Add to ORKGThe performance of spaceborne synthetic aperture radar (SAR) is limited by the size and therefore the areal density of the antenna array. Conventional arrays consist of radiating elements mounted on hinged panels that are relatively heavy. In order to produce larger arrays capable of operating at higher altitudes, or to support comparable SAR payloads on smaller spacecraft, a lighter structure such as one using membranes must be used. Membrane antenna arrays have been developed, but deployment remains a challenge. This paper describes possible techniques to package and deploy membrane structures that can support these antenna arrays
Deployable membrane structures are a new and ultra-lightweight option for large antennas installed a...
This paper provides investigation results on the membrane technology development of a high accuracy ...
Satellites that monitor large scale indicators of global change, like glacier flow, soil moisture, o...
The performance of spaceborne synthetic aperture radar (SAR) is limited by the size and therefore th...
Abstract- Very large phased array antennas provide a wide range of capabilities for NASA’s Earth sci...
As an alternative to parabolic antennas and Synthetic Aperture Radar (SAR) systems, waveguide arrays...
As the current discussions on climate changes suggest, the need for understanding the occurrences on...
This report provides an overview on the current state of work on ESA Contract No. 20407/07/NL/EM wit...
Increasing interest from the scientific community to utilize space-borne L- or P-Band radar antennas...
In the past years, miscellaneous techniques to stow and deploy large structures have been developed....
At the DLR Institute of Composite Structures and Adaptive Systems and the company Kayser-Threde extr...
As an alternative to parabolic antennas and Synthetic Aperture Radar (SAR) systems, waveguide arrays...
As there is still a demand for large SAR apertures for L and P-band, DLR and ESA decide in 2007 to s...
This paper provides investigation results on the membrane technology development of a high accuracy ...
as the associated technologies, is being developed for deep-space communication ap-plications. Membr...
Deployable membrane structures are a new and ultra-lightweight option for large antennas installed a...
This paper provides investigation results on the membrane technology development of a high accuracy ...
Satellites that monitor large scale indicators of global change, like glacier flow, soil moisture, o...
The performance of spaceborne synthetic aperture radar (SAR) is limited by the size and therefore th...
Abstract- Very large phased array antennas provide a wide range of capabilities for NASA’s Earth sci...
As an alternative to parabolic antennas and Synthetic Aperture Radar (SAR) systems, waveguide arrays...
As the current discussions on climate changes suggest, the need for understanding the occurrences on...
This report provides an overview on the current state of work on ESA Contract No. 20407/07/NL/EM wit...
Increasing interest from the scientific community to utilize space-borne L- or P-Band radar antennas...
In the past years, miscellaneous techniques to stow and deploy large structures have been developed....
At the DLR Institute of Composite Structures and Adaptive Systems and the company Kayser-Threde extr...
As an alternative to parabolic antennas and Synthetic Aperture Radar (SAR) systems, waveguide arrays...
As there is still a demand for large SAR apertures for L and P-band, DLR and ESA decide in 2007 to s...
This paper provides investigation results on the membrane technology development of a high accuracy ...
as the associated technologies, is being developed for deep-space communication ap-plications. Membr...
Deployable membrane structures are a new and ultra-lightweight option for large antennas installed a...
This paper provides investigation results on the membrane technology development of a high accuracy ...
Satellites that monitor large scale indicators of global change, like glacier flow, soil moisture, o...