Abstract
Designing a multi-constrained QoS (Quality of service) communication protocol for mission-critical applications that seeks a path connecting source node and destination node that satisfies multiple QoS constrains such as energy cost, delay, and reliability imposes a great challenge in Wireless Sensor Networks (WSNs). In such challenging dynamic environment, traditional routing and layered infrastructure are inefficient and sometimes even infeasible. In recent research works, the opportunistic routing paradigm which delays the forwarding decision until reception of packets in forwarders by utilizing the broadcast nature of the wireless medium has been exploited to overcome the limitations of traditional routing. However, to guarantee the balance between the energy, delay and reliability requires the refinement of opportunistic routing through interaction between underlying layers known as cross-layer opportunistic routing. Indeed, these schemes fail to achieve optimal performance and hence require a new method to facilitate the adoption of the routing protocol to the dynamic challenging environments. In this paper, we propose a universal cross-layered opportunistic based communication protocol for WSNs for guaranteeing the user set constraints on multi-constrained QoS in low-duty-cycle WSN. Extensive simulation results show that the proposed work, Multi-Constrained QoS Opportunistic routing by optimal Power Tuning (MOR-PT) effectively achieves the feasible QoS trade-off constraints set by user by jointly considering the power control and selection diversity over established algorithms like DSF [1] and DTPC [2].
Highlights
The Wireless Sensor Networks (WSNs) imposes different QoS requirements on different applications under limited power resources
WSNs that are used for mission-critical applications such as health monitoring for critical patients, emergency evacuations, and disaster warning systems are expected to detect fast changing events to meet real-time quality constraints including network throughput, delay and power efficiency
Designing a routing protocol for mission critical applications expect a balance between QoS, in order to deliver a guaranteed level of service for such applications
Summary
The WSN imposes different QoS requirements on different applications under limited power resources. WSNs that are used for mission-critical applications such as health monitoring for critical patients, emergency evacuations, and disaster warning systems are expected to detect fast changing events to meet real-time quality constraints including network throughput, delay and power efficiency. Designing a routing protocol for mission critical applications expect a balance between QoS, in order to deliver a guaranteed level of service for such applications. Traditional QoS-aware routing protocol focuses on either delay or energy or reliability and are not suitable for the dynamic environment. In order to achieve better routing performance for challenging environments, the opportunistic routing is exploited to optimize QoS constraints across non-adjacent layers, introducing the cross layer opportunistic routing
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