ComNets Lab – Communication Networks Laboratory


Journals

2018

  1. F. Al-Turjman, E. Ever, H. Zahmatkesh, “Small Cells in the Forthcoming 5G/IoT: Traffic Modelling and Deployment Overview”, IEEE Communications Surveys and Tutorials, 2018. DOI. 10.1109/COMST.2018.2864779. (IF 20.23).
  2. F. Al-Turjman, and S. Alturjman, “Confidential Smart-Sensing Framework in the IoT Era”, The Springer Journal of Supercomputing, 2018.DOI. 10.1007/s11227-018-2524-1.
  3. F. Al-Turjman, and A. Abdulsalam, “Smart-Grid and Solar Energy Harvesting in the IoT Era: An Overview” Wiley’s Concurrency and Computation: Practice and Experience, 2018. DOI. 10.1002/cpe.4896.
  4. S. Demir and F. Al-Turjman, “Energy Scavenging Methods for WBAN Applications: A Review”, IEEE Sensors Journal, vol. 18, no. 16, pp. 6477-6488, 2018.
  5. F. Al-Turjman, and S. Alturjman, “5G/IoT-Enabled UAVs for Multimedia Delivery in Industry-oriented Applications”, Springer’s Multimedia Tools and Applications Journal, 2018. DOI. 10.1007/s11042-018-6288-7.
  6. S. Alabady and F. Al-Turjman, “A Novel Approach for Error Detection and Correction for Efficient Energy in Wireless Networks”, Springer Multimedia Tools and Applications, 2018. DOI. 10.1007/s11042-018-6282-0.
  7. D. Deebak, E. Ever, F. Al-Turjman, “Analyzing Enhanced Real Time Uplink Scheduling Algorithm in 3GPP LTE-Advanced Networks Using Multimedia Systems”, Transactions on Emerging Telecommunications, 2018. DOI. 10.1002/ett.3443.
  8. M. Z. Hasan, and F. Al-Turjman, “Analysis of Cross-layer Design of Quality-of-Service Forward Geographic Wireless Sensor Network Routing Strategies in Green Internet of Things”, IEEE Access Journal, vol. 6, no. 1, pp. 20371-20389, 2018. (IF 3.24).
  9. S. Alabady and F. Al-Turjman, and S. Din, “A Novel Security Model for Cooperative Virtual Networks in the IoT Era”, Springer International Journal of Parallel Programming, 2018. (Submitted).
  10. S. Alabady, and F. Al-Turjman, “Low Complexity Parity Check Code for Futuristic Wireless Networks Applications”, IEEE Access Journal, vol. 6, no. 1, pp. 18398 – 18407, 2018. (IF 3.24).
  11. S. Choudhury and F. Al-Turjman, “Dominating Set Algorithms for Wireless Sensor Networks Survivability” IEEE Access Journal, vol. 6, no. 1, pp. 17527 – 17532, 2018. (IF 3.24).
  12. F. Al-Turjman, and S. Alturjman, “Context-sensitive Access in Industrial Internet of Things (IIoT) Healthcare Applications”, IEEE Transactions on Industrial Informatics, vol. 14, no. 6, pp. 2736-2744, 2018. (IF 6.9).
  13. F. Al-Turjman, “Fog-based Caching in Software-Defined Information-Centric Networks”, Elsevier Computers & Electrical Engineering Journal, vol. 69, no. 1, pp. 54–67, 2018.
  14. F. Al-Turjman, “QoS–aware Data Delivery Framework for Safety-inspired Multimedia in Integrated Vehicular-IoT”, Elsevier Computer Communications Journal, vol. 121, pp. 33-43, 2018. (IF 3.34).
  15. S. Alabady and F. Al-Turjman, “LCPC Error Correction Code for Internet of Things Applications”, Elsevier Sustainable Cities and Society, 2018. DOI. 10.1016/j.scs.2018.01.036.
  16. Malavolta, I., Mostarda, L., Muccini, H., Ever, E., Doddapaneni, K., Gemikonakli, O., (2018), Software & Systems Modeling. (the journal is in SCI Expanded), (2018), ISSN:1619-1366, DOI: 10.1007/s10270-018-0687-0
  17. Alchihabi, A. Dervis, E. Ever, F. Al-Turjman, “A Generic Framework for Optimizing Performance Metrics by Tuning Parameters of Clustering Protocols in WSNs”, Springer Wireless Networks, 2018. DOI. 10.1007/s11276-018-1665-8.

 


2017

  1. F. Al-Turjman, “5G-enabled Devices and Smart-Spaces in Social-IoT: An Overview”, Elsevier Future Generation Computer Systems, 2017. DOI: 10.1016/j.future.2017.11.035 (IF 3.99).
  2. F. Al-Turjman, “A Rational Data Delivery Framework for Disaster-inspired Internet of Nano-Things (IoNT) in Practice”, Springer Cluster Computing, 2017. DOI: 10.1007/s10586-017-1357-7.
  3. M. Z. Hasan, and F. Al-Turjman, “SWARM-based data delivery in Social Internet of Things”, Elsevier Future Generation Computer Systems, 2017. DOI: 10.1016/j.future.2017.10.032. (IF 3.99).
  4. F. Al-Turjman, “Modelling Green Femtocells in Smart-grids”, Springer Mobile Networks and Applications, vol. 23, no. 4, pp. 940-955, 2018. (IF 3.26).
  5. F. Al-Turjman, E. Ever, H. Zahmatkesh, “Green Femtocells in the IoT Era: Traffic Modelling and Challenges – An Overview”, IEEE Networks Magazine, vol. 31, no. 6, pp. 48-55, 2017. (IF 7.23).
  6. F. Al-Turjman, “Mobile Couriers’ Selection for the Smart-grid in Smart cities’ Pervasive Sensing”, Elsevier Future Generation Computer Systems, vol. 82, no. 1, pp. 327-341, 2017. (IF 3.99).
  7. F. Al-Turjman, “Energy–aware Data Delivery Framework for Safety-Oriented Mobile IoT”, IEEE Sensors Journal, vol. 18, no. 1, pp. 470 – 478, 2017.
  8. F. Al-Turjman, “A Cognitive Routing Protocol for Bio-inspired Networking in the Internet of Nano-Things (IoNT)”, Springer Mobile Networks and Applications, 2017. DOI: 10.1007/s11036-017-0940-8. (IF 3.26).
  9. F. Al-Turjman, “Optimized Hexagon-based Deployment for Large-Scale Ubiquitous Sensor Networks”, Springer’s Journal of Network and Systems Management, vol. 26, no. 2, pp. 255-283, 2018.
  10. F. Al-Turjman, “Cognitive Routing Protocol for Disaster-inspired Internet of Things”, Elsevier Future Generation Computer Systems, 2017. DOI: 10.1016/j.future.2017.03.014 (IF 3.99).
  11. F. Al-Turjman, “Cognitive-Node Architecture and a Deployment Strategy for the Future Sensor Networks”, Springer Mobile Networks and Applications, 2017. DOI: 10.1007/s11036-017-0891-0. (IF 3.26).
  12. F.  Al-Turjman, M.  Imran, “Energy Efficiency Perspectives of Femtocells in Internet of Things: Recent Advances and Challenges”, IEEE Access Journal, vol. 5, pp. 26808 – 26818, 2017. (IF 3.24).
  13. F. Al-Turjman, “Information-Centric Framework for the Internet of Things (IoT): Traffic Modelling & Optimization”, Elsevier Future Generation Computer Systems, vol. 80, no. 1, pp. 63-75, 2017. (IF 3.99).
  14. M. Z. Hasan, and F. Al-Turjman, “Optimizing Multipath Routing With Guaranteed Fault Tolerance in Internet of Things”, IEEE Sensors Journal, vol. 17, no. 19, 6463-6473, 2017.
  15. M. Z. Hasan, and F. Al-Turjman, “Evaluation of a Duty-Cycled Asynchronous X-MAC Protocol for Vehicular Sensor Networks”, EURASIP Journal on Wireless Communications and Networking, vol. 2017, no. 1, pp. 95, 2017.
  16. F. Al-Turjman, “Cognitive Caching for the Future Sensors in Fog Networking”, Elsevier Pervasive and Mobile Computing, vol. 42, pp. 317-334, 2017.
  17. E. Ever, F. Al-Turjman, H. Zahmatkesh, and M. Riza, “Modelling Green HetNets in Presence of Failures for Dynamic Large-Scale Applications: A Case-study for Fault Tolerant Femtocells in Smart cities”, Elsevier Computer Networks Journal, vol. 128, pp. 78-93, 2017.
  18. F. Al-Turjman, “Price-based Data Delivery Framework for Dynamic and Pervasive IoT”, Elsevier Pervasive and Mobile Computing Journal, vol. 42, pp. 299-316, 2017.
  19. F. Al-Turjman, Y. K. Ever, E. Ever, H. Nguyen, D. Deebak, “Seamless Key Agreement Framework for Mobile-Sink in IoT based Cloud-centric Secure Public Safety Networks”, IEEE Accessvol. 5, no. 1, pp. 24617-24631, 2017. (IF 3.24).
  20. F. Al-Turjman, A. Radwan, S. Mumtaz, and J. Rodriguez, “Mobile Traffic Modelling for Wireless Multimedia Sensor Networks in IoT”, Elsevier Computer Communications Journal, vol. 112, no. 1, pp. 109-115, 2017. (IF 3.34).
  21. Al-Turjman, and A. Radwan, “Data Delivery in Wireless Multimedia Sensor Networks: Challenging & Defying in the IoT Era”, IEEE Wireless Communications Magazine, vol. 24, no. 5, pp. 126 – 131, 2017. (IF 8.97).
  22. Z. Hasan, H. Al-Rizzo and F. Al-Turjman, “A Survey on Multipath Routing Protocols for QoS Assurances in Real-Time Multimedia Wireless Sensor Networks”, IEEE Communications Surveys and Tutorials, vol. 19, no. 3, pp. 1424-1456, 2017. (IF 17.1).
  23. F. Al-Turjman, “Vehicular Speed Management in Smart-cities”, International Journal of Advances in Electronics and Computer Science, vol. 4, no. 3, pp. 1-9, 2017.
  24. M. Z. Hasan, F. Al-Turjman and H. Al-Rizzo, “Optimized Multi-Constrained Quality-of-Service Multipath Routing Approach for Multimedia Sensor Networks”, IEEE Sensors Journal, vol. 17, no. 7, pp. 2298-2309, 2017.
  25. F. Al-Turjman, M. Gunay, and I. Küçükoğlu, “The Road to Dynamic Future Internet via Content Characterization”, Annals of Telecommunications, vol. 72, no. 3, pp. 209-219, 2017.
  26. F.  Al-Turjman, M.  Imran, A.  Vasilakos, “Value-based Caching in Information-Centric Wireless Body Area Networks”, Sensors Journal, vol. 17, no. 1, pp. 1-19, 2017.
  27. F. Al-Turjman, M. Karakoc, and M. Gunay, “Path Planning for Mobile DCs in Future Cities”, Annals of Telecommunications, vol. 72, no. 3, pp. 119-129, 2017.
  28. F. Al-Turjman, “Information-centric sensor networks for cognitive IoT: an overview”, Annals of Telecommunications, vol. 72, no. 1, pp. 3-18, 2017.
  29. Ever, E. (2017). “Performability analysis of cloud computing centers with large numbers of servers.” The Journal of Supercomputing (the journal is in SCI Core), Volume 73, Issue 5, ISSN: 0920-8542, pp: 2130-2156. DOI:10.1007/s11227-016-1906-5.
  30. Chu, Z., Nguyen, H. X., Le, T. A., Karamanoglu, M., Ever, E., & Yazici, A. (2017). “Secure Wireless Powered and Cooperative Jamming D2D Communications”. IEEE Transactions on Green Communications and Networking.

 


2016

  1. F. Al-Turjman, “On Wireless Senor Networks for Plant Phenotyping: An Overview”, International Journal of Agriculture and Forestry Science, vol. 1, no.1, pp. 19-22, 2016.
  2. G. Singh, and F. Al-Turjman, “A Data Delivery Framework for Cognitive Information-Centric Sensor Networks in Smart Outdoor Monitoring”, Elsevier Computer Communications Journal, vol. 74, no. 1, pp. 38-51, 2016. (IF 3.34).
  3. G. Singh, and F. Al-Turjman, “Learning Data Delivery Paths in QoI-Aware Information-Centric Sensor Networks”, IEEE Internet of Things Journal, vol. 3, no. 4, pp. 572 – 580, 2016. (IF 7.59).
  4. F. Al-Turjman, and M. Gunay, “CAR Approach for the Internet of Things (IoT)”, IEEE Canadian Journal of Electrical and Computer Engineering, vol. 39, no. 1, pp. 11 – 18, Winter, 2016.
  5. Gemikonakli, E., Ever, E., Mapp, G., and Gemikonakli, O. (2016). “Admission control and buffer management of wireless communication systems with mobile stations and integrated voice and data services” Telecommunication Systems (the journal is in SCI Expanded), published online, ISSN: 1572-9451. pp:1-13. doi: 10.1007/s11235-016-0259-y.

 


2015

  1. Kirsal, Y., Ever, E., Kocyigit, A., Gemikonakli, O., and Mapp, G. (2015). “Modelling and analysis of vertical handover in highly mobile environments”. The Journal of Supercomputing, (the journal is in SCI Core), Volume 71, Issue 12, ISSN: 0920-8542, pp: 4352-4380.
  2. M. Gunay, F. Al-Turjman, I. Küçükoğlu, and Y. Simsek, “A Novel Architecture for Data-Repeaters in the Future Internet”, IEEE Canadian Journal on Electrical and Computer Engineering, vol. 38, no. 4, pp. 300 – 306, Fall, 2015.
  3. F. Al-Turjman, H. Hassanein, and M. Ibnkahla, “Towards prolonged lifetime for deployed WSNs in outdoor environment monitoring”, Elsevier Ad Hoc Networks Journal, vol. 24, no. A, pp. 172 – 185, Jan., 2015.
  4. Kirsal-Ever, Y., Ever, E., Gemikonakli, O., (2015), “Analytical Modelling and Performability Evaluation of Multi-Channel WLANs with Global Failures”. International Journal of Computers Communications & Control (the journal is in SCI Expanded), Volume 10, Issue 4, ISSN: 1841-9836. pp. 551-566.

 


2014

  1. Ever, E., (2014), “Fault-Tolerant Two-Stage Open Queuing Systems with Server Failures at Both Stages”. IEEE Communications Letters (the journal is in SCI Core). Volume 18, Issue 9, ISSN: 1089-7798, pp: 1523-1526 .
  2. Kirsal, Y., Ever, E., Kocyigit, A., Gemikonakli, O. and Mapp, G., (2014). “A Generic Analytical Modelling Approach for Performance Evaluation of the Handover Schemes in Heterogeneous Environments”. Wireless Personal Communications (the journal is in SCI Expanded), Volume 79, Issue 2, ISSN: 0929-6212, Online-ISSN: 1572-834X, pp: 1247-1276 .

Son Güncelleme : 31 July Tuesday 2018
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Contact

E-mail: comnets@akdeniz.edu.tr

Telephone: +90 242 227 4400 (4361)

Location: ComNets Lab, Computer Engineering Department, Akdeniz University Campus, 07070 Konyaalti/Antalya/TURKEY

GPS: 36°53’51.8″N 30°38’59.3″E

Mission

The mission of ComNets Lab is to provide conduct scientific production in the fields of communication networks with a universal level through high quality research abilities. Improve technologies in order to contribute to the technological transformation of information, to meet the needs of society at a high level in the fields of knowledge, technology and other areas.

Vision

The vision of ComNets Lab is to become a distinguished laboratory which continuously enhances the quality of its work which is sensitive to the entrepreneurial, and recognized internationally. The lab aims to increase the number of disabled people and women in those areas where they are underrepresented and therefore explicitly encourages them to apply.

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