This study is focused on designing conformal antennas to be deployed with the inflatable wings for unmanned aerial vehicles (UAV). The main emphasis is on utilizing the structure of the wing to develop antennas for various frequency bands, while maintaining the wing’s aerodynamic performance. An antenna modeler and optimizer software called 4NEC2 and a program called WIRECODE were used to design and determine the characteristics of the antennas. The effect of flexibility of the inflatable wing on the antenna characteristics during flight is also evaluated
Conformal and structurally integrated antennas will play an increasing role in future airborne appli...
This final year project details the design of a compact wideband antenna that will be used for Unman...
ABSTRACT: In this paper, we develop a parametric model method and simulate the deployment mechanism ...
This study is focused on designing conformal antennas to be deployed with the inflatable wings for u...
This project is to develop antennas which enable beyond line of sight (BLOS) command and control for...
This final report illustrates the process of the low-profile slot antenna for Unmanned Aerial Vehicl...
A new optimized winglet of a small aircraft is used to develop the solutions for structure, VHF ante...
The concept of structurally-integrated multifunction antennae embedded into airframes is central to ...
NASA is developing ultra-lightweight structures technology for communication antennas for space miss...
Structurally integrated antenna arrays provide synergies allowing the integration of large apertures...
Integration of antennas into ground, air or water vehicles is a critical task due to the increasing ...
Conformal and structurally integrated antennas will play an increasing role in future airborne appli...
Inflatable technology is under continual development and advances in high strength fibres have pushe...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
This article discusses stress analysis and the shape characteristics of the inflatable wing, and the...
Conformal and structurally integrated antennas will play an increasing role in future airborne appli...
This final year project details the design of a compact wideband antenna that will be used for Unman...
ABSTRACT: In this paper, we develop a parametric model method and simulate the deployment mechanism ...
This study is focused on designing conformal antennas to be deployed with the inflatable wings for u...
This project is to develop antennas which enable beyond line of sight (BLOS) command and control for...
This final report illustrates the process of the low-profile slot antenna for Unmanned Aerial Vehicl...
A new optimized winglet of a small aircraft is used to develop the solutions for structure, VHF ante...
The concept of structurally-integrated multifunction antennae embedded into airframes is central to ...
NASA is developing ultra-lightweight structures technology for communication antennas for space miss...
Structurally integrated antenna arrays provide synergies allowing the integration of large apertures...
Integration of antennas into ground, air or water vehicles is a critical task due to the increasing ...
Conformal and structurally integrated antennas will play an increasing role in future airborne appli...
Inflatable technology is under continual development and advances in high strength fibres have pushe...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
This article discusses stress analysis and the shape characteristics of the inflatable wing, and the...
Conformal and structurally integrated antennas will play an increasing role in future airborne appli...
This final year project details the design of a compact wideband antenna that will be used for Unman...
ABSTRACT: In this paper, we develop a parametric model method and simulate the deployment mechanism ...