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Publication search results
found 138 matches
- 2024
- Retraction Note: A novel energy-efficient scheduling method for three-dimensional heterogeneous wireless sensor networks based on improved memetic algorithm and node cooperation strategy. EURASIP J. Wirel. Commun. Netw. 2024(1): 29 (2024)
- Shiv Dutta Mishra, Dipti Verma:
Energy-Efficient and Reliable Clustering with Optimized Scheduling and Routing for Wireless Sensor Networks. Multim. Tools Appl. 83(26): 68107-68133 (2024) - 2023
- Elizabeth Liri, K. K. Ramakrishnan, Koushik Kar:
Energy-Efficient Distributed Task Scheduling for Multi-Sensor IoT Networks. IEEE Netw. 37(2): 318-324 (2023) - Yao Li, Shanying Zhu, Cailian Chen, Xinping Guan:
Energy-Efficient Optimal Sensor Scheduling for State Estimation Over Multihop Sensor Networks. IEEE Trans. Cybern. 53(1): 197-210 (2023) - (Withdrawn) A novel energy-efficient scheduling method for three-dimensional heterogeneous wireless sensor networks based on improved memetic algorithm and node cooperation strategy. EURASIP J. Wirel. Commun. Netw. 2023(1): 59 (2023)
- 2022
- Pallavi Joshi, Ajay Singh Raghuvanshi, Sarvesh Kumar:
An Intelligent delay efficient data aggregation scheduling for distributed sensor networks. Microprocess. Microsystems 93: 104608 (2022) - Xiangguang Meng, Jianxiong Guo, Xingjian Ding, Xiujuan Zhang:
Efficient scheduling strategy for mobile chargers in task-based wireless sensor networks. Theor. Comput. Sci. 928: 82-93 (2022) - Vrajesh Kumar Chawra, Govind P. Gupta:
Memetic Algorithm based Energy Efficient Wake-up Scheduling Scheme for Maximizing the Network Lifetime, Coverage and Connectivity in Three-Dimensional Wireless Sensor Networks. Wirel. Pers. Commun. 123(2): 1507-1522 (2022) - Sandeep Sahu, Sanjay Silakari:
Distributed Multilevel k-Coverage Energy-Efficient Fault-Tolerant Scheduling for Wireless Sensor Networks. Wirel. Pers. Commun. 124(4): 2893-2922 (2022) - Omnia Mezghani, Mahmoud Mezghani:
An energy-efficient sleep scheduling protocol for large-scale cluster-based Mobile Wireless Sensor Networks. IWCMC 2022: 512-517 - Abdulbary Naji, Xingfu Wang, Ammar Hawbani, Liang Zhao, Saeed Hamood Alsamhi, Aiman Ghannami:
Efficient Non-preemptive On-demand Charging Scheduling Scheme for Wireless Rechargeable Sensor Networks. SmartWorld/UIC/ScalCom/DigitalTwin/PriComp/Meta 2022: 2174-2182 - 2021
- Nidal Nasser, Nargis Khan, Lutful Karim, Mohamed ElAttar, Kassem Saleh:
An efficient Time-sensitive data scheduling approach for Wireless Sensor Networks in smart cities. Comput. Commun. 175: 112-122 (2021) - Mahfuzulhoq Chowdhury:
Time and energy-efficient hybrid job scheduling scheme for mobile cloud computing empowered wireless sensor networks. Int. J. Ad Hoc Ubiquitous Comput. 37(1): 26-36 (2021) - Bo Zeng, Yabo Dong, Jie He, Dongming Lu:
An Energy-Efficient One-Shot Scheduling Algorithm for Wireless Sensor Networks. J. Sensors 2021: 1-15 (2021) - Vrajesh Kumar Chawra, Govind P. Gupta:
Hybrid meta-heuristic techniques based efficient charging scheduling scheme for multiple Mobile wireless chargers based wireless rechargeable sensor networks. Peer-to-Peer Netw. Appl. 14(3): 1303-1315 (2021) - Vrajesh Kumar Chawra, Govind P. Gupta:
Correction to: Hybrid meta-heuristic techniques based efficient charging scheduling scheme for multiple Mobile wireless chargers based wireless rechargeable sensor networks. Peer-to-Peer Netw. Appl. 14(3): 1316 (2021) - 2020
- Bakhtiyar Farayev, Seyhan Ucar, Yalcin Sadi, Sinem Coleri:
Energy efficient robust scheduling of periodic sensor packets for discrete rate based wireless networked control systems. Ad Hoc Networks 106: 102203 (2020) - Muhammad Naeem, Waleed Ejaz, Muhammad Iqbal, Farkhund Iqbal, Alagan Anpalagan, Joel J. P. C. Rodrigues:
Efficient scheduling of video camera sensor networks for IoT systems in smart cities. Trans. Emerg. Telecommun. Technol. 31(5) (2020) - Muhammad Nawaz Khan, Haseeb Ur Rahman, Muhammad Zahid Khan:
An Energy Efficient Adaptive Scheduling Scheme (EASS) for Mesh Grid Wireless Sensor Networks. J. Parallel Distributed Comput. 146: 139-157 (2020) - Thien Thi Thanh Le, Sangman Moh:
Energy-Efficient Protocol of Link Scheduling in Cognitive Radio Body Area Networks for Medical and Healthcare Applications. Sensors 20(5): 1355 (2020) - Xiaofeng Gao, Zhiyin Chen, Jianping Pan, Fan Wu, Guihai Chen:
Energy Efficient Scheduling Algorithms for Sweep Coverage in Mobile Sensor Networks. IEEE Trans. Mob. Comput. 19(6): 1332-1345 (2020) - Renato Elias Nunes de Moraes, Welber W. F. dos Reis, Helder R. O. Rocha, Daniel J. C. Coura:
Power-efficient and interference-free link scheduling algorithms for connected wireless sensor networks. Wirel. Networks 26(5): 3099-3118 (2020) - Nouman Bashir, Saadi Boudjit:
A Collision Avoiding Packet Scheduling and Energy-Efficient Routing Technique for Video Wireless Sensor Networks. ISNCC 2020: 1-6 - 2019
- Saurabh Kumar, HyungWon Kim:
Energy Efficient Scheduling in Wireless Sensor Networks for Periodic Data Gathering. IEEE Access 7: 11410-11426 (2019) - Yunquan Gao, Xiaoyong Li, Jirui Li, Yali Gao:
Distributed and Efficient Minimum-Latency Data Aggregation Scheduling for Multichannel Wireless Sensor Networks. IEEE Internet Things J. 6(5): 8482-8495 (2019) - Abhinav Tomar, Lalatendu Muduli, Prasanta K. Jana:
An efficient scheduling scheme for on-demand mobile charging in wireless rechargeable sensor networks. Pervasive Mob. Comput. 59 (2019) - Hassan Harb, Abdallah Makhoul:
Energy-efficient scheduling strategies for minimizing big data collection in cluster-based sensor networks. Peer-to-Peer Netw. Appl. 12(3): 620-634 (2019) - Tim van der Lee, Georgios Exarchakos, Sonia M. Heemstra de Groot:
Swarm-Based Energy Efficient Scheduling for Wireless Sensor Networks. CSCN 2019: 1-6 - 2018
- Vinu Sundararaj, Selvi Muthukumar, R. S. Kumar:
An optimal cluster formation based energy efficient dynamic scheduling hybrid MAC protocol for heavy traffic load in wireless sensor networks. Comput. Secur. 77: 277-288 (2018) - Runze Wan, Naixue Xiong, Nguyen The Loc:
An energy-efficient sleep scheduling mechanism with similarity measure for wireless sensor networks. Hum. centric Comput. Inf. Sci. 8: 18 (2018)
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