The tremendous increase in the number of components in typical electrical and
communication modules requires low-cost, flexible and multifunctional sensing, energy
harvesting, and communication modules that can readily reconfigure, depending on
changes in their environment. Current subtractive manufacturing-based reconfigurable
systems offer limited flexibility (limited finite number of discrete reconfiguration states) and
have high fabrication cost and time requirements. Thus, this paper introduces an approach …

The tremendous increase in the number of components in typical electrical and
communication modules requires low-cost, flexible and multifunctional sensing, energy
harvesting, and communication modules that can readily reconfigure, depending on
changes in their environment. Current subtractive manufacturingbased reconfigurable
systems offer limited flexibility (limited finite number of discrete reconfiguration states) and
have high fabrication cost and time requirements. Thus, this paper introduces an approach …