Abstract
The network outturn can modify once the network size has changed, and the right to scale property will be granted. In dense wireless networks, it gives substantive performance. Dynamic multilevel priority (DMP)—except for those present at the last level in the zone-based topology of wireless networks, the proposed system schedules tasks have more than two levels of priority queues. The highest priority queues are placed by real-time task and can forestall data packets in other queues. Based on the threshold value, the non-real-time task is estimating the processing time hierarchy leaf nodes have two separate queues, one for real-time purposes and one for non-real-time tasks. This process evaluates the performance of the proposed scheduling of DMP tasks which performs much better than traditional schemes by averaging the waiting time for data processing and the delay in delivering the output.
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Suguna, M., Prakash, D., Shobana, G., Cynthia, J. (2021). Priority-Based Task Allocation and Scheduling in WSN Using DMPS. In: Kumaresan, G., Shanmugam, N.S., Dhinakaran, V. (eds) Advances in Materials Research. ICAMR 2019. Springer Proceedings in Materials, vol 5. Springer, Singapore. https://doi.org/10.1007/978-981-15-8319-3_111
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DOI: https://doi.org/10.1007/978-981-15-8319-3_111
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