Abstract
Although data collection has received much attention by effectively minimizing delay, computational complexity and increasing the total data transmitted, the transience of sensor nodes for multiple data collection of sensed node in wireless sensor network (WSN) renders quality of service a great challenge. To circumvent transience of sensor nodes for multiple data collection, Quality based Drip-Drag-Match Data Collection (QDDM-DC) scheme have been proposed. In Drip-Drag-Match data collection scheme, initially dripping of data is done on the sink by applying Equidistant-based Optimum Communication Path from the sensor nodes which reduces the data loss. Next the drag operation pulls out the required sensed data using Neighbourhood-based model from multiple locations to reduce the delay for storage. Finally, the matching operation, compares the sensed data received by the dragging operation to that of the corresponding sender sensor node (drip stage) and stores the sensed data accurately which in turn improves the throughput and quality of data collection. Simulation is carried for the QDDM-DC scheme with multiple scenarios (size of data, number of sinks, storage capacity) in WSN with both random and deterministic models. Simulation results show that QDDM-DC provides better performance than other data collection schemes, especially with high throughput, ensuring minimum delay and data loss for effective multiple data collection of sensed data in WSN.
Highlights
With the quality in wireless sensor network communication, collection of large data is bit difficult as sensor nodes have only limited power and minimal memory resources
Equidistant-based optimum communication path In Drip-Drag-Match data collection scheme, initially dripping of data is done on the sink from the sensor nodes through the communication path using equidistant rectangular model
It is proposed that a Quality based Drip-Drag-Match Data Collection (QDDM-DC) scheme and analyze the performance of quality of service and throughput using Equidistantbased Optimum Communication and Neighbourhood-based model to perform efficient data collection in wireless sensor network (WSN)
Summary
With the quality in wireless sensor network communication, collection of large data is bit difficult as sensor nodes have only limited power and minimal memory resources. Different from health monitoring using WSN, snapshot and continuous data collection using Cell-based Path Scheduling [2] algorithm was designed aiming at improving the network capacity using order-optimal capacity. With the objective of reducing data collection latency, Combine Skip Substitute (CSS) [3] scheme was presented. Another approach to data collection in WSN utilized a multithreaded design [4] of coding-based data dissemination protocol to reduce the dissemination delay. To improve the security and accuracy of data being collected, energy-efficient and high-accuracy model based on private sensor readings was presented in [9]. We proposed a Quality based DripDrag-Match Data Collection (QDDM-DC) scheme with the objective of improving the throughput by minimizing the storage delay and data loss is presented. The efficacy of the data collection scheme is demonstrated through both simulation and experiment
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