Wireless sensor networks (WSNs) have shown its progression in Internet of Things (IoT) field and act asplay a significant role to offeroffering an extensive range of application via sensors, like traffic management, smart homehomes and grids for monitoring the environment. WSNWSNs comprises certain sinks or receivers and a huge amount of SNs that collectively gathersgather data to carry out diverse functionality [1]. Construct a WSN model that offers reliable delivery expected in IoT applications. Samples of these applications areinclude smart healthcare are, utilized for monitoring purposes, in treating and tracking patients [2]. Here, SNs accumulate patients’ physical data and propagate it to doctors’ location [3]. Owing to this collected data, precision may be awarecreates awareness of patients’ physiological status and it possesses an ability to produce appropriate diagnosis inat an appropriate time [4].
The above mentioned application needs to offer reliable transmission, which is measured as a crucial parameter for successful prediction [5]. Moreover, with respect to changing and wireless medium, these are vulnerable to link failures because of signal fading or signal interference, which may drastically, reducesreduce Quality of Service (QoS) [6]. Henceforth, providing effectual data delivery turns out to be a challenging crisis in reliability of WSN data delivery. Moreover, preserving the route for data flow with superior communication for wireless channelschannels' unsteadiness [7]. Moreover, as packets are broadcasted over multiple paths to receiverreceivers, effectual transmission and interferences are initiated that leads to added potential for transmission failures.