor = 3.557, ISI Rank: Q1 (2017-JCR). Download full-text
  2. Buncha Munmuangsaen and Banlue Srisuchinwong (2018), "A Minimum Five-Component Five-Term Single-Nonlinearity Chaotic Jerk Circuit Based on a Twin-Jerk Single-Op-Amp Technique," International Journal of Circuit Theory and Applications, vol. 46, 14 March, pp. 656-670. ISI impact factor = 1.571.
  3. Buncha Munmuangsaen and Banlue Srisuchinwong (2018), "A Hidden Chaotic Attractor in the Classical Lorenz System", Chaos, Solitons & Fractals, vol. 107, February, pp. 61-66. ISI impact factor = 2.213, ISI Rank: Q1 (2017-JCR).
  4. Patinya Ketthong, Wimol San-Um, Banlue Srisuchinwong, and Masayoshi Tachibana (2017), "A simple current-reversible chaotic jerk circuit using inherent tanh(x) of an opamp," IEICE Electronics Express, vol. 14, no. 17,September 10, pp. 1-7. ISI Impact factor = 0.456.
  5. Banlue Srisuchinwong and Rattikarn Treetanakorn (2014), "Current-Tunable Chaotic Jerk Circuit Based on Only One Unity-Gain Amplifier", Electronics Letters, Volume 50, Issue 24, 20 November, pp. 1815-1817. ISI impact factor (2013) = 1.068. 
    Download full-text
  6. Banlue Srisuchinwong and Nithi Amonchailertrat (2013), "Realization of a Lambert W-Function for a Chaotic Circuit", Journal of Circuits, Systems, and Computers (JCSC), Volume 22, Issue 08, September, art no. 1350075 (12 pages). ISI Impact Factor = 0.481. 
    DOI:10.1142/S0218126613500758
  7. Banlue Srisuchinwong and Dhecha Nopchinda (2013), "Current-tunable chaotic jerk oscillator", Electronics Letters, Volume 49, Issue 9, 25 April 2013, p. 587 – 589. ISI Impact Factor (2013) = 1.068. 
    Download full-text
  8. Phocharavidh Phuphatana and Banlue Srisuchinwong (2013), "Chaos in Compound Anti-Symmetric-Case Piecewise-Linear Delay Differential Equations" Chaotic Modeling and Simulation (CMSIM) International Journal of Nonlinear Science, vol.1, January 2013 issue, pp. 209-214. (ISSN 2241-0503). 
    Download full-text
  9. Buncha Munmuangsaen and Banlue Srisuchinwong (2013), "Chaos in Modified CFOA-Based Inductorless Sinusoidal Oscillators Using a Diode" Chaotic Modeling and Simulation (CMSIM) International Journal of Nonlinear Science, vol.1, January 2013 issue, pp. 179-185. (ISSN 2241-0503). 
    Download full-text
  10. Banlue Srisuchinwong and Buncha Munmuangsaen (2012), "Four current-tunable chaotic oscillators in set of two diode-reversible pairs", Electronics Letters, Volume 48, Issue 17, 16 August 2012, p.1051-1053. ISI Impact Factor (2013) = 1.068. 
    Download full-text at: http://dx.doi.org/10.1049/el.2012.1076
  11. Wimol Sanum and Banlue Srisuchinwong (2012), "Highly Complex Chaotic System with Piecewise Linear Nonlinearity and Compound Structures", Journal of Computers, Vol 7, No 4, pp. 1041-1047. SJR (2013) = 0.379. 
    Download full-text (PDF 869 KB) at: doi:10.4304/jcp.7.4.1041-1047
  12. Banlue Srisuchinwong, Teerachot Siriburanon, and Teera Nontapradit (2012), "Compound Structures of Six New Chaotic Attractors in a Modified Jerk Model using Sinh-1 Nonlinearity", Chaotic Modeling and Simulation (CMSIM) International Journal of Nonlinear Science, vol.1, January 2012 issue, pp. 273-279. (ISSN 2241-0503).
    Download full-text
  13. Mumuangsaen, B. and Srisuchinwong, B. (2011), “Elementary Chaotic Snap Flows”, Chaos, Solitons & Fractals. Vol. 44, Issue 11, November, pp. 995-1003. ISI Impact Factor (2013) = 1.503. 
    Download full-text (PDF 1067 KB) at: doi:10.1016/j.chaos.2011.08.008
  14. Mumuangsaen, B., Srisuchinwong, B., and Sprott, J. C. (2011), “Generalization of the Simplest Autonomous Chaotic System”, Physics Letters A, Vol. 375, No. 12, March, pp. 1445-1450. ISI impact factor (2012) = 1.766. 
    Download full-text (PDF 1067 KB) at: doi:10.1016/j.physleta.2011.02.028
  15. Munmuangsaen, B. and Srisuchinwong, B. (2009), “A New Five-Term Simple Chaotic Attractor”, Physics Letters A., Vol. 373, No. 44, October, pp. 4038-4043. ISI impact factor (2008) = 2.174.
    Download full-text (PDF 1454 KB) at: doi:10.1016/j.physleta.2009.08.068
  16. Sa-Ngiamvibool, W. and Srisuchinwong, B. (2009), “A 10.7-MHz Fully Balanced, High-Q, 87-dB-Dynamic-Range Current- Tunable Gm-C Bandpass Filter”, Analog Integrated Circuits and Signal Processing, Vol. 58, No. 2, February, pp. 143-151. ISI Impact Factor (2012) = 0.553. 
    Download full-text (PDF 544 KB) at: doi:10.1007/s10470-008-9229-y
  17. Sa-Ngiamvibool, W. and Srisuchwinwong, B. (2007), “A 10.7-MHz Fully Balanced, High-Q, Wide-Dynamic-Range Current- Tunable Gm-C Bandpass Filter”, ECTI-EEC Transactions on Electrical Engineering, Electronics, and Communications, Vol. 5, No. 2, pp. 177-186.
  18. Sa-Ngiamvibool, W. and Srisuchinwong, B. (2007), “A 10.7-MHz Fully-Balanced High-Q 107-dB-Dynamic Range Current- Tunable Bandpass Filter”, AEU International Journal of Electronics and Communications, Vol. 61, No. 5, May, pp. 307-313. ISI Impact Factor (2013) = 0.696. 
    Download full-text (PDF 750 KB) at: doi:10.1016/j.aeue.2006.06.007
  19. Leelasantitham, A. and Srisuchinwong, B. (2007), “A High-Frequency Low-Power Low-Pass-Filter-Based All-Current-Mirror Sinusoidal Quadrature Oscillator”, International Journal of Applied Science, Engineering and Technology, Vol. 3, No. 1, pp. 18- 23.
  20. San-Um, W., Srisuchinwong, B. and Tantaratana, S. (2007), “A Low-Power Low-Error Single-Ended Virtually-Grounded - Drain Class AB Switched-Current Memory Cell”, Songklanakarin Journal of Science and Technology, Vol. 29, No. 1, pp. 165-180. SJR = 0.240.
    Download full-text
  21. Leelasantitham, A. and Srisuchinwong, B. (2004), “A Low-Power, High-Frequency CMOS Current-Mirror Sinusoidal Quadrature Oscillator”, The Institute of Electronics, Information and Communication Engineers (IEICE) Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. E87-A, No. 11, November, pp. 2964-2972. ISI Impact Factor (2012) = 0.238.
  22. Leelasantitham, A. and Srisuchinwong, B. (2004), “A Low-Power, High-Frequency, All-NMOS All-Current-Mirror Sinusoidal Quadrature Oscillator”, Microelectronics Journal, Vol. 35, No. 9, pp. 713-721. ISI Impact Factor (2013) = 0.924. 
    Download full-text (PDF 237 KB) at: doi:10.1016/j.mejo.2004.06.007
  23. Srisuchinwong, B. (2000). “Fully Balanced Current-Tunable Sinusoidal Quadrature Oscillator”, International Journal of Electronics, Vol. 87, No. 5, pp. 547-556. ISI Impact Factor (2013) = 0.751. 
    Download full-text (PDF 219 KB) at: doi:10.1080/002072100131977
  24. York, T.A., Srisuchinwong, B., Hicks, P.J., Tsalides, Ph. and Thanailakis, A. (1993), “VLSI Implementation of Cellular Automata : Modulo Arithmetic Units”, International Journal of Applied Mathematics and Computer Science, Vol. 3, No.1, pp. 221-230. (Quartile Q1 in Mathematics, Applied), ISI impact factor = 1.420.
  25. Srisuchinwong, B., Tsalides, Ph., York, T.A., Hicks, P.J. and Thanailakis, A. (1992), “VLSI Implementation of Mod-P Multipliers Using Homomorphism and Hybrid Cellular Automata”, IEE Proceedings-Computers and Digital Techniques (IEE Proceedings-Part E), Vol. 139, No. 6, November, pp. 486-490. ISI impact factor (2005) = 0.533. 
    Download full-text
  26. York, T.A., Srisuchinwong, B., Tsalides, Ph., Hicks, P.J. and Thanailakis, A. (1991), “Design and VLSI Implementation of a Mod-127 Multiplier Using Cellular Automaton-Based Data Compression Techniques”, IEE Proceedings-Computers and Digital Techniques (IEE Proceedings-Part E), Vol. 138, No. 5, September, pp. 351-356. ISI impact factor (2005) = 0.533.
    Download full-text
  27. Pookaiyaudom, S., Srisuchinwong, B. and Kurutach, W. (1987), “A Current-Tunable Sinusoidal Oscillator”, IEEE Transactions on Instrumentation and Measurement, Vol. IM-36, No. 3, September, pp. 725-729. (Quartile Q1 in Instruments and Instrumentation), ISI Impact Factor (2016) = 2.456. 

International Conferences

  1. Irfan Ahmad and Banlue Srisuchinwong (in press), "On the First Single-Nonlinearity Seven-Term Memristor-Based Chaotic Snap System: A Line Equilibrium and Coexisting Hidden Attractors", Proceedings of the 24th International Conference on Methods & Models in Automation & Robotics (MMAR 2019), in Miedzyzdroje, Poland, 26-29 August, 2019.

  2. Irfan Ahmad and Banlue Srisuchinwong (2017), "A Simple Two-Transistor 4D Chaotic Oscillator and Its Synchronization via Active Control," Proceedings of 2017 IEEE International Symposium on Industrial Electronics (ISIE), 18-21 June 2017, Edinburgh, the UK, pp. 1249-1254.

  3. Patinya Ketthong; Chatchai Wannaboon; Wimol San-Um; Banlue Srisuchinwong; and Tachibana Masayoshi (2016), "A CMOS Chaotic Jerk Oscillator with Smoothly Balanced-to-Unbalanced Transition of Double-Scroll", Proceedings of IEEE Management and Innovation Technology International Conference 2016 (MITicon 2016), 12-14 October 2016, Bang-Saen, Thailand, 5 p. (with the Gold Paper Award in Science and Technology), see http://www.tni.ac.th/tni2016/main/index.php?option=news&category=3&id=206]

  4. Natthorn Chuayphan and Banlue Srisuchinwong (2016), "A New Algebraically Simple Five-Minimum-Term Approach to an Existing FDNR-Based Chaotic Circuit and Its New Homoclinic Orbit", Proceedings of the International Symposium on Fundamentals of Electrical Engineering 2016 (ISFEE2016), Bucharest, Romania, 30 June - 2 July 2016, pp. 1-4.
    Download full-text
  5. Buncha Munmuangsaen and Banlue Srisuchinwong (2015), "The story of Chaotic Circuits and Systems at Sirindhorn International Institute of Technology, Thammasat University," Proceedings of The 10th International Symposium in Science and Technology 2015 (ISST 2015), Thailand, Aug 31 – Sep 2, pp. 135-141.
    Download full-text
  6. Banlue Srisuchinwong and Keerati Suibkitwanchai (2015), "A New Current-Tunable Chaotic Jerk Equation and a New Homoclinic Orbit of an Existing Minimal Chaotic Circuit," The 10th IEEE Conference on Industrial Electronics and Applications (ICIEA 2015), Auckland, New Zealand, 15 – 17 June 2015, pp. 1867-1869.
  7. Banlue Srisuchinwong and Prachum Sukjarernchailul (2014), “Twin Current-Tunable Chaotic Jerk Equations in Two Differently Swapped-Pair Circuits”, Proceedings of 2014 International Symposium on Computer, Cunsumer and Control (IEEE IS3C2014), Taichung, Taiwan, 10-12 June 2014, pp. 749-752.
  8. Phocharavidh Phuphatana and Banlue Srisuchinwong (2012), “Chaos in Compound Anti-Symmetric-Case Piecewise-Linear Delay Differential Equations”, Proceedings of the 5th Chaotic Modeling & Simulation International Conference (CHAOS 2012), Athens, Greece, 12 -15 June 2012, pp. 479-484. 
    Download full-text
  9. Buncha Munmuangsaen and Banlue Srisuchinwong (2012), “Chaos in Modified CFOA-Based Inductorless Sinusoidal Oscillators Using a Diode” Proceedings of the 5th Chaotic Modeling & Simulation International Conference (CHAOS 2012), Athens, Greece, 12-15 June 2012, pp. 361-367. 
    Download full-text
  10. San-Um, W. and Srisuchinwong, B. (2011), “A High-Chaoticity High-Complexity Modified Diffusionless Lorenz System”, Proceedings of 2011 International Conference on Computer Applications and Network Security (ICCANS 2011), Maldives, May 27-29, 2011 pp. 561-565.
  11. Srisuchinwong, B. and Sachdev, A. (2011). “Opposite Bifurcations in a Uniform-Coefficient Chaotic Jerk Model Based on a Nonlinearity of Tanh(Bx)”, Proceedings of 2011 2nd World Congress on Computer Science and Information Engineering (CSIE 2011), Changchun, China, 17-19 June 2011, pp. 625-627.
  12. Srisuchinwong, B. and Munmuangsaen B. (2011). “Opposite Bifurcations in a Uniform-Coefficient Chaotic Jerk Model Based on a Nonlinearity of ArcSinh(Bx)”, Proceedings of the 23rd Chinese Control and Decision Conference (CCDC2011), Mianyang, China, 23-25 May 2011, pp. 2715-2717.
  13. San-Um, W. and Srisuchinwong, B. (2011), “A Simple Multi-Scroll Chaotic Delay Differential Equation”, Proceedings of the 2011 Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology International Conference (ECTI-CON 2011), Khon Kaen, Thailand, 17-19 May 2011, pp. 137-140.
  14. Srisuchinwong, B. and Munmuangsaen, B. (2010). “A Highly Chaotic Attractor for a Dual-Channel Single-Attractor, Private Communication System”, Proceedings of the 3rd Chaotic Modeling & Simulation International Conference (CHAOS 2010), Chania, Crete, Greece, 1-4 June 2010, pp. 177(1-8).
  15. Srisuchinwong, B., Siriburanon, T. and Nontapradit, T. (2010). “Compound Structures of Six New Chaotic Attractors in a Modified Only-Single-Coefficient Jerk Model Based on Archyperbolic-Sine Nonlinearity”, Proceedings of the 3rd Chaotic Modeling & Simulation International Conference (CHAOS 2010), Chania, Crete, Greece, 1-4 June 2010, pp. 178(1-7).
  16. Srisuchinwong, B., Wangkuntod, A. and Janvit T. (2010). “Compound Structures of New Chaotic Attractors in a Commonly-Distributed-Coefficient Jerk Model with Arcsine and Arc-Hyperbolic Sine Nonlinearity”, Proceedings of the 22nd Chinese Control and Decision Conference (CCDC2010), Xuzhou, China, 26-28 May, pp. 3482-3485.
  17. Siriburanon, T., Srisuchinwong, B. and Nontapradit T. (2010). “Compound Structures of Six New Chaotic Attractors in a Solely-Single-Coefficient Jerk Model with Arctangent Nonlinearity”, Proceedings of the 22nd Chinese Control and Decision Conference (CCDC2010), Xuzhou, China, 26-28 May, pp. 985-990.
  18. Srisuchinwong, B., Wangkuntod, A. and Tippinit, J. (2010). “Compound Structures of Two New Chaotic Attractors in a Uniformly-Coefficient Jerk Model with Arctangent or Hyperbolic Tangent Nonlinearity”, Proceedings of the 2010 International Conference on Future Computer and Communication (ICFCC 2010), Vol. 1, 21-24 May 2010, Wuhan, Hubei, China, pp. 622-624.
  19. Srisuchinwong, B., Siriburanon, T. and Nontapradit, T. (2010). “Compound Structures of Five New Chaotic Attractors Based on Sin-1(x) in a Modified Sprott's Jerk Model”, Proceedings of the 2010 Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology International Conference (ECTI-CON 2010), 19-21 May 2010, Chiang Mai, Thailand, pp. 16-19.
  20. Munmuangsaen, B. and Srisuchinwong, B. (2009). “A New Lorenz-Like Chaotic Attractor and Its Synchronization”, 2009 Chinese Control and Decision Conference (CCDC 2009), Guilin, China, 17-19 June, pp. 1508-1512.
  21. Srisuchinwong, B. (2009). “Chaos in a Fractional-Order Jerk Model using Tanh Nonlinearity”, Proceedings of the 2nd Chaotic Modeling & Simulation International Conference (CHAOS 2009), Chania, Crete, Greece, 1-5 June, 8p.
  22. Toncharoen, C. and Srisuchinwong, B. (2009). “A Heart-Sound-Like Chaotic Attractor and Its Synchronization”, Proceedings of the 2009 Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) International Conference (ECTI-CON 2009), May 7-8, 2009, Pattaya, Thailand, pp. 407-410.
  23. Srisuchinwong, B. (2009). “Integer-Order and Fractional-Order Chaotic Oscillators”, NTC International Conference 2009, March 5-6, 2009, Bangkok, Thailand, pp. 27-33.
  24. Leelasantitham, A. and Srisuchinwong, B. (2009). “A Low-Power High-Frequency All-Pass-Filter-Based Sinusoidal Quadrature Oscillator Using CMOS Current Mirrors”, Proceedings of 2008 International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS2008), February 8-11, 2009, Bangkok, Thailand, pp. 159-163.
  25. Srisuchinwong, B., Liou, C.H. and Klongkumnuankan, T. (2008). “Prediction of Dominant Frequencies of CFOABased Sprott's Sinusoidal and Chaotic Oscillators”, Proceedings of the Chaotic Modeling and Simulation International Conference (CHAOS 2008) [CD-ROM], June 3-6, 2008, Chania, Greece, 7 p.
  26. Sa-Ngiamvibool, W. and Srisuchinwong, B. (2007). “A 10.7-MHz fully balanced, Q-of-267, 103-dB-dynamic-range current- tunable bandpass filter”, Proceedings of Asia-Pacific Conference on Communications 2007 (APCC 2007) [CD-ROM], October 18- 20, 2007, Bangkok, Thailand, pp. 51- 54.
  27. Srisuchinwong, B. and San-Um, W. (2007). “A Chua’s Chaotic Oscillator Based on a Coarsely Cubic-Like CMOS Resistor”. Proceedings of Asia-Pacific Conference on Communications 2007 (APCC 2007) [CD-ROM], October 18-20, 2007, Bangkok, Thailand, pp. 47-49.
  28. Srisuchinwong, B. and Liou, C.H. (2007). “High Frequency Implementation of Sprott’s Chaotic Oscillators Using Current-FeedbackOp Amps”, Proceedings of the International Symposium on Signals, Circuits & Systems (ISSCS 2007) [CD -ROM], July 12-13, 2007, Iasi, Romania. 3 p.
  29. Srisuchinwong, B. and Liou, C.H. (2007). “Improved Implementation of Sprott’s Chaotic Oscillators Based on Current-Feedback OP Amps”, Proceedings of the 2007 Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) International Conference, May 9-12, 2007, Chiang Rai, Thailand. pp. 38-44.
  30. Srisuchinwong, B. and San-Um, W. (2007). “Implementation of a Chua’s Chaotic Oscillator Using “Roughly-Cubic- Like” Nonlinearity”, Proceedings of the 2007 Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI) International Conference, May 9-12, 2007, Chiang Rai, Thailand. pp. 36-37.
  31. Leelasantitham, A. and Srisuchinwong, B. (2006). “A High-Frequency Low-Power Low-Pass-Filter-Based All-Current-Mirror Sinusoidal Quadrature Oscillator”, Proceedings of World Academy of Science, Engineering and Technology, Volume 18, pp. 23- 28, December 2006.
  32. Sa-Ngiamvibool, W. and Srisuchinwong, B. (2006), “A 10.7-MHz Fully Balanced, High-Q, Wide-Dynamic-Range Current- Tunable Bandpass Filter”, ECTI-CON 2006, May 10-13, Ubon Ratchathani, Thailand, pp. 670-673.
  33. Sa-Ngiamvibool, W. and Srisuchinwong, B. (2006), “A 10.7-MHz Fully Balanced, High-Q, 107-dB-Dynamic Range Current- Tunable Bandpass Filter,” 2006 IEEE Region 5 Conference, San Antonio, USA, 7-8 April, CD-ROM.
  34. San-Um, W., Srisuchinwong, B. and Tantaratana, S. (2004), “A Low-Power Low-Mismatch Low-Glitch Class AB First- Generation Switched- Current Memory Cell and Its Applications”, Proceedings of IEEE TENCON 2004, Chiang Mai, Thailand, 21- 24 November, pp. 258-261.
  35. Leelasantitham, A. and Srisuchinwong, B. (2004), “A High-Frequency, Low-Power, All-NMOS All-Current-Mirror Sinusoidal Quadrature Oscillator” Proceedings of IEEE TENCON 2004, Chiang Mai, Thailand, 21-24 November, pp. 364-367.
  36. San-Um, W., Srisuchinwong, B. and Tantaratana, S. (2004), “High-Frequency Low-Power Class AB Switched-Voltage Cells,” Proceedings of the first Electrical Engineering/Electronics, Computer, Telecommunications, and Information Technology (ECTI) Annual Conference, May 13-14, Pattaya, Cholburi, Thailand, pp. 22-25.
  37. Leelasantitham, A. and Srisuchinwong, B. (2003), “A high-Frequency Low-Power Sinusoidal Quadrature Oscillator Using Only CMOS Current Mirrors,” The 15th International Conference on Microelectronics (ICM03), Cairo, Egypt, December 9-11, pp. 404-408.
  38. San-Um, W., Srisuchinwong, B., Tantaratana, S. and Yamrong, E. (2003), “FoM-of-3-MHz/pW Class AB S3I : Class AB Seamless Two-Step Sampling Switched-Current Circuits,” The 3rd International Symposium on Communications and Information Technologies, ISCIT-2003, Vol. 1, Songkhla, Thailand, September 3-5, pp. 100-105.
  39. Srisuchinwong, B., Seedadan, I. and Surakampontorn, W. (2001), “Fully Differential Sinusoidal Quadrature Oscillator using Current-Tunable Phase-Lead All-Pass Filters”, Proceedings of 2001 IEEJ International Analog VLSI Workshop, May 14- 15, Bangkok, Thailand, pp. 122-127.
  40. Srisuchinwong, B. and Leelasantitham, A. (2000), “A 2V-700 MHz Current-Tunable Phase Shifter Using MOS Internal Capacitances,” Proceedings of the 2000 IEEE Asia Pacific Conference on Circuits and Systems (IEEE APCCAS 2000), China, December 4-6, pp. 205-208.
  41. Srisuchinwong, B. (1999), “A Wide-Frequency Current-Tunable Sinusoidal Quadrature Oscillator Using Signal-Differencing Phase Shifters”, Proceedings of the 1999 IEEE International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS’99), Phuket, Thailand, 8-10 December, pp. 497-500.
  42. Srisuchinwong, B. (1997), “A Fully-Balanced Wide-Frequency Current-Tunable All-Pass Filter”, Proceedings of the 1st International Conference on Information, Communications & Signal Processing (ICICS’97), IEEE, Singapore, 9 -12 September, pp. 1732-1736.
  43. Srisuchinwong, B. (1996), “Effects of Quantization on Filter Coefficients and Residue of Speech Signals Through Linear Predictive Coding Techniques,” Proceedings of the RESTECS’96 : Regional Symposium on Telecommunications Electronics Circuits and Systems, Bangkok, Thailand, 6 - 8 July, 1996, , pp. E11-E16.
  44. Srisuchinwong, B., York, T.A. and Tsalides, Ph. (1995) “A Symmetric Cipher Using Autonomous and Non-Autonomous Cellular Automata”, Proceedings of the IEEE 1995 Global Telecommunications Conference (GLOBECOM’95), Singapore, 13 - 17 November, pp.1172-1177.
  45. Srisuchinwong, B. and Trung, N.V. (1995), “An Integratable Current-Tunable R-L Oscillator”, Proceedings of the 1995 International Symposium on Signals, Systems and Electronics (ISSSE’95), IEEE, San Francisco, USA, 25 - 27October, pp. 541-544.
  46. Lear, M.J., James, E., Lavington, S.H., Srisuchinwong, B., York, T.A. and Somerville, A.M. (1993), “Comparing Several Implementations of a Hardware Hasher Unit”, IEE Colloquium on “Field Programmable Gate Arrays - Technology and Applications”, Digest No : 1993/037, London, February, pp. 8/1 - 8/5.
  47. York, T.A., Tsalides, Ph., Srisuchinwong, B., Hicks, P.J. and Thanailakis, A. (1990), “VLSI Implementation of Modulo- Arithmetic Units Using 2 -D Cellular Automata”, IEEE CompEuro Conference, Tel Aviv, Israel, May, pp. 558-559.

National Journals

  1. Srisuchinwong, B. and Leelasantitham, A. (2001), “A 2V Capacitorless Current-Tunable All-Pass Filter Using Current Mirrors,” Thammasat International Journal of Science and Technology, vol. 6, no. 1, pp. 46-51.
  2. Seedadan, I., Srisuchinwong, B. and Surakumpontorn (2001), “Fully Balanced Wide-Frequency Current-Tunable Phase- Lead All-Pass Filter,” KMUTT Research and Development Journal, vol.24, no.1, pp.31-41.
  3. Srisuchinwong, B. (1999), “A Current-Tunable Sinusoidal Quadrature Oscillator Using Signal-Differencing All-Pass Filters”, NECTEC Technical Journal, vol. 1, no. 3, pp. 92-99.
  4. Srisuchinwong, B (1998), “A Fully-Balanced Wide-Frequency Current-Tunable Integrator”, Thammasat International Journal of Science and Technology, vol. 3., no. 1, pp. 72-77.
  5. Srisuchinwong, B. (1997), “A Signal-Differencing Wide-Frequency Current-Tunable Phase Shifter”, Research and Development Journal of the Engineering Institute of Thailand, vol. 8, no. 1, pp. 1-8.

Local Publications

  1. Srisuchinwong, B. (2002), “A Low-Power High-Frequency Low-Distortion Sinusoidal Quadrature Oscillator”, SIIT Commenorative Publication, 10 years of International Cooperation Federation of Thai Industries, Nippon Keidanren and Thammasat University, pp. 7-10.
  2. Hongsuriya, A., Srisuchinwong, B. and Tantaratana, S. (2001), “A Low-Distortion Differential Modified S2I Switched- Current Memory Cell,” Colloquium on Low- Voltage Switch-Current Techniques for Bluetooth’s Channel Filters, IEEE CAS Society, Thailand Chapter, Digest No 1/2001, pp. 1/3 – 3/3.
  3. Hongsuriya, A., Srisuchinwong, B. and Tantaratana, S. (2000), “A Low-Distortion Differential Modified S2I Switched- Current Memory Cell,” Proceedings of the 2000 Symposium on Theory and Applications of Communications and Information Technology (TACIT2000), King Mongkut’s Institute of Technology, Ladkrabang, Thailand, August 24-25, pp. 130- 131.
  4. Srisuchinwong, B., Seedadan, I. and Surakampontorn, W. (2000), “A Fully-Balanced Wide-Frequency Current-Tunable Phase-Lead All-Pass Filter,” Proceedings of the 2000 Symposium on Theory and Applications of Communications and Information Technology (TACIT2000), King Mongkut’s Institute of Technology, Ladkrabang, Thailand, August 24-25, pp. 10-15.
  5. Srisuchinwong, B., Lertrusdachakul, T., Watcharawetsaringkan, O. and Meesawat, K. (2000), “VLSI Implementation of a Symmetric Cipher Using Cellular Automata,” NECTEC Annual Conference 2000 : ECTI Technologies and the New Economy, pp. 76-82.
  6. Srisuchinwong, B. (1997), “A Fully-Balanced Wide-Frequency Current-Tunable Phase Shifter”, The 20th Electrical Engineering Conference, Bangkok, November, pp.185-189.
  7. Srisuchinwong, B. (1997), “Applications of Cellular Automata to Very-Large Scale Integration,” Commemorative Publication, Inauguration of the Institute’s New Name “Sirindhorn International Institute of Technology”, Thammasat University, pp. 37-42.
  8. Srisuchinwong, B. (1997), “Effects of Quantization in Linear Predictive Coding Techniques of a Speech Coder”, 7th NECTEC Annual Conference, 10th NECTEC Anniversary, Bangkok, 27 February - 2 March 1997, CD-ROM.
  9. Srisuchinwong, B. and Monzur Murshed Kabir (1994), “Four-Dimensional Graphics for a Fourier Series of Real-Valued Functions : A Teaching Aid Through MATLAB”, 20th Congress on Science and Technology of Thailand, Bangkok, 19-21 October, pp.520-521.
  10. Srisuchinwong, B. and Ghosh, B.C. (1994), “An Integrable Sinusoidal Oscillator Using Bondwire Inductors and Banlance Structures for Auto- Cancellation of Interferences”, Proceedings of the 1994 Annual Conference Engineering Institute of Thailand, Bangkok, 5-10 October, pp. EE 17-22.
  11. Srisuchinwong, B., Ammatanuo, P. and Padunklun, P. (1985), “A Pulse-Train Alarm System”, The 8th National Conference on Electrical Engineering and Electronics, Bangkok, December 1985, pp. 1.302-1.328 (in Thai).

Books

  1. Srisuchinwong, B. (2012), “Opposite Bifurcations in a Uniform-Coefficient Chaotic Jerk Model Based on a Nonlinearity of Tanh(Bx)”, Recent Advances in Computer Science and Information Engineering (Volume 6), Lecture Notes in Electrical Engineering, Volume 129, Edited by Zhihong Qian, Lei Cao, Weilian Su, Tingkai Wang, and Huamin Yang, Springer, pp. 203-208, (ISSN 1876-1100, ISBN 978-3-642-25777-3)
    Download full-text (PDF 1067 KB) at: doi:10.1007/978-3-642-25778-0_30
  2. Srisuchinwong, B. and Munmuangsaen, B. (2011) “A Highly Chaotic Attractor for a Dual-Channel Single-Attractor, Private Communication System”, Chaos Theory: Modeling, Simulation and Applications, edited by Christos H. Skiadas, Ioannis Dimotikalis, and Charilaos Skiadas, World Scientific, pp. 399-405 (ISBN-13 978-981-4350-33-4, ISBN-10 981-4350-33-8).
  3. Srisuchinwong, B. (2010), “Chaos in a Fractional-Order Jerk Model using Tanh Nonlinearity”, Chaotic Systems : Theory And Applications, edited by Christos H. Skiadas and Ioannis Dimotikalis, World Scientific, pp. 338-345, ISBN-13 978-981-4299-71-8, ISBN-10 981-4299-71-5.
  4. Srisuchinwong, B., Liou, C.H., and Klongkumnuankan, T. (2009), “Prediction of Dominant Frequencies of CFOA-Based Sprott’s Sinusoidal and Chaotic Oscillators”, Topics on Chaotic Systems: Selected Papers from CHAOS 2008 International Conference, edited by Christos H. Skiadas, Ioannis Dimotikalis, and Charilaos Skiadas, World Scientific, pp. 331-337 (ISBN 13 978-981-4271-33-2, ISBN 10 981-4271-33-0).
  5. Srisuchinwong, B., Surakamporntorn, W. and Tantaratana, S., Editors (2000), Circuits for Wireless Communications Selected Reading, IEEE Press, ISBN 0-7803-4828-1.

Reports

  1. Banlue Srisuchinwong and Buncha Munmuangsaen (2012), “Fast-Synchronized Two-Fold Chaotic-Masking Secure Communication Systems Based on Hamiltonian Chaos”, Final Report to Office of The National Broadcasting and Telecommunication Commission, Thailand, Grant No. TARG 2553/002, October 2012.
  2. Srisuchinwong, B. and Meesawat, K. (1998), VLSI Implementation of a Symmetric Cipher Using Cellular, 1st progress report to National Science and Technology Development Agency, NSTDA grant no. 14/2540, May 1998.
  3. Srisuchinwong, B. (1996), Development of a Standard Cipher for Telephone Through TMS320, Final Report to National Science and Technology Development Agency, NSTDA grant no. 060/2537, November 1996.

International Patent (PCT : Patent Cooperation Treaty)

  1. Banlue Srisuchinwong and Buncha Munmuangsaen (2011) “Secure communication systems based upon two-fold masking of different chaotic attractors, including modified chaotic attractors, using static-dynamic secret keys”, 
    World Intellectual Property Organization (WIPO): WO 2011/105972 A1, Filing Date: 24 February 2010. 
    Publication Date: 1st September 2011 
    Download : http://www.wipo.int/patentscope/search/en/WO2011105972

Patent Pending

  1. Buncha Munmuangsaen and Banlue Srisuchinwong, ระบบสื่อสารการรักษาความลับของข้อมูลด้วยการใช้สัญญาณเคออติก ประเภทดิสซิเพทีฟชนิดสามมิติและสี่มิติสแนบร่วมกัน, Request No. 1301 001 495 (Thailand), 25 March 2013.
  2. Banlue Srisuchinwong and Buncha Munmuangsaen, ระบบสื่อสารการรักษาความลับของข้อมูลด้วยการใช้สัญญาณเคออติก ประเภทคอนเซอร์เวทีฟและดิสซิเพทีฟร่วมกัน, Request No. 1301 000 404 (Thailand), 25 January 2013.