Individual Information
SURENDRA RAHAMATKAR
Principal & Professor - Shree Rayeshwar Institute of Engineering & Information Technology
Web Page:
http://www.ritgoa.ac.in/principal.php
Educational Qualification
From 2008 to 2012, PhD in Computer Engineering , India
From 2005 to 2007, MTech in Computer Engineering , India
From 1994 to 1998, BE in Computer Engineering , India
Research Interests
Time synchronization in Wireless Sensor Networks
Target Detection System in Ad hoc Network
Termination Detection in Distributed System
Advance Operating Systems
Object Oriented Design & Analysis
Object Oriented Software Engineering
Work Experience
From 2013 to Present, Principal & Professor , RIT, Goa - Goa University
From 2010 to 2013, Professor & Dean , NIT, Nagpur - Nagpur University
From 2009 to 2010, Associate Professor , Institute under RGPV, Bhopal
From 2007 to 2009, Associate Professor , Institutes under UPTU, Lucknow
From 1999 to 2007, Asst. Professor , UPTU/MCET/GEC
Projects
From 2008 to 2012, “A Light Weight Time Synchronization Approach in Sensor Network” – Tree Structured Referencing Time Synchronization Scheme
In our research work first we suggested an algorithm to be used by each sensor node to efficiently flood the network to construct a logical hierarchical structure from a designated source point then proposed a Tree Structured Referencing Time Synchronization (TSRT) scheme to minimize the complexity of the synchronization, which works in two phases. First phase used to construct an ad hoc tree structure and second phase used to synchronize the local clocks of sensor nodes. The goal of the TSRT is to achieve a network wide synchronization of the local clocks of the participating nodes. The proposed TSRT scheme is further extended for multi-hop Time Synchronization which works on two phases as similar to TSRT followed by network evaluation phase.
From 2012 to Present, Target Detection System (TDS) for Enhancing Security in Ad hoc Network
Intrusion detection techniques for cooperation of node in MANET have been chosen as the security parameter. This includes Watchdog and Path rater approach. It also nearby Reputation Based Schemes in which Reputation concerning every node is measured and will be move to every node in network.
From 2013 to Present, A Comparative Study & Analysis of TSRT - A Lightweight Time Stamp Synchronization Approach In Wireless Sensor Network
During this Research work we found that time synchronization in wireless sensor networks cannot be characterized by a single and narrow definition, therefore, we proposed an adaptable design space to synchronize the time stamp in Wireless Sensor Networks. We found that TSRT is light weight and more energy efficient approach, due to the requirement of minimum number of message exchanges to synchronize the network. Finally, we described our experience in applying our new methods and directions for further work.
Selected Publications
Educational Qualification
From 2008 to 2012, PhD in Computer Engineering , India
From 2005 to 2007, MTech in Computer Engineering , India
From 1994 to 1998, BE in Computer Engineering , India
Research Interests
Time synchronization in Wireless Sensor Networks
Target Detection System in Ad hoc Network
Termination Detection in Distributed System
Advance Operating Systems
Object Oriented Design & Analysis
Object Oriented Software Engineering
Work Experience
From 2013 to Present, Principal & Professor , RIT, Goa - Goa University
From 2010 to 2013, Professor & Dean , NIT, Nagpur - Nagpur University
From 2009 to 2010, Associate Professor , Institute under RGPV, Bhopal
From 2007 to 2009, Associate Professor , Institutes under UPTU, Lucknow
From 1999 to 2007, Asst. Professor , UPTU/MCET/GEC
Projects
From 2008 to 2012, “A Light Weight Time Synchronization Approach in Sensor Network” – Tree Structured Referencing Time Synchronization Scheme
In our research work first we suggested an algorithm to be used by each sensor node to efficiently flood the network to construct a logical hierarchical structure from a designated source point then proposed a Tree Structured Referencing Time Synchronization (TSRT) scheme to minimize the complexity of the synchronization, which works in two phases. First phase used to construct an ad hoc tree structure and second phase used to synchronize the local clocks of sensor nodes. The goal of the TSRT is to achieve a network wide synchronization of the local clocks of the participating nodes. The proposed TSRT scheme is further extended for multi-hop Time Synchronization which works on two phases as similar to TSRT followed by network evaluation phase.
From 2012 to Present, Target Detection System (TDS) for Enhancing Security in Ad hoc Network
Intrusion detection techniques for cooperation of node in MANET have been chosen as the security parameter. This includes Watchdog and Path rater approach. It also nearby Reputation Based Schemes in which Reputation concerning every node is measured and will be move to every node in network.
From 2013 to Present, A Comparative Study & Analysis of TSRT - A Lightweight Time Stamp Synchronization Approach In Wireless Sensor Network
During this Research work we found that time synchronization in wireless sensor networks cannot be characterized by a single and narrow definition, therefore, we proposed an adaptable design space to synchronize the time stamp in Wireless Sensor Networks. We found that TSRT is light weight and more energy efficient approach, due to the requirement of minimum number of message exchanges to synchronize the network. Finally, we described our experience in applying our new methods and directions for further work.
Selected Publications
Books
Journal Articles
Conference Papers
| 1. |
ACM Research Book on “A Light Weight Time Synchronization Approach in Sensor Network – Tree Structured Referencing Time Synchronization Scheme”, Germany. ISBN 978-3-8484-8552-9 |
| 2. |
“MIET-NET-SPOT - WiFi : Emerging WLAN Technology in MIET Campus”, Information Technology - Emerging Trends, Chapter 7, pp. 35-38, ISBN 81-89766-40-6 |
| 3. |
“Futuristic Developments in Communication Paradigm in Distributed and Ubiquitous Computing”, Information Technology - Emerging Trends, Chapter 36,pp. 203-208, ISBN 81-89766-40-6 |
| 1. |
"Security Issues and Challenges (SIC) of Ad-hoc Networking”, International Journal on Recent and Innovation Trends in Computing and Communication, Vol. 2 (10), pp. 3125-3129, 2014 (IF 5.09). |
| 2. |
"Evaluation and Analysis study of TSRT- Lightweight Time Stamp Synchronization Approach in Wireless Sensor Network”, International Journal of Engineering Sciences & Research Technology, Vol. 3(5), pp. 708-713, 2014 (IF 1.852). |
| 3. |
"Evaluation and Analysis study of Multi-hop TSRT- Lightweight Time Stamp Synchronization Approach in WSNs”, IFRSA - IJMAN, Vol. 4(2), pp. 122-128, 2014 (IF 3.56). |
| 4. |
"Simulating Neural Networks Using Permutable Modalities”, International Journal of Computer Applications (IJCA), Vol. 81(5), pp. 31-34, Nov. 2013. Published by Foundation of Computer Science, New York, USA. (IF 0.835). |
| 5. |
"Target Detection System (TDS) for Enhancing Security in Ad hoc Network”, International Journal of Distributed and Parallel Systems Vol. 4(5), pp. 15-28, 2013 |
| 6. |
“The study of Intrusion Detection Techniques for Cooperation of Node In Mobile Ad hoc Network (MANET)”, International Journal of Engineering Sciences & Research Technology, Vol. 1 (9), pp. 505-513, 2012. (IF 1.852). |
| 7. |
“A Reference Based, Tree Structured Time Synchronization Approach and its Analysis in WSN”, International Journal of Ad hoc, Sensor & Ubiquitous Computing ,Vol.2(1), pp. 20-31, 2011 |
| 8. |
“Tree Structured, Multi-hop Time Synchronization Approach in Wireless Sensor Networks” Springer- CCIS, Vol. 147, pp. 255-258, 2011 |
| 9. |
“Quantitative and Qualitative Comparison Study of Reference Based Time Synchronization Approach in Wireless Sensor Network” Springer- CCIS, Vol. 142, pp. 159- 1163, 2011 |
| 10. |
“An Approach towards Lightweight, Reference Based, Tree Structured Time Synchronization Scheme in WSN”, Springer- CCIS, Vol. 131, pp. 189-198, 2011 |
| 11. |
“An Efficient Approach for Data Replication in Distributed Database Systems” Springer- CCIS, Vol. 147, pp. 368-374, 2011 |
| 12. |
“Analysis and Comparative Study of Clock Synchronization Schemes in Wireless Sensor Networks”, International Journal of Computer Science & Engineering, Vol. 2(3), 2010, pp. 523-528 (IC?: 4.80). |
| 13. |
“Tree Structured Time Synchronization Protocol in Wireless Sensor Network” Ubiquitous Computing & Communication Journal (UBICC?), South Korea, Vol. 4 (Special issue), 2009, pp 712-717 |
| 14. |
“Tree Structured Time Synchronization Protocol in Wireless Sensor Network and its Comparative Study”, International Journal of Computer Science and Security (IJCSS), Malaysia, vol. 3(4), 2009. |
| 15. |
"Mobile Middleware and Integrated Structure for Emerging Wireless Commerce Applications”, International Journal of Computer Applications in Engineering, Technology and Sciences, ISSN: 0974-3596, Vol.1(2), 2009, pp. 284-288 |
| 16. |
“MPI Messaging Structure for Mobile Adhoc Network”, International Journal of Hybrid Computational Intelligence, Vol. 1(2) , 2008; pp. 215-224. |
| 17. |
"Mechanism for Termination Detection in Wireless Mobile Adhoc Network”, International Journal of Hybrid Computational Intelligence, Vol. 1(1), 2007; pp. 79-89. |
| 18. |
“Application and Use of Object Model for Version & Configuration Control in Distributed S.D.Es”, International Journal of Hybrid Computational Intelligence (IJHCI), Vol. 1(1), 2007; pp. 91-102. |
| 1. |
“Tree Structured Time Synchronization Protocol in Wireless Sensor Network and its Comparative Study”, International Conference on Advances in Computer Engineering (ACE 2010) |
| 2. |
“Emerging Wireless Commerce Applications and Integrated Framework”, International Joint Journal Conference in Engineering, (IJJCE 2009). |
| 3. |
“Algorithmic Solution for Termination Detection in Wireless Mobile Distributed Systems”, International Conference on Computers, Communications & Control – (ICCCC-2008), Agora University, Romania |
| 4. |
“Comparison of Termination Detection Schemes in Mobile Distributed Network”, National Conference on Methods and Models in Computing- “NCM2C-2007” Jawaharlal Nehru University, New Delhi, December 13-14, 2007. |
| 5. |
“Emerging WLAN Technology in MIET Campus”, National Conference on Emerging Technologies in Computer Science- “ETCS-2007”, 22 & 23 September 2007. |
| 6. |
“Futuristic Developments In Communication Paradigm In Distributed Computing”, National Conference on Emerging Technologies in Computer Science- “ETCS-2007”, 22 & 23 September 2007 |
| 7. |
“Hierarchical Structured Time Synchronization Protocol (TPSN) for Wireless ad-hoc Sensor Networks”, National Conference “Technologia 2007”, 2nd & 3rd March 2007 |
| 8. |
“Object Model for Version & Configuration Control in Distributed Software development Environments”, National Conference “Technologia 2007”, 2nd & 3rd March 2007 |
| 9. |
A Unified View On Smart Sensors In Wireless Sensor Network ”, National Conference on “Emerging Trends in Communication & Information Technology “ETCIT-07 “24th & 25th February, 2007 |
| 10. |
“Multi-Layer Perceptron (MLP) Neural Network Model For Optical Character Recognition”, National Conference on CS and IT - 2006,, 11th & 12th November, 2006 |
| 11. |
“Sorting And Selection on Interconnection Networks for Processing Elements”, National Conference on CS and IT - 2006,, 11th & 12th November, 2006 |
| 12. |
“The Use of a Domain Relative Addressing for controlling changes in Distributed Software Development Environments”, National Conference on Emerging Technologies & Applications – ETA-2006 |
| 13. |
“Scatternets and Inter-Piconet Scheduling Simulation for Wireless IP Networks”, National Conference on Emerging Technologies & Applications – ETA-2006 |