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Most wireless sensors are characterized as a resource-constrained device because they have limited computing power and their power source comes from battery.
Until now, most wireless sensors used for air quality monitoring have required power supply from a battery for sensor operation and wireless data communication.
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It is impractical in most wireless sensor network environment.
Our system could apply to most wireless sensor network applications without additional hardware.
Long‐term monitoring of an environment is a fundamental requirement for most wireless sensor networks.
Low energy consumption is a critical design requirement for most wireless sensor network (WSN) applications.
Most wireless sensor networks (WSNs) consist of battery-powered nodes and are limited to hundreds of nodes.
In most wireless sensor real-time applications, the fundamental question that should be answered is how should the data be routed over a single-hop or multihops?
Most wireless sensor networks are assumed that the number of nodes are very large and they should operate with confined resources.
For instance, recent work on energy consumption in WSNs has shown that most wireless sensor devices consume almost as much energy when listening to the wireless channel, or even being in idle mode, as they do when actively transmitting a packet [1, Chapter 2].
Due to the inefficiency of a flat topology, most wireless sensor networks (WSNs) have a cluster or tree structure; but this causes an imbalance of residual energy between nodes, which gets worse over time as nodes become defunct and replacements are inserted.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com