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CURRICULUM VITAE (Preparation Date: September 27, 2019)
1. Name, Surname: Murat UZAM
2. Date of Birth : May 1, 1968
3. Title : Prof. Dr.
Address : University of Turkish Aeronautical Association
Faculty of Engineering
Department of Electrical and Electronics Engineering
Bahçekapı Mah. Okul Sok. No:11 06790 Etimesgut Ankara / TURKEY
Mobile phone : + 90 538 287 24 66
E-mail 1 : [email protected]
E-mail 2 : [email protected]
Researcher IDs : ORCID : 0000-0001-9625-5523
https://orcid.org/0000-0001-9625-5523
Web of Science ResearcherID : E-3930-2012
https://publons.com/researcher/2731100/murat-uzam/
linkedin : https://tr.linkedin.com/in/murat-uzam-91817266
Researchgate Profile: https://www.researchgate.net/profile/Murat_Uzam
Scopus Author ID: 6602173877
https://www.scopus.com/authid/detail.uri?authorId=6602173877
Google Scholar : https://scholar.google.com/citations?hl=tr&user=dlsvZkEAAAAJ
Semantic Scholar : https://www.semanticscholar.org/author/Murat-Uzam/3026554
Academic Microsoft : https://academic.microsoft.com/profile/jg658hg9-g77e-4ej9-8g5i-
j446233ij4f3/MuratUzam/
4. Education
Degree Department University Year
BSc Electrical Engineering Yıldız University, Turkey 1989
MSc Electrical Engineering Yıldız University, Turkey 1991
PhD Electrical Engineering University of Salford, UK 1998
The title and the supervisor of the MSc Thesis : The Design of PLCs and Their Application to Control Systems, Yıldız University, Turkey, 1991
Supervisor: Prof. Dr. Galip CANSEVER
The title and the supervisor of the PhD Thesis:
Petri-Net-Based Supervisory Control of Discrete Event Systems and Their Ladder Logic
Diagram Implementations, The University of Salford, UK, 1998. Supervisor: Dr. A.H. JONES
Open access PhD Thesis: http://usir.salford.ac.uk/14836/
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5. Employment :
Dates Title Organisation
1990 - 1993 Research Assistant Yıldız University, Engineering Faculty, Electrical Engineering
Department
1993 - 1998 Research Assistant Nigde University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
1998 - 1999 Research Assist. Dr. Nigde University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
1999 - 2004 Assist. Prof. Dr. Nigde University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
2004 - 2009 Assoc. Prof. Dr. Nigde University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
2009 - 2010 Prof. Dr. Nigde University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
2011 -
23.07.2016 Prof. Dr.
Meliksah University, Faculty of Engineering and Architecture,
Electrical and Electronics Engineering Department
25.09.2019 - Prof. Dr.
University of Turkish Aeronautical Association
Faculty of Engineering
Department of Electrical and Electronics Engineering
6. Supervised MSc and PhD Thesis:
6.1. Supervised MSc Thesis
1. Halil Fikret TURGUTLU, The Control of an Experimental Manufacturing System by means of a
PIC Microcontroller, Nigde University, Graduate School of Natural and Applied Sciences,
Electrical and Electronics Engineering Department, MSc Thesis, February 2002.
2.Mehmet TAŞTAN, The Control of an Experimental Manufacturing System by means of a
SIEMENS S7-200 CPU 214 Programmable Logic Controller, Nigde University, Graduate School
of Natural and Applied Sciences, Electrical and Electronics Engineering Department, March 2002.
3. Recep TAPU, SCADA Systems and Their Applications, Nigde University, Graduate School of
Natural and Applied Sciences, Electrical and Electronics Engineering Department, April 2002.
4. M. Kürşat YALÇIN, A Mobile Robot Application, Nigde University, Graduate School of Natural
and Applied Sciences, Electrical and Electronics Engineering Department, June 2003.
5. İ. Burak KOÇ, The Modeling of an Industrial System by means of Petri Nets and Its
Implementation Using a Xilinx XC2S200 FPGA, Nigde University, Graduate School of Natural
and Applied Sciences, Electrical and Electronics Engineering Department, July 2005.
6. B. Hakan AKSEBZECİ, The Modeling of an Elevator System by means of Petri Nets and Its
Implementation Using a Xilinx XC2S200E FPGA, Nigde University, Graduate School of Natural
and Applied Sciences, Electrical and Electronics Engineering Department, July 2005.
7. Gökhan GELEN, The Implementation of Extended Petri Nets Using a Xilinx XC2S200 FPGA,
Nigde University, Graduate School of Natural and Applied Sciences, Electrical and Electronics
Engineering Department, July 2006.
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8. Çağlar TATYÜZ, The Implementation of Automation Petri Nets by Using PARSIC Visual
Programming Environment and PIC Microcontrollers, Nigde University, Graduate School of
Natural and Applied Sciences, Electrical and Electronics Engineering Department, July 2006.
9. Şükrü KİTİŞ, The Design and Implementation of a Programmable Logic Controller by means of
a PIC 16F84 Microcontroller, Nigde University, Graduate School of Natural and Applied
Sciences, Electrical and Electronics Engineering Department, August 2007.
10. Yılmaz DURNA, A Microcontroller and RF Based Control Application, Nigde University,
Graduate School of Natural and Applied Sciences, Electrical and Electronics Engineering
Department, August 2007.
11. Erhan DİNÇER, A Distributed Control Application with CAN Bus, Nigde University, Graduate
School of Natural and Applied Sciences, Electrical and Electronics Engineering Department,
February 2010.
12. Recep DALCI, A General Methodology to Convert a Ramadge-Wonham Type Supervisor into
PLC Code, Nigde University, Graduate School of Natural and Applied Sciences, Electrical and
Electronics Engineering Department, June 2010.
13. Arif HARMANDA, Design and Application of a Programmable Logic Controller with a 16 Bit
PIC Microcontroller, Nigde University, Graduate School of Natural and Applied Sciences,
Electrical and Electronics Engineering Department, October 2011.
14. Emin Arif BİRCAN, The Design and Implementation of a Flexible Domestic Illumination
System, Melikşah University, The Graduate Institute of Science and Engineering, Electrical and
Computer Engineering Department, Master’s Thesis, October 2013.
15. Muhammad BASHIR, A Study on the Structural Complexity Reduction of Petri Net Based
Liveness Enforcing Supervisors in Flexible Manufacturing Systems, Melikşah University, The
Graduate Institute of Science and Engineering, Electrical and Computer Engineering Department,
Master’s Thesis, June 2014.
16. Rabiu Saleh ZAKARIYYA, A Petri Net Based Divide and Conquer Method for the Synthesis of
Liveness Enforcing Supervisors in FMS, Melikşah University, The Graduate Institute of Science
and Engineering, Electrical and Computer Engineering Department, Master’s Thesis, June 2014.
17. Sunusi Garba MOHAMMED, A Study on the Computational Complexity Reduction of Petri Net
Based Liveness Enforcing Supervisors in Flexible Manufacturing Systems, Melikşah University,
The Graduate Institute of Science and Engineering, Electrical and Computer Engineering
Department, Master’s Thesis, June 2014.
18. Tahir Lawan SALEH, A Near-Optimal Approach for the Synthesis of Petri Net Based Liveness
Enforcing Supervisors in Flexible Manufacturing Systems, Melikşah University, The Graduate
Institute of Science and Engineering, Electrical and Computer Engineering Department, Master’s
Thesis, June 2014.
19. Umar Suleiman ABUBAKAR, A General Approach for the Synthesis of Petri Net Based Liveness
Enforcing Supervisors in Flexible Manufacturing Systems, Melikşah University, The Graduate
Institute of Science and Engineering, Electrical and Computer Engineering Department, Master’s
Thesis, July 2014.
6.2. Supervised PhD Thesis
1. Gökhan GELEN, New Hybrid Methods Based on Petri Nets and Ramadge-Wonham Methods for
the Synthesis of Controllers for Discrete Event Systems and Their Application to Manufacturing
Systems, Nigde University, Graduate School of Natural and Applied Sciences, Electrical and
Electronics Engineering Department, PhD Thesis, 2010.
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7. Publications
7.1. International Journal and Magazine Papers indexed by Science Citation Index Expanded
A1. M. Uzam and A.H. Jones, “Discrete Event Control System Design Using Automation Petri Nets
and Their Ladder Diagram Implementation,” International Journal of Advanced Manufacturing
Technology, vol. 14, no. 10, pp. 716-728, October 1998. https://doi.org/10.1007/BF01438224
A2. M. Uzam, A.H. Jones and İ. Yücel, “Using a Petri-Net-Based Approach for the Real-Time
Control of an Experimental Manufacturing System,” International Journal of Advanced
Manufacturing Technology, vol.16, pp. 498-515, 2000. https://doi.org/10.1007/s001700070058
A3. M. Uzam, “An Optimal Deadlock Prevention Policy for Flexible Manufacturing Systems Using
Petri Net Models with Resources and the Theory of Regions,” International Journal of Advanced
Manufacturing Technology, vol. 19, pp. 192-208, 2002. https://doi.org/10.1007/s001700200014
A4. M. Uzam, “The Use of Petri Net Reduction Approach for an Optimal Deadlock Prevention
Policy for Flexible Manufacturing Systems,” International Journal of Advanced Manufacturing
Technology, vol. 23, numbers 3-4, pp. 204-219, February 2004.
https://doi.org/10.1007/s00170-002-1526-5
A5. M. Uzam, “Synthesis of Feedback Control Elements for Discrete Event Systems Using Petri
Net Models and Theory of Regions,” International Journal of Advanced Manufacturing
Technology, vol. 24, numbers 1-2, pp. 48-69, 2004. https://doi.org/10.1007/s00170-003-1715-x
A6. M. Uzam, and W.M. Wonham, "Comments on “Feedback Control Logic for Forbidden-State
Problems of Marked Graphs: Application to a Real Manufacturing System”," IEEE Transactions
on Automatic Control, vol. 49, no. 7, pp. 1216-1217, 2004.
https://doi.org/10.1109/TAC.2004.831164
A7. Z.W. Li, M. Uzam and M. C. Zhou, “Comments on “Deadlock Prevention Policy Based on
Petri Nets and Siphons”, ” International Journal of Production Research, vol. 42, no. 24, pp. 5253-
5254, 15 December 2004. https://doi.org/10.1080/00207540412331330822
A8. B. Karlık, M. Uzam, M. Cinsdikici and A. H. Jones, “Neurovision-Based Logic Control of an
Experimental Manufacturing Plant Using Convolutional Neural Net Le-Net5 and Automation Petri
Nets,” Journal of Intelligent Manufacturing, vol. 16, Numbers 4-5, pp. 527-548, 2005.
https://doi.org/10.1007/s10845-005-1662-5
A9. M. Uzam and W.M. Wonham, “A Hybrid Approach to Supervisory Control of Discrete Event
Systems Coupling RW Supervisors to Petri Nets,” International Journal of Advanced
Manufacturing Technology, vol. 28, n. 7-8, pp. 747-760, 2006.
https://doi.org/10.1007/s00170-004-2426-7
A10. M. Uzam and M. C. Zhou, “An Improved Iterative Synthesis Method for Liveness Enforcing
Supervisors of Flexible Manufacturing Systems,” International Journal of Production Research,
vol. 44, no. 10, pp. 1987-2030, 15 May 2006. https://doi.org/10.1080/00207540500431321
A11. M. Uzam, “General Purpose, Cheap and Flexible Contact Debouncer,” Electronics World,
volume 112, issue 1848, pp. 41-48, December 2006.
A12. M. Uzam and M. C. Zhou, “An Iterative Synthesis Approach to Petri Net Based Deadlock
Prevention Policy for Flexible Manufacturing Systems,” IEEE Transactions on Systems, Man and
Cybernetics - Part A: Systems and Humans, vol. 37, no. 3, pp. 362-371, 2007.
https://doi.org/10.1109/TSMCA.2007.893484
A13. Z.W. Li, M. C. Zhou and M. Uzam, “Deadlock Control Policy for a Class of Petri Nets Without
Complete Siphon Enumeration,” IET Control Theory & Applications, vol. 1, no. 6, pp. 1594-1605,
2007. https://doi.org/10.1049/iet-cta:20060468
A14. M. Uzam, Z.W. Li, and M. C. Zhou, “Identification and Elimination of Redundant Control
Places in Petri Net Based Liveness Enforcing Supervisors of FMS,” International Journal of
Advanced Manufacturing Technology, vol. 35, numbers 1-2, pp. 150-168, 2007.
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https://doi.org/10.1007/s00170-006-0701-5
A15. Z.W. Li, M. Uzam, and M. C. Zhou, “Deadlock Control of Concurrent Manufacturing
Processes Sharing Finite Resources,” International Journal of Advanced Manufacturing
Technology, vol. 38, numbers 7-8, pp.787-800, 2008. https://doi.org/10.1007/s00170-007-1125-6
A16. M. Uzam, “PLC with PIC16F648A Microcontroller (Part 1),” Electronics World, volume 114,
issue 1871, November 2008, pp. 21-25.
A17. M. Uzam, “PLC with PIC16F648A Microcontroller Part 2,” Electronics World, volume 114,
issue 1872, December 2008, pp. 29-35.
A18. M. Uzam, İ. B. Koç, G. Gelen, ve B. H. Aksebzeci, “Asynchronous Implementation of
Discrete Event Controllers Based on Safe Automation Petri Nets”, International Journal of
Advanced Manufacturing Technology, vol. 41, numbers 5-6, pp. 595-612, 2009.
https://doi.org/10.1007/s00170-008-1497-2
A19. M. Uzam and G. Gelen, “The Real-Time Supervisory Control of an Experimental
Manufacturing System Based on a Hybrid Method,” Control Engineering Practice, vol. 17, issue
10, pp. 1174-1189, 2009. https://doi.org/10.1007/s00170-008-1497-2
A20. M. Uzam, “PLC with PIC16F648A Microcontroller Part 3,” Electronics World, volume 115,
issue 1873, pp. 30-34, January 2009.
A21. M. Uzam, “PLC with PIC16F648A Microcontroller Part 4,” Electronics World, volume 115,
issue 1874, pp. 34-40, February 2009.
A22. M. Uzam, “PLC with PIC16F648A Microcontroller - Part 5,” Electronics World, volume 115,
issue 1875, pp. 30-33, March 2009.
A23. M. Uzam, “PLC with PIC16F648A Microcontroller - Part 6,” Electronics World, volume 115,
issue 1876, pp. 26-30, April 2009.
A24. M. Uzam, “PLC with PIC16F648A Microcontroller - Part 7,” Electronics World, volume 115,
issue 1877, pp. 30-32, May 2009.
A25. M. Uzam, “PLC with PIC16F648A Microcontroller - Part 8,” Electronics World, volume 115,
issue 1878, pp. 30-32, June 2009.
A26. M. Uzam, “PLC with PIC16F648A Microcontroller - Part 9,” Electronics World, volume 115,
issue 1879, pp. 29-34, July 2009.
A27. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 10,” Electronics World, volume 115,
issue 1880, pp. 29-34, August 2009.
A28. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 11,” Electronics World, volume 115,
issue 1881, pp. 38-42, September 2009.
A29. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 12,” Electronics World, volume 115,
issue 1882, pp. 36-41, October 2009.
A30. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 13,” Electronics World, volume 115,
issue 1883, pp. 42-44, November 2009.
A31. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 14,” Electronics World, volume 115,
issue 1884, pp. 40-42, December 2009.
A32. M. Uzam, “PLC with PIC16F648A Microcontroller-Part 15,” Electronics World, volume 116,
issue 1885, pp. 35-39, January 2010.
A33. M. Uzam, “PLC with PIC16F648A Microcontroller Part 16,” Electronics World, volume 116,
issue 1886, pp. 41-42, February 2010.
A34. M. Uzam, “PLC with PIC16F648A Microcontroller Part 17,” Electronics World, volume 116,
issue 1887, pp. 41-43, March 2010.
A35. M. Uzam, “PLC with PIC16F648A Microcontroller Part 18,” Electronics World, volume 116,
issue 1888, pp. 41-43, April 2010.
A36. M. Uzam, “PLC with PIC16F648A Microcontroller Part 19,” Electronics World, volume 116,
issue 1889, pp. 39-43, May 2010.
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A37. M. Uzam, “PLC with PIC16F648A Microcontroller Part 20,” Electronics World, volume 116,
issue 1890, pp. 38, 40, June 2010.
A38. M. Uzam, “PLC with PIC16F648A Microcontroller Part 21,” Electronics World, volume 116,
issue 1891, pp. 40-41, July 2010.
A39. M. Uzam, “PLC with PIC16F648A Microcontroller Part 22,” Electronics World, volume 116,
issue 1892, pp. 40-42, August 2010.
A40. M. Uzam, “On Suboptimal Supervisory Control of Petri Nets in Presence of Uncontrollable
Transitions via Monitor Places,” The International Journal of Advanced Manufacturing
Technology, vol. 47, Numbers 5-8, pp. 567-579, March 2010.
https://doi.org/10.1007/s00170-009-2219-0
A41. G. Gelen and M. Uzam , “Novel Analysis of Petri Net Based Controllers by Means of TCT
Implementation Tool of Supervisory Control Theory,” Maejo International Journal of Science and
Technology, vol. 4, issue 3, pp. 360-396, September 2010.
http://www.mijst.mju.ac.th/vol4/360-396.pdf Open access article.
A42. M. Uzam, “A General Technique for the PLC Based Implementation of RW Supervisors with
Time Delay Functions”, The International Journal of Advanced Manufacturing Technology, vol.
62, issue 5-8, pp. 687-704, 2012. https://doi.org/10.1007/s00170-011-3817-1
A43. Murat Uzam, “Comment on “A Deadlock Prevention Approach for Flexible Manufacturing
Systems with Uncontrollable Transitions in Their Petri Net Models””, Asian Journal of Control,
vol. 14, no. 14, pp. 1-4, July 2012. https://doi.org/10.1002/asjc.566
A44. Murat Uzam and Gökhan Gelen, “An Improved Hybrid Approach for the PLC Based
Implementation of Reduced RW Supervisors”, Turkish Journal of Electrical Engineering and
Computer Sciences, vol. 21, pp. 394-419, 2013. https://doi.org/10.3906/elk-1110-29. Open access
A45. Daniel Chao, Jiun-Ting Chen, and Murat Uzam, “Reaching Most States via Refining
Controller Regions for Supervisors of Two Well-Known S3PR”, International Journal of
Production Research, vol. 51, issue 15, pp. 4421-4430, 2013.
https://doi.org/10.1080/00207543.2012.739733
A46. Gaiyun Liu, Daniel Yuh Chao, and Murat Uzam, “Maximally Permissive Deadlock Prevention
via an Invariant Controlled Method”, International Journal of Production Research, vol. 51, issue
15, pp. 4431-4442, 2013. https://doi.org/10.1080/00207543.2012.752590
A47. Murat Uzam and Gökhan Gelen, “Comments on "Efficient Deadlock Prevention Policy in
Automated Manufacturing Systems Using Exhausted Resources"”, The International Journal of
Advanced Manufacturing Technology, vol. 71, issue 9-12, pp. 1729-1731, 2014.
https://doi.org/10.1007/s00170-014-5615-z
A48. Murat Uzam and Gökhan Gelen, “On a Deadlock Prevention Policy for a Class of Petri Nets
(SPMR)-P-3”, The International Journal of Advanced Manufacturing Technology, vol. 73, issue
1-4, pp. 315-319, 2014. https://doi.org/10.1007/s00170-014-5821-8
A49. Murat Uzam and Zhiwu Li, “On an Iterative Deadlock Prevention Approach for Automated
Manufacturing Systems”, The International Journal of Advanced Manufacturing Technology, vol.
74, issue 1-4, pp. 503-507, 2014. https://doi.org/10.1007/s00170-014-6018-x
A50. Murat Uzam and Gokhan Gelen, “Comments on "Supervisor Design to Enforce Production
Ratio and Absence of Deadlock in Automated Manufacturing Systems"”, IEEE Transactions on
Systems, Man and Cybernetics - Systems, vol. 44, issue 10, pp. 1455-1456, 2014.
https://doi.org/10.1109/TSMC.2014.2314280
A51. YuFeng Chen, Zhiwu Li, Kamel Barkaoui, and Murat Uzam, “New Petri Net Structure and its
Application to Optimal Supervisory Control: Interval Inhibitor Arcs”, IEEE Transactions on
Systems, Man and Cybernetics - Systems, vol. 44, issue 10, pp. 1384-1400, 2014.
https://doi.org/10.1109/TSMC.2014.2307284
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A52. Murat Uzam and Gökhan Gelen, “On Deadlock-Free Control of Automated Manufacturing
Systems with Flexible Routes and Assembly Operations Using Petri Nets”, The International
Journal of Advanced Manufacturing Technology, vol. 74, issue 9-12, pp. 1213-1217, 2014.
https://doi.org/10.1007/s00170-014-6071-5
A53. Gökhan Gelen and Murat Uzam, “The Synthesis and PLC Implementation of Hybrid Modular
Supervisors for Real Time Control of an Experimental Manufacturing System”, Journal of
Manufacturing Systems, vol. 33, issue 4, pp. 535-550, 2014.
https://doi.org/10.1016/j.jmsy.2014.04.008
A54. Gaiyun Liu, Daniel Yuh Chao, and Murat Uzam, “A Merging Method for the Siphon-Based
FMS Maximally Permissive Controllers with Simpler Structures”, IMA Journal of Mathematical
Control and Information, vol. 31, issue 4, pp. 551-573, 2014.
https://doi.org/10.1093/imamci/dnt029
A55. Zhiwu Li, Murat Uzam, Guan Jun Liu, Georg Frey, and Ying Tang, “Mathematical Problems
in Petri Nets Theory and Applications”, Editorial, Mathematical Problems in Engineering, volume
2015 (2015), article ID 240385, 2 pages, September 2015.
https://doi.org/10.1155/2015/240385, Open access article.
A56. Xiuyan Zhang and Murat Uzam, “Transition-Based Deadlock Control Policy Using
Reachability Graph for Flexible Manufacturing Systems”, Advances in Mechanical Engineering,
vol. 8, no. 2, pp. 1-9, February 2016.
https://doi.org/10.1177/1687814016631503. Open access article.
A57. Mi Zhao, Murat Uzam, and YiFan Hou “Near-Optimal Supervisory Control of Flexible
Manufacturing Systems Using Divide-and-Conquer Iterative Method”, Advances in Mechanical
Engineering, vol. 8, no. 3, pp. 1-17, March 2016.
https://doi.org/10.1177/1687814016639823. Open access article.
A58. YuFeng Chen, ZhiWu Li, Kamel Barkaoui, and Murat Uzam, “Monitor Design with Multiple
Self-loops for Maximally Permissive Supervisors”, ISA Transactions, vol. 61, pp. 129-140, March
2016. https://doi.org/10.1016/j.isatra.2015.12.016
A59. Murat Uzam, Gökhan Gelen, and Tahir Lawan Saleh, “Think-Globally-Act-Locally Approach
with Weighted Arcs to the Synthesis of a Liveness-enforcing Supervisor for Generalized Petri Nets
Modeling FMSs”, Information Sciences, vol. 363, pp. 235-260, 1 October 2016.
https://doi.org/10.1016/j.ins.2015.09.010
A60. Murat Uzam, Zhiwu Li, Gökhan Gelen, and Rabiu Saleh Zakariyya, “A Divide-and-Conquer-
Method for the Synthesis of Liveness Enforcing Supervisors for Flexible Manufacturing Systems”,
Journal of Intelligent Manufacturing, vol. 27, issue 5, pp. 1111-1129, October 2016.
https://doi.org/10.1007/s10845-014-0938-z
A61. Murat Uzam, Zhiwu Li, and Umar Suleiman Abubakar, “Think-Globally-Act-Locally
Approach for the Synthesis of a Liveness-enforcing Supervisor of FMSs Based on Petri Nets”,
International Journal of Production Research, vol. 54, issue 15, pp. 4634-4657, 2016.
https://doi.org/10.1080/00207543.2015.1098785
A62. Gökhan Gelen, Murat Uzam, and ZhiWu Li, “A New Method for the Redundancy Analysis of
Petri Net Based Liveness Enforcing Supervisors”, Transactions of the Institute of Measurement
and Control, vol. 39, issue 5, pp. 763-780, May 2017. https://doi.org/10.1177/0142331215620005
A63. Mi Zhao and Murat Uzam, “A Suboptimal Deadlock Control Policy for Designing Non-
Blocking Supervisors in Flexible Manufacturing Systems”, Information Sciences, vol. 388, pp.
135-153, May 2017. https://doi.org/10.1016/j.ins.2017.01.021
A64. M. Bashir, Z. Li, M. Uzam, A. Al-Ahmari, N.Q. Wu, D. Liu, T. Qu, “A Minimal Supervisory
Structure to Optimally Enforce Liveness on Petri Net Models for Flexible Manufacturing
Systems”, IEEE Access, vol. 5, pp. 15731-15749, August 3, 2017.
https://doi.org/10.1109/ACCESS.2017.2735418 Open access article.
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A65. YiFan Hou, Murat Uzam, Mi Zhao, and ZhiWu Li, “On Near Optimal Deadlock Control for a
Class of Generalized Petri Nets Using Reachability Graph”, Engineering Computations, vol. 34,
no. 6, pp. 1896-1922, 2017. https://doi.org/10.1108/EC-03-2016-0091
A66. M. Bashir, D. Liu, M. Uzam, N. Wu, A. Al-Ahmari, Z. Li, “Optimal Enforcement of Liveness
to Flexible Manufacturing Systems Modeled with Petri Nets via Transition-Based Controllers”,
Advances in Mechanical Engineering, vol. 10, no. 1, pp. 1–19, 2018.
https://doi.org/10.1177/1687814017750707 Open access article.
A67. XuYa Cong, Chao Gu, Murat Uzam, YuFeng Chen, Abdulrahman M Al‐Ahmari, NaiQi Wu,
MengChu Zhou, ZhiWu Li, “Design of Optimal Petri Net Supervisors for Flexible Manufacturing
Systems via Weighted Inhibitor Arcs”, Asian Journal of Control, vol. 20, no. 1, pp. 511-530, 2018.
https://doi.org/10.1002/asjc.1583
A68. Xiuyan Zhang, Murat Uzam, ZhiWu Li and Naiqi Wu, “On the Synthesis of Liveness-
Enforcing Supervisors for Flexible Manufacturing Systems Using Global Idle Places”, IMA
Journal of Mathematical Control and Information, vol. 35, issue 1, pp. 165-182, 20 March 2018.
https://doi.org/10.1093/imamci/dnw043
A69. Naiqi Wu, Tatsushi Nishi, Murat Uzam, “Modeling, Scheduling, and Control in Advanced
Production Systems”, Editorial, Advances in Mechanical Engineering, vol. 10, issue 6, pp. 1-3, 4
June 2018. https://doi.org/10.1177/1687814018779621 Open access article.
A70. Muhammad Bashir, Zhiwu Li, Murat Uzam, Naiqi Wu, Abdulrahman Al-Ahmari, “On
Structural Reduction of Liveness-Enforcing Petri Net Supervisors for Flexible Manufacturing
Systems: an Algebraic Approach”, IMA Journal of Mathematical Control and Information, volume
35, issue 4, pp. 1217-1249, 18 December 2018. https://doi.org/10.1093/imamci/dnx024
7.2. Other International Journal and Magazine Papers :
B1. G. Cansever, Ş. N. Engin, Ö. F. Özgüven, M. Uzam, “Fuzzy Logic Controller in Modern Control
Systems: An Industrial Application”, Advances in Modelling & Analysis, C, AMSE Periodicals,
vol. 43, no. 1, pp. 41 - 63, 1994.
B2. A.H. Jones and M. Uzam, “Towards a Unified Approach to the Design of Knowledge Based
Agile Manufacturing Systems,” The Journal of Integrated Design and Process Science, vol. 2, no.
3, pp. 55-76, September 1998.
B3. M. Uzam, A.H. Jones and İ. Yücel, “A Rule Based Methodology for Supervisory Control of
Discrete Event Systems Modelled as Automation Petri Nets,” The International Journal of
Intelligent Control and Systems, vol. 3, no. 3, pp. 297-326, 1999.
B4. M. Uzam and A.H. Jones, “A New Petri-Net-Based Synthesis Technique for Supervisory
Control of Discrete Event Systems”, Turkish Journal of Electrical Engineering and Computer
Sciences, vol. 10, no.1, pp. 85-109, 2002. Open access article.
http://journals.tubitak.gov.tr/elektrik/issues/elk-02-10-1/elk-10-1-6-0007-3.pdf
B5. M. Uzam, “Analogue Input/Output Modules”, Electronics World, Regular Column, volume 124,
issue 1986, pp. 14-15, July/August 2018.
B6. M. Uzam, “0-5V Analogue Input Module 1”, Electronics World, Regular Column : Analogue
I/O Modules, volume 124, issue 1986, pp. 10-11, September 2018.
B7. M. Uzam, “0-5V Analogue Input Module 2”, Electronics World, Regular Column : Analogue
I/O Modules, volume 124, issue 1987, pp. 14-15, October 2018.
B8. M. Uzam, “0-5V Analogue Input Modules 3, 4 and 5”, Electronics World, Regular Column :
Analogue I/O Modules, volume 124, issue 1988, pp. 12-15, November 2018.
9 / 18
B9. M. Uzam, “0-10V to 0-5V Signal Converter - Analogue Input Modules”, Electronics World,
Regular Column : Analogue I/O Modules, volume 124, issue 1989, pp. 10-12, December
2018/January 2019.
B10. M. Uzam, “Analogue Input Modules for a 5V to +5V to 0-5V Signal Converter”, Electronics
World, Regular Column : Analogue I/O Modules, volume 125, issue 1990, pp. 12-14, February
2019.
B11. M. Uzam, “Analogue Input Modules for a 10V to +10V to 0-5V Signal Converter”,
Electronics World, Regular Column : Analogue I/O Modules, volume 125, issue 1991, pp. 12-15,
March 2019.
B12. M. Uzam, “0-5V or 4-20mA to 0-5V Signal Converter - Analogue Input Modules”, Electronics
World, Regular Column : Analogue I/O Modules, volume 125, issue 1992, pp. 10-13, April 2019.
B13. M. Uzam, “0-5V Analogue Output Module”, Electronics World, Regular Column : Analogue
I/O Modules, volume 125, issue 1993, pp. 8-9, May 2019.
B14. M. Uzam, “Analog Output Module of a 0-5V to 0-10V Signal Converter”, Electronics World,
Regular Column : Analogue I/O Modules, volume 125, issue 1994, pp. 6-7, June 2019.
B15. M. Uzam, “Analog Output Modules of a 0-5V to 5V to +5V Signal Converter”, Electronics
World, Regular Column : Analogue I/O Modules, volume 125, issue 1995, pp. 8-9, July/August
2019.
7.3. International Conference Papers:
C1. A.H. Jones, M. Uzam, A.H. Khan, D. Karimzadgan, S.B.Kenway, “A General Methodology for
Converting Petri Nets Into Ladder Logic: The TPLL Methodology”, Proceedings of the 5th
International Conference on Computer Integrated Manufacturing and Automation Technology -
CIMAT'96, May 1996, France, pp. 357-362.
C2. M. Uzam and A.H. Jones, “Design of a Discrete Event Control System for a Manufacturing System
Using Token Passing Ladder Logic”, Proceedings of the CESA'96 IMACS Multiconference,
Symposium on Discrete Events and Manufacturing Systems, Lille, France, July 1996, pp. 513-
518.
C3. M. Uzam and A.H. Jones, “Design of Ladder Logic for an Agile Manufacturing System Using
TPLL”, Proceedings of the 1st Turkish Symposium on Intelligent Manufacturing Systems, IMS'96,
Sakarya, Turkey, May 30 -31, 1996, pp. 55 - 74.
C4. A.H. Jones, N. Ajlouni, M. Uzam, “On-line Frequency Domain Identification and Genetic Tuning
of PID Controllers”, Proceedings of the 1996 IEEE Conference on Emerging Technologies and
Factory Automation - ETFA’96, Kauai Marriott, Kauai, Hawaii, USA, November 18 -21, vol. 1,
pp. 261 - 266. https://doi.org/10.1109/ETFA.1996.573302
C5. A.H. Jones, N. Ajlouni, Y.-C. Lin, S.B. Kenway, M. Uzam, “Genetic Design of Robust PID Plus
Feedforward Controllers”, Proceedings of the 1996 IEEE Conference on Emerging Technologies
and Factory Automation - ETFA’96, Kauai Marriott, Kauai, Hawaii, USA, November 18 -21, vol.
1, pp. 267 - 271. https://doi.org/10.1109/ETFA.1996.573304
C6. M. Uzam, A.H. Jones, N. Ajlouni “Conversion of Petri Net Controllers for Manufacturing
Systems Into Ladder Logic Diagrams”, Proceedings of the 1996 IEEE Conference on Emerging
Technologies and Factory Automation - ETFA’96, Kauai Marriott, Kauai, Hawaii, USA,
November 18 -21, vol. 2, pp. 649 - 655. https://doi.org/10.1109/ETFA.1996.573978
C7. A.H. Jones, M. Uzam, N. Ajlouni, “Design of Discrete Event Control Systems for Programmable
Logic Controllers Using T-timed Petri Nets”, Proceedings of the 1996 IEEE International
Symposium on Computer-Aided Control System Design - CACSD’96, Dearborn, MI, USA,
September 15 - 18, 1996, pp. 212 - 217. https://doi.org/10.1109/CACSD.1996.555283
10 / 18
C8. M. Uzam and A.H. Jones, “Equivalence of Control Places and Control Transitions in Petri Net
Controllers”, Proceedings of the 1996 International Conference on Circuits, Systems and
Computers - CSC'96, Piraeus, Greece, July 15 -17, 1996, vol. 2, pp. 535 - 539.
C9. M. Uzam and A.H. Jones, “Towards a Unified Methodology for Converting Coloured Petri Net
Controllers into Ladder Logic Using TPLL: Part I - Methodology”, Proc. of International
Workshop on Discrete Event Systems-WODES'96, Edinburgh, UK, August 19-21, 1996, pp.178-
183.
C10. A.H. Jones and M. Uzam, “Towards a Unified Methodology for Converting Coloured Petri Net
Controllers into Ladder Logic Using TPLL:Part II-An Application”, Proc. of Int. Workshop on
Discrete Event Systems-WODES'96, Edinburgh, UK, August 19-21, 1996, pp. 314-319.
C11. A.H. Jones and M. Uzam, “Design of Sequential Control Systems in Statement Lists Using TPL:
Part I - Token Passing Statement List”, Proceedings of 2nd Portuguese Control Conference -
Controlo'96, Porto, Portugal, September 11 - 13, 1996, pp. 341 - 346.
C12. M. Uzam and A.H. Jones, “Design of Sequential Control Systems in Statement Lists Using TPL:
Part II - An Application”, Proceedings of 2nd Portuguese Control Conference - Controlo'96, Porto,
Portugal, September 11 - 13, 1996, pp. 771 - 775.
C13. A.H. Jones and M. Uzam, “Towards a Unified Approach to the Design of Knowledge Based
Agile Manufacturing Systems: Part I - Methodology”, Proceedings of the 2nd World Conference
on Integrated Design and Process Technology - IDPT'96, Austin, Texas, USA, December 1 - 4,
1996, vol. 3, pp. 369 - 376.
C14. M. Uzam and A.H. Jones, “Towards a Unified Approach to the Design of Knowledge Based
Agile Manufacturing Systems: Part II - An Application”, Proceedings of the 2nd World Conference
on Integrated Design and Process Technology - IDPT'96, Austin, Texas, USA, December 1 - 4,
1996, vol. 3, pp. 377 - 384.
C15. A.H. Jones, M. Uzam, D. Karimzadgan, “Design of Knowledge Based Sequential Control
Systems”, Proceedings of the World Automation Congress - WAC’96, Montpellier, France, May
28 -30, 1996, Intelligent Automation Control - Recent Trends in Development and Applications,
TSI Press Series, vol. 4, pp. 343 - 348.
C16. A.H. Jones, M. Uzam, P. B. de M. Oliveira, “Design of Knowledge Based Sequential Control
Systems for Manufacturing Systems”, Proceedings of the IEEE Mediterranean Symposium on New
Directions in Control & Automation - MSCA’96, Crete, Greece, June 10 -14, 1996, pp. 764 – 769.
C17. M. Uzam and A.H. Jones, “Real-Time Implementation of Automation Petri Net Controllers
Using Programmable Logic Controllers”, Preprints of the 4th IFAC Workshop on Algorithms and
Architectures for Real-Time Control - AARTC’97, Vilmoura, Portugal, April 9 - 11, 1997, pp.
421 - 426.
C18. A.H. Jones and M. Uzam, “A Formal Technique for the Synthesis of Petri Net Supervisors for
Discrete Event Systems”, Proceedings of the International Conference on Control - CONTROL'98,
University of Wales, Swansea, UK, September 1 - 4, 1998, pp. 845-852.
https://doi.org/10.1049/cp:19980339
C19. M. Uzam and A.H. Jones, “A Methodology for the Synthesis of Petri-Net-Based Supervisory
Controllers for Manufacturing Systems: Part I - The Synthesis Procedure”, Proceedings of the 2nd
International Symposium on Intelligent Manufacturing Systems, IMS'98, Sakarya University,
Sakarya, Turkey, 6-7 August 1998, vol. II, pp. 1013-1024.
C20. M. Uzam and A.H. Jones, “A Methodology for the Synthesis of Petri-Net-Based Supervisory
Controllers for Manufacturing Systems: Part II - An Application”, Proceedings of the 2nd
International Symposium on Intelligent Manufacturing Systems, IMS'98, Sakarya University,
Sakarya, Turkey, 6-7 August 1998, vol. I, pp. 535-546.
11 / 18
C21. G. Cansever, M. Uzam and A.H. Jones, “Petri Net Based Design of Discrete Event Systems for
Programmable Logic Controller”, Proceedings of the 4th Int. PLCopen Conference on Industrial
Control Programming, ICP’2000, Utrecht, The Netherlands, 10-11 October 2000, pp. 79-86.
C22. M. Uzam, M. K. Yalçın and M. Avcı, “Digital Hardware Implementation of Petri Net Based
Specifications: Direct Translation from Safe Automation Petri Nets to Circuit Elements”
Proceedings of the International Workshop on Discrete Event Systems Design, DESdes’01, June
27-29, 2001, Przytok near Zielona Gora, Poland, pp. 25-33.
http://www.iie.uz.zgora.pl/iie_archiwum/desdes01/files/ref/I-2.pdf Open access article.
C23. M. Uzam and M. C. Zhou, “Iterative Synthesis of Petri Net Based Deadlock Prevention Policy
for Flexible Manufacturing Systems”, Proceedings of the 2004 IEEE International Conference on
Systems, Man and Cybernetics, The Hague, The Netherlands, Oct. 10-13 2004, pp. 4260-4265.
https://doi.org/10.1109/ICSMC.2004.1401200
C24. M. Uzam, İ. Burak Koç, Gökhan Gelen and B. Hakan Aksebzeci, “Asynchronous
Implementation of a Petri Net Based Discrete Event Control System Using a Xilinx FPGA”,
Proceedings of the 35th International Conference on Computers and Industrial Engineering ,
Istanbul, Turkey, June 20-22, 2005, vol. II, pp. 2025-2030.
C25. M. Uzam, G. Gelen, R. Dalcı, “A New Approach for the Ladder Logic Implementation of
Ramadge-Wonham Supervisors”, Proceedings of the 22nd International Symposium on
Information, Communication and Automation Technologies, Sarajevo, Bosnia and
Herzegovina, October 29-31, 2009, pp. 113-119. https://doi.org/10.1109/ICAT.2009.5348455
C26. M. Uzam, G. Gelen, R. Dalcı, “Timed Transition Automata and Their Ladder Logic
Implementation”, Proceedings of the 22nd International Symposium on Information,
Communication and Automation Technologies, Sarajevo, Bosnia and Herzegovina, October 29-
31, 2009, pp. 120-127. https://doi.org/10.1109/ICAT.2009.5348424
C27. M. Uzam, G. Gelen, R. Dalcı, “An Effective Method for Detection and Elimination of Avalanche
Effect Problem”, Proceedings of the 2010 IEEE International Conference on Mechatronics and
Automation (ICMA 2010), Xi'an, China, August 4-7, 2010, pp. 1988-1993.
https://doi.org/10.1109/ICMA.2010.5589235
C28. G. Gelen, M. Uzam, R. Dalcı, “The Concept of Postponed Event in Timed Discrete Event
Systems and Its PLC Implementation”, Proceedings of the 2010 IEEE International Conference on
Systems, Man, and Cybernetics-SMC 2010, İstanbul, Turkey, October 10-13, 2010, pp. 2753-
2759. https://doi.org/10.1109/ICSMC.2010.5642408
C29. M. Uzam, R.S. Zakariyya, G. Gelen, and Z.W. Li, “The Computation of Liveness Enforcing
Supervisors From Submodels of a Petri Net Model of FMSs”, Proceedings of the IEEE
International Conference of Region 10 (TENCON), Xian, People’s Republic of China, October
22-25, 2013, pp. 1-4. https://doi.org/10.1109/TENCON.2013.6718803
C30. M. Uzam, Z.W. Li and U.S. Abubakar, “A General Approach for the Computation of a Liveness
Enforcing Supervisor for the Petri Net Model of an FMS”, Proceedings of the 1st International
Workshop on Petri Nets for Adaptive Discrete-Event Control Systems co-located with 35th
International Conference on Application and Theory of Petri Nets and Concurrency (Petri Nets
2014) Tunis, Tunisia, June 24, 2014, pp. 68-82.
http://ceur-ws.org/Vol-1161/11610068.pdf Open access article.
C31. M. Zhao, M. Uzam and Y.F. Hou, “A Divide-and-Conquer Method for the Synthesis of Non-
Blocking Supervisors for Flexible Manufacturing Systems”, Proceedings of the 2014 IEEE
International Conference on Automation Science and Engineering (CASE) Taipei, Taiwan, August
18-22, 2014, pp. 455-460. https://doi.org/10.1109/CoASE.2014.6899365
C32. Y.F. Hou, M. Zhao, M. Uzam, and D. Liu, “A Reachability Graph-Based Iterative Method for
the Synthesis of Near-Optimal Non-Blocking Supervisors”, Proceedings of the IEEE International
12 / 18
Conference of Region 10 (TENCON), TENCON 2015, Macao, November 1-4, 2015, pp. 1-6.
https://doi.org/10.1109/TENCON.2015.7372803
7.4. Books or Book Chapters (written in English):
D1. Murat Uzam, Building a Programmable Logic Controller with PIC16F648A Microcontroller,
ISBN: 978-1-46-658985-8, 28th August 2013 by CRC Press – 371 pages.
https://www.crcpress.com/Building-a-Programmable-Logic-Controller-with-a-PIC16F648A-
Microcontroller/Uzam/p/book/9781466589858
7.5. National Journal and Magazine Papers (written in Turkish):
E1. M. Uzam, “The Enabling Arc Method for the Synthesis of Petri-Net-Based Supervisors
for Discrete Event Systems”, Niğde Üniversitesi, Mühendislik-Mimarlık Fakültesi, Mühendislik
Bilimleri Dergisi, Temmuz 1998, cilt 2, sayı 1, sayfa 53-68.
E2. M. Uzam, G. Gelen, İ. B. Koç, ve B.H. Aksebzeci, “Ayrık Olay Kontrol Sistemlerinin Petri
Ağları ile Tasarımı ve PLC ile Gerçekleştirilmesi”, sayı 125, sayfa 18-22, Endüstri & Otomasyon,
Ağustos 2007. Açık erişim makale. http://www.emo.org.tr/ekler/62ed9a3901af286_ek.pdf
E3. G. Gelen, B. H. Aksebzeci, İ. B. Koç, ve M. Uzam, “Basit Otomasyon Petri Ağları ile Ayrık
Olay Sistemlerinin Modellenmesi”, sayı 129, sayfa 16-21, Endüstri & Otomasyon, Aralık 2007.
Açık erişim makale. http://www.emo.org.tr/ekler/14c5ade3feab262_ek.pdf
E4. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC Donanım”, sayı 153, sayfa 22-
24, Aralık 2009.
E5. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 2 Temel Yazılım”, sayı 154,
sayfa 18-26, Ocak 2010.
E6. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 3 Kontak ve Röle Temelli
Makrolar”, Endüstri & Otomasyon, sayı 155, sayfa 30-33, Şubat 2010.
E7. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 4 Flip-Flop Makroları”,
Endüstri & Otomasyon, sayı 156, sayfa 16-22, Mart 2010.
E8. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 5 Zamanlayıcı Makroları”,
Endüstri & Otomasyon, sayı 157, sayfa 30-37, Nisan 2010.
E9. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 6 Sayıcı Makroları”, Endüstri
& Otomasyon, sayı 158, sayfa 16-22, Mayıs 2010.
E10. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 7 Karşılaştırma Makroları”,
Endüstri & Otomasyon, sayı 159, sayfa 16-19, Haziran 2010.
E11. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 8 Aritmetik Makroları”,
Endüstri & Otomasyon, sayı 160, sayfa 28-31, Temmuz 2010.
E12. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 9 Lojik Makroları”, Endüstri
& Otomasyon, sayı 161, sayfa 28-31, Ağustos 2010.
E13. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 10 Kaydırma ve Döndürme
Makroları”, Endüstri & Otomasyon, sayı 162, sayfa 24-29, Eylül 2010.
E14. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 11 Veri Seçici Makrolar”,
Endüstri & Otomasyon, sayı 163, sayfa 30-34, Ekim 2010.
E15. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 12 Veri Dağıtıcı Makrolar”,
Endüstri & Otomasyon, sayı 164, sayfa 16-20, Kasım 2010.
E16. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 13 Kod Çözücü Makroları”,
Endüstri & Otomasyon, sayı 165, sayfa 16-22, Aralık 2010.
E17. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 14 Öncelikli Kodlayıcı
Makroları”, Endüstri & Otomasyon, sayı 166, sayfa 16-21, Ocak 2011.
13 / 18
E18. M. Uzam, “PIC16F877A Mikro-Denetleyicisi Temelli PIC PLC - 15 Bir Örnek: Uzaktan
Kumandalı Model Kapı”, Endüstri & Otomasyon, sayı 167, sayfa 18-24, Şubat 2011.
7.6. National Conference Papers (written in Turkish):
F1. G. Cansever, Ö. F. Özgüven, M. Uzam, Ş. N. Engin, “Kontrol Sistemlerinde Bulanık Lojik:
Bulanık Lojik Deneteleyici”, Elektrik Mühendisliği 5. Ulusal Kongresi, Trabzon, 1993, s. 57 - 62.
F2. M. Uzam, G. Cansever, Ş. Alkan, “Programlanabilir Lojik Denetleyicilerde Yaygın olarak
Kullanılan Giriş/Çıkış Arabirimleri”, Elektrik Mühendisliği 5. Ulusal Kongresi, Trabzon, 1993, s.
63 - 68.
F3. M. Uzam, Ö. F. Özgüven, B. Kılıç, M. Öztürk, A. Saral, “Atık Su Arıtımında Oluşan Biyogazın
Ölçümü için Mikro Denetleyici Kontrollu Cihaz Tasarımı”, Elektrik Mühendisliği 5. Ulusal
Kongresi, Trabzon, 1993, s. 937 - 942.
F4. M. Uzam, “Lojik Kontrol Sistemlerinin Tasarımında Otomasyon Petri Net’lerin Kullanımı ve
PIC16F84 Mikrodenetleyicisi ile bir Uygulama”, Elektrik-Elektronik-Bilgisayar Mühendisliği
Sempozyumu, ELECO’2000, Bursa, 8-12 Kasım, 2000, s. 388-392.
F5. H. F. Turgutlu, ve M. Uzam, "PIC 16F84 Mikrodenetleyicisi ile Bir Deneysel Endüstriyel
Sistemin Kontrol Edilmesi", TOK 2002, Otomatik Kontrol Ulusal Toplantısı, ODTÜ - Ankara, 9-
11 Eylül 2002, bildiriler kitabı, s. 745-753.
F6. M. Can, M. K. Yalçın ve M. Uzam, “RF ile Uzaktan Kumandalı Otomatik Kapının
Gerçekleştirilmesi”, III. Ulusal Proje Aranıyor’03 Öğrenci Sempozyumu, Erciyes Üniversitesi,
Müh. Fak. Elektronik Müh. Böl., 28-30 Nisan 2003, s. 57-62.
F7. E. Saraç, İ. Karakaya, M. K. Yalçın ve M. Uzam, “Uzaktan Kumanda Edilen Lamba Dimmerinin
Gerçekleştirilmesi”, III. Ulusal Proje Aranıyor’03 Öğrenci Sempozyumu, Erciyes Üniversitesi,
Müh. Fak. Elektronik Müh. Böl., 28-30 Nisan 2003, s. 51-56.
F8. Gökhan Gelen ve M. Uzam, “Güvenilir Otomasyon Petri Netlerin Xilinx XC2S200 FPGA'sı ile
Gerçekleştirilmesi ve Uzaktan Kumandalı Kapı Modelinin Kontrol Edilmesi”, Elektrik-Elektronik-
Bilgisayar Mühendisliği 11. Ulusal Kongresi, İstanbul, 22-25 Eylül 2005, Bildiriler Kitabı-1, s.
70-73. http://www.emo.org.tr/ekler/627f44819e0cdb2_ek.pdf Açık erişim bildiri.
F9. İsmail Yavuz, Gökhan Gelen ve M. Uzam, “Akıllı Sayma Rölesi Tasarımı ve PIC16F877
Mikrodenetleyicisi ile Gerçekleştirilmesi”, Elektrik-Elektronik-Bilgisayar Mühendisliği 11.
Ulusal Kongresi, İstanbul, 22-25 Eylül 2005, Bildiriler Kitabı-2, s. 496-499.
http://www.emo.org.tr/ekler/de4aa6f66a39065_ek.pdf Açık erişim bildiri.
F10. G. Gelen, B. H. Aksebzeci, İ. B. Koç, ve M. Uzam, “Basit Otomasyon Petri Ağları
Kullanılarak Ayrık Olay Sistemlerinin Modellenmesi”, 3. Otomasyon Sempozyumu, Denizli, 11-
12 Kasım 2005, Bildiriler Kitabı, s. 153-157. Açık erişim bildiri.
http://www.emo.org.tr/ekler/14c5ade3feab262_ek.pdf
F11. M. Uzam, G. Gelen, İ. B. Koç, ve B. H. Aksebzeci, “Ayrık Olay Kontrol Sistemlerinin Petri
Ağları ile Tasarımı ve Programlanabilir Lojik Denetleyicilerle Gerçekleştirilmesi”, 3. Otomasyon
Sempozyumu, Denizli, 11-12 Kasım 2005, Bildiriler Kitabı, s. 158-162.
http://www.emo.org.tr/ekler/62ed9a3901af286_ek.pdf Açık erişim bildiri.
F12. G. Gelen ve M. Uzam, "Ayrık Olay Sistemlerinin R&W Yöntemi ve Petri Ağları Temelli Melez
Kontrolü", TOK 50nci Yıl, Otomatik Kontrol Ulusal Toplantısı, İTÜ - İstanbul, 13-15 Kasım
2008, bildiriler kitabı, Cilt 2, s. 719-724.
F13. G. Gelen, M. Uzam, “Ayrık Olay Sistemleri için Petri Ağları ve R&W Metodu Tabanlı Modüler
Melez Gözeticilerin Sentezlenmesi”, Otomatik Kontrol Ulusal Toplantısı Bildiriler Kitabı, TOK
2012, Niğde, 11-13 Ekim, 2012, Cilt 1, syf. 200-205.
F14. G. Gelen, M. Uzam, “Petri Ağları Temelli Kördüğüm Önlemede Optimal Davranışın
Belirlenmesi”, Otomatik Kontrol Ulusal Toplantısı Bildiriler Kitabı, TOK 2013, Malatya, 26-28
Eylül, 2013, syf. 1137-1142.
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F15. G. Gelen, M. Uzam, “Esnek Üretim Sistemlerinde Kördüğüm Problemi ve Çözüm Yöntemleri”,
Otomatik Kontrol Ulusal Toplantısı Bildiriler Kitabı, TOK 2013, Malatya, 26-28 Eylül, 2013, syf.
443-448.
7.7. Other Publications:
G1. M. Uzam, “Ultimate Contact Debouncer” Published online in EDN (Electronics, Design,
Strategy, News), July 2008.
https://www.edn.com/design/components-and-packaging/4327390/Ultimate-contact-debouncer, 8
G2. M. Uzam, Sayısal Tasarım Dersi Deney Kitabı, 338 sayfa, Ocak 2015.
https://www.researchgate.net/publication/319203935_SAYISAL_TASARIM_DERSI_-
_DENEY_KITABI
G3. M. Uzam, Digital Design Laboratory Manual, 337 pages, January 2015.
https://www.researchgate.net/publication/319203501_DIGITAL_DESIGN_LABORATORY_MAN
UAL
7.8. Books or Book Chapters (written in Turkish) :
H1. M. Uzam, “PICBIT_PLC ile Lojik Tasarım”, ISBN: 975-511-508-0, 613 sayfa, Birsen
Yayınevi, Eylül 2008.
http://www.birsenyayinevi.com/picbitplc-ile-lojik-tasarim--doc-dr-murat-uzam
H2. M. Uzam, “PIC 16F877A Temelli PLC”, ISBN: 978-975-511-586-3, 322 sayfa, Birsen
Yayınevi, 2013.
http://www.birsenyayinevi.com/pic16f877-a-temelli-plc-murat-uzam
8. Projects :
1. Control Synthesis of Discrete Event Systems, MARS action – INRIA, France, Researcher,
1.7.1999-31.09.1999.
2. “A Theoretical and Experimental Study on Petri Nets and Ramadge-Wonham Methods for the
Synthesis of Controllers for Discrete Event Systems and Their Application to Manufacturing
Systems”, Project Leader, This Project is supported by the research grant of the Scientific and
Technological Research Council of Turkey (Türkiye Bilimsel ve Teknolojik Araştırma
Kurumu - TÜBİTAK) under the project number TÜBİTAK-107E125.
Start Date Duration Budget
1 October 2007 36 Months ~120.000 USD
3. “Theoretical Studies on New Approaches for Petri Nets Based Deadlock Prevention in Flexible
Manufacturing Systems”, Project Leader, This Project is supported by the research grant of
the Scientific and Technological Research Council of Turkey (Türkiye Bilimsel ve Teknolojik
Araştırma Kurumu - TÜBİTAK) under the project number TÜBİTAK-112M229.
Start Date Duration Budget
1 January 2013 30 Months ~120.000 USD
15 / 18
9. Citation Reports:
from Web of Science (Report Date: 18 February 2019)
from Scopus (Report Date: 18 February 2019)
from Google Scholar (Report Date: 18 February 2019)
16 / 18
17 / 18
13. Lectures given recently both on undergraduate and graduate level.
Academic Year Semester The name of lecture level
2008-2009
(Niğde University)
1st
Logic Circuits undergraduate
Microprocessors undergraduate
Programmable Logic Controllers graduate
Design with PIC Microcontrollers graduate
2nd
Industrial Control Systems undergraduate
Microprocessors Lab. undergraduate
Logic Design Lab. undergraduate
Control of Discrete Event Systems graduate
PIC PLC graduate
2009-2010
(Niğde University)
1st
Logic Circuits undergraduate
Microprocessors undergraduate
Programmable Logic Controllers graduate
2nd
Industrial Control Systems undergraduate
Microprocessors Lab. undergraduate
Logic Design Lab. undergraduate
2010-2011
(Niğde University) 1st
Logic Circuits undergraduate
Microprocessors undergraduate
Programmable Logic Controllers graduate
2010-2011
(Melikşah University) 2nd
Introduction to Electrical and Electronics
Engineering undergraduate
Design with PIC Microcontrollers graduate
2011-2012
(Melikşah University)
1st Digital Design undergraduate
PIC PLC graduate
2nd Digital Design undergraduate
Design of a Microcontroller Based PLC graduate
2012-2013
(Melikşah University)
1st
Digital Design undergraduate
Microcontrollers undergraduate
PIC PLC graduate
2nd
Sayısal Tasarım undergraduate
Digital Design undergraduate
Design of a Microcontroller Based PLC graduate
2013-2014
(Melikşah University)
1st Digital Design undergraduate
PIC PLC graduate
2nd
Industrial Control Systems undergraduate
Digital Design undergraduate
Design of a Microcontroller Based PLC graduate
18 / 18
2014-2015
(Melikşah University)
1st Industrial Control Systems undergraduate
PIC PLC graduate
2nd Digital Design undergraduate
Design of a Microcontroller Based PLC graduate
2015-2016
(Melikşah University)
1st Industrial Control Systems undergraduate
PIC PLC graduate
2nd
Industrial Control Systems undergraduate
Digital Design undergraduate
Digital Design Laboratory undergraduate