Add to ORKGWe explore the impact of origami structure meta-materials on electromagnetic devices. Here two modular origami-inspired dielectric structures were fabricated by 3D printing with the ability to shift the resonant frequency of patch antennas operating at approximately 1 GHz. Tunablity was achieved by deploying different dielectric origami configurations that were actuated to control the degree of folding or compression when placed on top of a standard patch antenna. The measured effects of the dielectric origami structure is to provide a 2% range of tunability of the antenna resonance frequency, with simulations showing a similar trend as experiments. The demonstration of active tuning by actuation of dielectric origami may find application i...
In this paper, a novel dual band frequency reconfigurable antenna using an origami magic cube is pro...
session: Antenna and PropagationInternational audienceThe design of antennas on cellulosic flexible ...
Soft actuators with the capability to generate programmable and reconfigurable motions without the u...
We investigate using a reconfigurable metamaterial structure based on high permittivity dielectric e...
Traditional RF structures lack tunability in their electromagnetic (EM) response which is becoming e...
Origami has unfolded engineering applications in various fields, such as electrical, civil, aerospac...
We propose a push/pull origami antenna, transformable between a single antenna element and a three-e...
With the ever-increasing demand for wireless communications, there is a great need for efficient des...
This paper demonstrates the combination of additive manufacturing techniques for realizing complex 3...
The work to be presented in this dissertation explores the possibility of implementing origami-inspi...
An antenna includes a dielectric sheet and a conductive film. The dielectric sheet is folded into a ...
The realization of flexible and conformable antennas, suitable for IoT applications, is still a chal...
Metamaterials/metasurfaces, which have subwavelength resonating unit cells (i.e., meta-atoms), can e...
Dielectric materials have been applied in modifying the antenna radiation pattern, but it is usually...
International audienceIn this paper, we propose an origami-based auxetic tunable Helmholtz resonator...
In this paper, a novel dual band frequency reconfigurable antenna using an origami magic cube is pro...
session: Antenna and PropagationInternational audienceThe design of antennas on cellulosic flexible ...
Soft actuators with the capability to generate programmable and reconfigurable motions without the u...
We investigate using a reconfigurable metamaterial structure based on high permittivity dielectric e...
Traditional RF structures lack tunability in their electromagnetic (EM) response which is becoming e...
Origami has unfolded engineering applications in various fields, such as electrical, civil, aerospac...
We propose a push/pull origami antenna, transformable between a single antenna element and a three-e...
With the ever-increasing demand for wireless communications, there is a great need for efficient des...
This paper demonstrates the combination of additive manufacturing techniques for realizing complex 3...
The work to be presented in this dissertation explores the possibility of implementing origami-inspi...
An antenna includes a dielectric sheet and a conductive film. The dielectric sheet is folded into a ...
The realization of flexible and conformable antennas, suitable for IoT applications, is still a chal...
Metamaterials/metasurfaces, which have subwavelength resonating unit cells (i.e., meta-atoms), can e...
Dielectric materials have been applied in modifying the antenna radiation pattern, but it is usually...
International audienceIn this paper, we propose an origami-based auxetic tunable Helmholtz resonator...
In this paper, a novel dual band frequency reconfigurable antenna using an origami magic cube is pro...
session: Antenna and PropagationInternational audienceThe design of antennas on cellulosic flexible ...
Soft actuators with the capability to generate programmable and reconfigurable motions without the u...