Use of idle time using dynamic slot allocation essay
Dynamic slot allocation eliminates time slot waste and excessive delay in the network and assigns a high degree of reliability to the network with maximum channel utilization. The effectiveness of the proposed scheme is proven in terms of the packet delivery ratio, the average end-to-end delay and the average energy consumption compared to the. The dynamic time slot allocation uses fuzzy logic within input variables such as energy ratio, buffer ratio and packet arrival. rate. Dynamic slot allocation eliminates time slot waste and excessive delay in the network and provides a high level of reliability to the network with maximum channel utilization. The effectiveness of the proposed scheme is. This paper proposes a dynamic bandwidth allocation algorithm in EPON that efficiently removes the idle time. The proposed algorithm does not incur any additional costs and increases the. The proposed technique EEDSA, Energy Efficient Dynamic Slot Allocation, ensures effective resource utilization and optimal runtime performance. Numerous experiments have been conducted on a Hadoop platform5 to obtain the time consumption of Map Reduce benchmark datasets such as Terasort, Page Rank. This paper presents a dynamic slot allocation scheme that uses non-overlapping contention windows to improve the use of the. 15. Body Area Network WBAN superframe. First, a non-overlapping backoff algorithm NOBA is presented that avoids collisions between priorities due to backoff. The results of this: a dynamic adjustment algorithm for the idle timer is presented in 11, where the timer value is adjusted based on different observed traffic flows, reducing Packet In messages to the controller.