2020
DOI: 10.1155/2020/8880730
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Self-Administered Information Sharing Framework Using Bioinspired Mechanisms

Abstract: The promising potential of distributed and interconnected lightweight devices that can jointly generate superior information-collecting and problem-solving abilities has long fostered various significant and ubiquitous techniques, from wireless sensor networks (WSNs) to Internet of Things (IoT). Although related applications have been widely used in different domains in attempting to collect and harness the ever-growing information flows, one major issue that impedes the further advancement of WSNs or IoT-base… Show more

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Cited by 1 publication
(1 citation statement)
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“…For instance, the research in [35] utilises an ad hoc cognitive packet network (AHCPN) based routing protocol to search energy efficient and delay tolerant communication links for evacuees between portable devices and the backend cloud center; packets are relayed to nearby portable devices with higher remaining power before performing energyintensive uploading operations to the cloud center. Similarly, the work in [36] develops a smart cloud evacuation system to provide individual escape guidance with the aid of front-end smartphones and back-end datacenters; multimedia information such as text, voice and images gathered by smartphones are transmitted to datacenters for further human activity and emergency event analysis, so as to offload intense computations for saving energy at the front end. The study in [37] proposes a bio-inspired emergency alarm system to distribute emergency messages in an IoT network; a self-adaptive packet behaviour optimisation mechanism is proposed to reduce the energy consumption in communications and computations by dynamically adjusting parameters such as rate and time-to-live of data packets.…”
Section: Related Workmentioning
confidence: 99%
“…For instance, the research in [35] utilises an ad hoc cognitive packet network (AHCPN) based routing protocol to search energy efficient and delay tolerant communication links for evacuees between portable devices and the backend cloud center; packets are relayed to nearby portable devices with higher remaining power before performing energyintensive uploading operations to the cloud center. Similarly, the work in [36] develops a smart cloud evacuation system to provide individual escape guidance with the aid of front-end smartphones and back-end datacenters; multimedia information such as text, voice and images gathered by smartphones are transmitted to datacenters for further human activity and emergency event analysis, so as to offload intense computations for saving energy at the front end. The study in [37] proposes a bio-inspired emergency alarm system to distribute emergency messages in an IoT network; a self-adaptive packet behaviour optimisation mechanism is proposed to reduce the energy consumption in communications and computations by dynamically adjusting parameters such as rate and time-to-live of data packets.…”
Section: Related Workmentioning
confidence: 99%