Critical‐Path Aware Scheduling for Latency Efficient Broadcast in Duty‐Cycled Wireless Sensor Networks

Abstract: Minimum latency scheduling has arisen as one of the most crucial problems for broadcasting in duty-cycled Wireless Sensor Networks (WSNs). Typical solutions for the broadcast scheduling iteratively search for nodes able to transmit a message simultaneously. Other nodes are prevented from transmissions to ensure that there is no collision in a network. Such collision-preventions result in extra delays for a broadcast and may increase overall latency if the delays occur along critical paths of the network. To fa… Show more

“…[21] first proposed the MLBSDC problem and proved its NP-hardness. In a recent study, [9] performed collision-free scheduling and collision-tolerant scheduling with a preference for nodes in critical paths.…”

“…For the minimum-delay slot scheduling, we utilized the collision-free critical-path aware scheduling (CF-CAS) proposed in [9] to help generate an available scheduling plan, in which the scheduling is based on the critical path in the topology so that the delay is minimized. An example of CF-CAS is shown in Figure 3, where Figure 3a denotes a topology in which each link indicates a bidirectional link.…”

“…In this study, we compare IPGS algorithm with CF-CAS [9] in which each node transmits with the highest power defined as CF-CAS-high, and a modified discrete power shrink(DP-Shrink) algorithm originated from r-shrink [14] in which transmitting power levels are discrete. The two baseline algorithms are derived from MLBS and MEB respectively, which are both single-target optimizing problems in a static topology.…”

“…The traditional broadcast scheduling of ad hoc networks [3]- [9] mainly focuses on slot scheduling for a minimum broadcast latency, without more consideration of power controlling. However, if the transmitting and receiving nodes are close to each other, a high transmit power would incur a waste of energy.…”

An Iterative Power Gradient Searching Algorithm towards the Slot and Power Joint Scheduling Problem in MANET Broadcast

“…[21] first proposed the MLBSDC problem and proved its NP-hardness. In a recent study, [9] performed collision-free scheduling and collision-tolerant scheduling with a preference for nodes in critical paths.…”

“…For the minimum-delay slot scheduling, we utilized the collision-free critical-path aware scheduling (CF-CAS) proposed in [9] to help generate an available scheduling plan, in which the scheduling is based on the critical path in the topology so that the delay is minimized. An example of CF-CAS is shown in Figure 3, where Figure 3a denotes a topology in which each link indicates a bidirectional link.…”

“…In this study, we compare IPGS algorithm with CF-CAS [9] in which each node transmits with the highest power defined as CF-CAS-high, and a modified discrete power shrink(DP-Shrink) algorithm originated from r-shrink [14] in which transmitting power levels are discrete. The two baseline algorithms are derived from MLBS and MEB respectively, which are both single-target optimizing problems in a static topology.…”

“…The traditional broadcast scheduling of ad hoc networks [3]- [9] mainly focuses on slot scheduling for a minimum broadcast latency, without more consideration of power controlling. However, if the transmitting and receiving nodes are close to each other, a high transmit power would incur a waste of energy.…”

An Iterative Power Gradient Searching Algorithm towards the Slot and Power Joint Scheduling Problem in MANET Broadcast

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