Design optimization of transmitting antennas for weakly coupled magnetic induction communication systems

Design optimization of transmitting antennas for weakly coupled magnetic induction communication systems

This work focuses on the design of transmitting coils in weakly coupled magnetic induction communication systems. We propose several optimization methods that reduce the active, reactive and apparent power consumption of the coil. These problems are formulated as minimization problems, in which the...

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Bibliographic Details
Published in:PloS one Vol. 12; no. 2; p. e0171982
Main Authors: Tal, Nikolay, Morag, Yahav, Shatz, Lisa, Levron, Yoash
Format: Journal Article
Language:English
Published: United States Public Library of Science 13-02-2017
Public Library of Science (PLoS)
Subjects:
Algorithms
Analysis
Antennas
Antennas (Electronics)
Broadband
Circuits
Coiling
Coils
Coils (windings)
Communications systems
Complexity
Computer and Information Sciences
Computer applications
Current distribution
Design
Design optimization
Electric Power Supplies
Electrical engineering
Electromagnetic induction
Engineering and Technology
Equipment Design - methods
Humans
Magnetic Fields
Magnetic induction
Magnetics
Methods
Models, Theoretical
Numerical analysis
Numerical methods
Optimization
Optimization techniques
Physical Sciences
Power consumption
Problems
Reactive power
Receivers & amplifiers
Reproducibility of Results
Sensors
Telecommunications - instrumentation
Transmission
Transmitters
Wireless networks
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Summary:This work focuses on the design of transmitting coils in weakly coupled magnetic induction communication systems. We propose several optimization methods that reduce the active, reactive and apparent power consumption of the coil. These problems are formulated as minimization problems, in which the power consumed by the transmitting coil is minimized, under the constraint of providing a required magnetic field at the receiver location. We develop efficient numeric and analytic methods to solve the resulting problems, which are of high dimension, and in certain cases non-convex. For the objective of minimal reactive power an analytic solution for the optimal current distribution in flat disc transmitting coils is provided. This problem is extended to general three-dimensional coils, for which we develop an expression for the optimal current distribution. Considering the objective of minimal apparent power, a method is developed to reduce the computational complexity of the problem by transforming it to an equivalent problem of lower dimension, allowing a quick and accurate numeric solution. These results are verified experimentally by testing a number of coil geometries. The results obtained allow reduced power consumption and increased performances in magnetic induction communication systems. Specifically, for wideband systems, an optimal design of the transmitter coil reduces the peak instantaneous power provided by the transmitter circuitry, and thus reduces its size, complexity and cost.
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Competing Interests: The authors have declared that no competing interests exist.
Conceptualization: NT YM YL.Formal analysis: NT YL.Investigation: NT YL LS.Methodology: NT YM YL LS.Software: NT YL LS.Supervision: YL LS.Validation: NT YL.Visualization: NT YL.Writing – original draft: NT YL.Writing – review & editing: NT YL LS.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0171982