Study of Collective Behavior of Molecular Phase-Locked Loops
Date Issued
2015
Date
2015
Author(s)
Huang, Bo-Yu
Abstract
Study of collective behavior is a very important topic and widely known in complex system design. The behavior of massive agents interacting with each other and assembling together can construct fundamentally different phenomenon compared to single agent in the view of whole groups. We consider a special complex system in this thesis, i.e. human heart beating, which has rhythms at all. Through revised Molecular Phase-Lokced Loop(MPLL) model, we find that massive agents interacing and assembling together would probably result in chaotic behavior under certain specific condition and parameter setting. Also, at certain distance range, the rhythm would appear. We obtain the condition that the rhythm can happen through program simulation. Those results can be used as guidelines for complex system designing and control.
Subjects
Molecular Phase-Locked Loop
Collective Behavior
Dynamical System
Dynamical Control
Synchronization
Complex System
Multi-agent System
Type
thesis
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ntu-104-R00942134-1.pdf
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