A 3D popup frequency selective surface (FSS) is presented that can be tuned by the amount of strain due to mechanical loading in its elastomeric substrate. The proposed FSS structure comprises periodic two-dimensional (2D) crossed dipoles attached to the substrate at selective bonding sites. Strain release in the substrate induces compressive stress in the attached FSS, converting it to a 3D periodic pattern. With the out of plane displacement, the interaction with the incident field and mutual interactions between the elements are altered, resulting in a resonant frequency shift and a more stable response regarding the incident angles from 0o to 45o. A design of popup FSS structure is introduced for strain sensing applications. The potenti...
Frequency selective surfaces (FSSs) are periodic arrays of conductive elements, and when illuminated...
A novel highly stretchable gas sensor is reported that is based on popup antenna reconfiguration due...
Stretchable strain sensors, which convert mechanical stimuli into electrical signals, largely fuel t...
This paper presents an active frequency selective surface based sensor for strain measurement. The s...
Frequency selective surfaces (FSS) are periodic arrays of resonant elements with a specific (resonan...
Frequency selective surfaces (FSSs) with reconfigurable resonant frequency show significant potentia...
Frequency selective surfaces (FSSs) are periodic arrays of conductive elements (or patches). When il...
This thesis proposes the use of Frequency Selective Surfaces (FSSs) as an embedded structural health...
A novel displacement sensor using a frequency selective surface (FSS) with a removable substrate com...
Recently, frequency selective surfaces (FSSs) have been shown to have potential as embedded structur...
Soft electronic systems are intensively desirable due to their similar mechanical properties to huma...
Here we report highly flexible 3D antennas which leverage nonlinear compressive buckling to tune the...
Stretchable strain sensors have aroused great interest for their application in human activity recog...
We introduce an innovative 3-D mechanically tunable frequency selective surface (FSS), which is insp...
This paper reports the metal-elastomer surface deformation control strategy of a strain transducer a...
Frequency selective surfaces (FSSs) are periodic arrays of conductive elements, and when illuminated...
A novel highly stretchable gas sensor is reported that is based on popup antenna reconfiguration due...
Stretchable strain sensors, which convert mechanical stimuli into electrical signals, largely fuel t...
This paper presents an active frequency selective surface based sensor for strain measurement. The s...
Frequency selective surfaces (FSS) are periodic arrays of resonant elements with a specific (resonan...
Frequency selective surfaces (FSSs) with reconfigurable resonant frequency show significant potentia...
Frequency selective surfaces (FSSs) are periodic arrays of conductive elements (or patches). When il...
This thesis proposes the use of Frequency Selective Surfaces (FSSs) as an embedded structural health...
A novel displacement sensor using a frequency selective surface (FSS) with a removable substrate com...
Recently, frequency selective surfaces (FSSs) have been shown to have potential as embedded structur...
Soft electronic systems are intensively desirable due to their similar mechanical properties to huma...
Here we report highly flexible 3D antennas which leverage nonlinear compressive buckling to tune the...
Stretchable strain sensors have aroused great interest for their application in human activity recog...
We introduce an innovative 3-D mechanically tunable frequency selective surface (FSS), which is insp...
This paper reports the metal-elastomer surface deformation control strategy of a strain transducer a...
Frequency selective surfaces (FSSs) are periodic arrays of conductive elements, and when illuminated...
A novel highly stretchable gas sensor is reported that is based on popup antenna reconfiguration due...
Stretchable strain sensors, which convert mechanical stimuli into electrical signals, largely fuel t...