Myco-barrier: edge-orchestrated post-detection mitigation of IoT botnets via an SDN-based virtual dynamic demilitarized zone.
Ravi V, Ahmadon MA, Mohamed Shuhidan S
Not Plant Science
This article is about cybersecurity, not plants — there is nothing here relevant to gardeners, naturalists, or anyone interested in the plant world.
This research is about protecting smart home devices and other internet-connected gadgets from malicious software attacks. It uses the word 'mycorrhizal' only as a metaphor for how its computer network system is organized — no actual fungi, plants, or biology are studied. The article belongs in a computer science journal, not a plant science feed.
Key Findings
The Myco-Scout mode provided the fastest device isolation and lowest network control latency among the three mitigation modes tested.
The Myco-Swap mode maintained approximately 85% legitimate data delivery during simulated flooding attacks.
The framework was validated through large-scale discrete-event simulation and network emulation, not biological or plant experiments.
chevron_right Technical Summary
This paper describes a computer network security system for protecting Internet of Things devices from botnet attacks. It has no connection to plant science.
Abstract Preview
Internet of Things (IoT) devices are highly vulnerable to botnet attacks because they are heterogeneous, resource-constrained, and often weakly managed. Although many existing studies focus on IoT ...
open_in_new Read full abstractAbstract copyright held by the original publisher.
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