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• [J] S.S. Tzeng*, Y.J. Lin, Y.T. Lin. (2024) Threshold ALOHA with Sensing Data Lookup in Low-Duty-Cycle Wireless Networks. Telecommunication Systems, Accepted. [SCI, EI] (*corresponding author)

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• [J] Y.J. Lin and S.S. Tzeng*. (2024). Residual Time Based Energy Harvesting for Framed Slotted ALOHA Based Wireless Powered IoT Networks, Wireless Personal Communications, Accepted. [SCI, EI]

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• [J] Y.J. Lin, S.S. Tzeng*, (2024). Charging Selection Policies for Framed Slotted ALOHA on Wireless Networks with Directional Energy Transfer. Wireless Personal Communications. https://doi.org/10.1007/s11277-024-10898-7 [SCI, EI]

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• [C] S.W. Wang, S.S. Tzeng, (2024). An Accurate Analytical Model for A Proof-of-Work with Multiple Selfish Internet.  IEEE ICC 2024, IEEE International Conference on Communications, 9–13 June 2024, Denver, CO, USA. [EI]

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• [P] S.S. Tzeng、H.W. Chou, (2023). Multi-Frames Access Controlling Method for Machine Type Communication and System Thereof, ROC (Taiwan) Invention Patent, No. I796911,2023.

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• [P] S.S. Tzeng、H.W. Chou. (2023). Multiple Access Control Method Based on Cognitive Radio Network, ROC (Taiwan) Invention Patent, No. I796896, 2023.

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• [P] Y.J. Lin、S.S. Tzeng. (2023). Energy Transfer Method Based on Cognitive Radio Network, ROC (Taiwan) Invention Patent, No. I796936, 2023.

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• [P] Y.J. Lin、S.S. Tzeng. (2023). Communication Method of Centralized Wireless Powered Communication Network, ROC (Taiwan) Invention Patent, No. I796889,2023.

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• [P] Y.J. Lin、S.S. Tzeng. (2023). Wireless Internet of Things System and Wireless Communication Method Thereof for Reducing Duty Cycle, ROC (Taiwan) Invention Patent, No. I811006,2023.

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• [P] S.S. Tzeng, Y.J. Lin、Y.T. Lin. (2023). Wireless Network System and Data Transferring Method Thereof, ROC (Taiwan) Invention Patent, No. I812355,2023.

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• [J] S.S. Tzeng*, H.W. Chou, (2021). Multiple Access Control in a Centralized Full-Duplex Cognitive Machine Type Network with RF Energy Harvesting. Wireless Personal Communications. 118. 10.1007/s11277-020-08053-z. [SCI, EI]

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• [J] S.S. Tzeng*, Y.J. Lin, (2021). Wireless energy transfer policies for cognitive radio based MAC in energy-constrained IoT networks. Telecommunication Systems. 10.1007/s11235-021-00771-4.  [SCI, EI]

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• [J] S.S. Tzeng*, H.W. Chou (2021). Short and Long Multi-frames Based Multiple Access Control for Cognitive Machine Type Communication with Full-Duplex Gateway. Wireless Personal Communications. 10.1007/s11277-021-08153-4. [SCI, EI]

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• [J] Y.J. Lin, S.S. Tzeng*, (2020). A Framed Slotted ALOHA-Based MAC for Eliminating Vain Wireless Power Transfer in Wireless Powered IoT Networks. Electronics. 10. 9. 10.3390/electronics10010009. [SCI, EI]

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• [J] S.S. Tzeng*, Y.J. Lin, "Delay-Constrained Data Transmission with Minimal Energy Consumption in Cognitive Radio/WiFi Vehicular Networks," Wireless Personal Communications, 2019. [SCI, EI]

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• [C] S. S. Tzeng*, Y.-J. Lin, L.-S. Wei: A Dynamic Permission Probability Control for Packet Reservation Multiple Access in Cognitive Machine-to-Machine Networks, 2018 IEEE International Conference on System Science and Engineering (ICSSE), pp. 1 – 5 [EI]

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• [C] S. S. Tzeng*, Y.-J. Lin, L.-S. Wei: Spectrum Hand-Off for RF Energy Harvesting in Cognitive Radio Based Machine to Machine Communication Networks, 2018 IEEE International Conference on System Science and Engineering (ICSSE), pp. 1 – 4. [EI]

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• [J] Y.C. Hsu, S.S. Tzeng*, “A Pragmatic Design for 3GPP/WLAN RAN Level Interworking,” Wireless Personal Communications P.P. 1-12, 2017. [SCI, EI]

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• [C] S.-S. Tzeng*, Y.-J. Lin, L.-S. Wei, Multi-Frame Arrangement in Cognitive Capillary Machine Type Communication Networks, National Symposium on Telecommunication, Taiwan, 2017.

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• [C] S.-S. Tzeng*, Y.-J. Lin, L.-S. Wei, F. J. Authur Su, Packet Reservation Multiple Access with Cross Multi-Frames in Cognitive Capillary Machine Type Communication Networks. IEEE iThings/GreenCom/CPSCom/SmartData 2016: 372-375 [EI]

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• [C] Y.-J. Lin, S.-S. Tzeng*, Y.-L. Huang, "Energy-Efficient Sensing and Transmission for Real-Time Traffic in Cognitive Radio Networks," Proceedings of 2016 6th International Workshop on Computer Science and Engineering, pp. 719-723, Tokyo, 17-19 June, 2016. [EI]

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• [C] C. W. Lee, S.-S. Tzeng*, Y.-J. Lin, Energy-Efficient Transmission Scheme for Vehicles with Cognitive Radio/WiFi in Vehicular Networks. IEEE DSDIS 2015: 470-471 [EI]

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• [J] Y.W. Su, S.S. Tzeng*, QoS Routing Protocol with Multiple Node-Disjoint Paths in Ad Hoc Networks. Wirel. Pers. Commun. 83(3): 1867-1885 (2015) [SCI, EI]

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• [C] S. S. Tzeng*, Y.-J. Lin, Y.-C. Hsu, “Performance Analysis of Position-Based Redirection Connection Establishment in Overlaid Macro/Femtocellular Networks,” 4th International Conference on Engineering and Applied Science (2014 ICEAS) 22-24 July, 2014 Sapporo, Japan.

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• [C] Y.-C. Hsu, and S. S. Tzeng*, “A Realistic Scheme for 3GPP/WLAN RAN Level Interworking,” IEEE 11th Vehicular Technology Society Asia Pacific Wireless Communications Symposium, 28-29 Aug. 2014.

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• [C] S. S. Tzeng* and Y.-J. Lin, “Sequential Sensing and Transmission for Real-Time Traffic in Cognitive Networks,” 11th IFIP International Conference on Network and Parallel Computing, 18-20 Sept. 2014. (NPC’14 proceedings, published by LNCS, Springer)

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• [C] B.-S. Chiou, Y.-J. Lin, Y.-C. Hsu, S.-Y. Wang, S. S. Tzeng*, and J.-Y. Huang, “K-Hop Search Based Geographical Opportunistic Routing for Query Messages in Vehicular Networks,” IEEE 2nd International Symposium on Next-Generation Electronics, pp. 279-282, 25-26 Feb. 2013. [EI]

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• [C] S.-Y. Wang, W.-C. Yang, and S. S. Tzeng, “A Symmetric-Key Broadcast Encryption Scheme with Shorter Transmission,” IEEE 2nd International Symposium on Next-Generation Electronics, pp. 275-278, 25-26 Feb. 2013. [EI]

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• [J] S. S. Tzeng* and Y.-J. Lin, “Cross-layer sequential sensing with effective throughput maximization in time-slotted cognitive networks,” ACM/Springer Wireless Networks, vol. 19, no. 5, pp. 591-605, DOI: 10.1007/s11276-012-0487-3, July 2013. [SCI, EI]

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• [J] S. S. Tzeng*, Y.-J. Lin, Y.-C. Hsu, “Radio resource reservation for heterogeneous traffic in cellular networks with spectrum leasing,” EURASIP Journal on Wireless Communications and Networking 2012, 2012:206. [SCI, EI]

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• [J] S. S. Tzeng*, and H.-Y. Lu, “QoS Provisioning for Multiple Non-Real-Time Services in Cellular Wireless Networks,” Wireless Communications and Mobile Computing, vol. 11, no. 10, pp. 1392–1405, October 2011. [SCI, EI]

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• [J] S. S. Tzeng* and C.-W. Huang, “Effective Throughput Maximization for In-Band Sensing and Transmission in Cognitive Radio Networks,” ACM/Springer Wireless Networks, vol. 17, no. 4, pp. 1015-1029, DOI 10.1007/s11276-011-0331-1, May 2011. [SCI, EI]

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• [C] Y.-C. Hsu, S.-S. Tzeng*, and C.-W. Huang, “A Study for Connection Establishment in Femtocell Network,” International Workshop on Applications of Wireless Ad hoc and Sensor Networks (In Conjunction with IEEE International Conference on Parallel Processing 2011), pp. 114 -118, 13-16 Sept. 2011. [EI]

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• [C] S.S. Tzeng* and Y.-C. Hsu, “Channel Reservation in Cellular Wireless Networks with Spectrum Leasing,” IEEE Workshop on Performance Modeling and Evaluation in Computer and Telecommunication Networks 2010 (In Conjunction with IEEE ICCCN'10 ), pp. 1-7, 2-5 Aug. 2010. [EI]

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• [P] S. S. Tzeng、H. C. Tan. (2010). Input system of industrial computer, Taiwan Patent M375931，March 11.

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• [J] S. S. Tzeng*, “Call Admission Control Policies in Cellular Wireless Networks with Spectrum Renting,” Computer Communications, vol. 32, no. 18, pp. 1905–1913, Dec. 2009. [SCI, EI]

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• [J] S. S. Tzeng*, and H.-Y. Lu, “Dual-Threshold Admission Control for Non-Real-Time Traffic in Wireless Data Networks,” Computer Communications, vol. 31, no. 10,  pp. 2428–2434, June 2008 [SCI, EI]

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• [C] S. S. Tzeng* and C.-W. Huang, “Threshold Based Call Admission Control for QoS Provisioning in Cellular Wireless Networks with Spectrum Renting,” 2008 International Conference on Telecommunications and Networking. (TeNe 08)

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• [C] S. S. Tzeng* and H.-Y. Lu, “Multiple Quality-of-Service Provisioning for Non-Real-Time Services in Wireless Data Networks,” International electronic Conference on Computer Science, AIP Conf. Proc. Nov. 6, 2008, vol. 1060, pp. 307-310.

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• [C] S. S. Tzeng* and H.-Y. Lu, “Measurement-Based Admission Control for Non-Real-Time Services in Wireless Data Networks,” International Conference on Telecommunications and Networking, 2007.

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• [J] H. C. Lin, S. S. Tzeng, and C.T. Yen,  “Dynamic Non-Collision Packet Reservation Multiple Access Protocol for TDD-Based Wireless Networks,” IET Communications (formerly IEE Proceedings Communications), vol. 1, no. 6, pp. 1230 – 1237, Dec.2007 [SCI, EI]

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• [J] H. C. Lin and S. S. Tzeng, “Channel Assignment and Hand-off Policies in Cluster-Based Micro/ PicocellularWireless Networks.” Journal of Wireless Personal Communications, vol. 43, no. 2, pp. 449-465, October 2007. [SCI, EI]

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• [J] S. S. Tzeng* “Channel Management for Multi-Service Traffic in Cellular Wireless Networks,” Journal of Wireless Personal Communications, vol. 42, no. 4, pp. 527-536, September 2007. [SCI, EI]

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• [J] S. S. Tzeng* “Resource Allocation for Real-time and Non-real-time Traffic in Wireless Networks,” Computer Communications, vol. 29, no. 10, 2006. [SCI, EI]

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• [J] H. C. Lin and S. S. Tzeng, “Double-Threshold Admission Control in Cluster-Based Micro/Picocellular Wireless Networks,” IEICE Transactions on Communications, vol. E88-B, no. 5, pp. 2062-2072, May 2005. [SCI, EI]

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• [J] S. S. Tzeng*, “A Multi-Cell Bandwidth Adaptation Scheme in Multimedia Cellular Wireless Networks,” Kaohsiung Normal University Journal, vol. 19, pp. 46-69, Dec 2005.

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• [J] H. C. Lin, S. A. Ding and S. S. Tzeng, “Slanted Frame Arrangement on Multiple Frequency Carriers in TDD Based PRMA,” Journal of Wireless Information Networks,  vol. 12, no. 2, pp. 101-108, June 2005.[EI]

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• [P] H. C. Lin, S. S. Tzeng, C. L. Chen. (2005). Double-threshold admission control method in cluster-based micro/picocellular wireless networks, United States Invention Patent 6853846, February 8, 2005.

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• [C] H. C. Lin, S. A. Ding, and S. S. Tzeng, “Frame Arrangement on Multiple Frequency Carriers in TDD Based PRMA,” Proceedings of the 10th International Conference on Telecommunications (ICT’2003), Tahiti, Papeete, French Polynesia, February 23-28, pp. 1561-1565, 2003. [EI]

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• [P] H.C. Lin、S.S. Tzeng、C. L. Chen. (2002). Double-threshold admission control method in cluster-based micro/picocellular wireless networks, Taiwan Invention Patent 155353, 454333.

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• [C] H. C. Lin and S. S. Tzeng, “Double-Threshold Admission Control in Cluster-Based Micro/Picocellular Wireless Networks,” Proceedings of the IEEE Vehicular Technology Conference, Tokyo, Japan, May. 15 - 18, pp. 1440-1444, 2000. [EI]

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• [C] H. C. Lin and S. S. Tzeng, “Selection Policies for Queued New Calls in Cluster-Based Micro/Picocellular Wireless Networks,” Proceedings of the 50th IEEE Vehicular Technology Conference, Amsterdam, the Netherlands, Sept. 19-22, pp. 512-516, 1999. [EI]

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• [C] H. C. Lin and S. S. Tzeng, “Cluster Channel Assignment Policies in Cluster-Based Micro/Picocellular Wireless Networks,” Proceedings of the 49th IEEE Vehicular Technology Conference, Houston, Texas, May 16-20, pp. 15-19, 1999. [EI]

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• [C] H. C. Lin and S. S. Tzeng, “Comparison of Two Hand-Off Policies in Cluster-Based Micro/Picocellular Wireless Networks,” Proceedings of the 6th IEEE Singapore International Conference on Networks, Singapore, July 1-4, pp. 685-679, 1998. [EI].

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