Add to ORKGOperational phase of the inflatable radiator; inflatable space structures; advantages; inflated thin-film satellites; antenna configuration; 3 meter diameter test paraboloid (HAIR program); and weight breakdown for the 100 meter diameter reflector are outlined. This presentation is represented by viewgraphs only
Inflatable aperture antennas are an emerging technology that is being investigated for potential use...
NASA is developing ultra-lightweight structures technology for communication antennas for space miss...
A report discusses a 7-meter-diameter reflectarray antenna that has been conceived in a continuing e...
In the 1960\u27s, NASA put considerable effort into inflatable space structures, including Echo I an...
Inflatable array antennas are being developed to significantly reduce the mass, the launch vehicle\u...
As NASA pursues its strategic goals of leaving low-Earth orbit, establishing a permanent presence on...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
Specific applications where inflatable technology can enable or enhance future space missions are ta...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
Large RF apertures have long proven to be a vexing challenge for small satellite/CubeSat platforms d...
Thin-film inflatable solar concentrators offer significant advantages in comparison to stateof- the-...
Inflatable aperture antennas are an emerging technology that is being investigated for potential use...
NASA is developing ultra-lightweight structures technology for communication antennas for space miss...
A report discusses a 7-meter-diameter reflectarray antenna that has been conceived in a continuing e...
In the 1960\u27s, NASA put considerable effort into inflatable space structures, including Echo I an...
Inflatable array antennas are being developed to significantly reduce the mass, the launch vehicle\u...
As NASA pursues its strategic goals of leaving low-Earth orbit, establishing a permanent presence on...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
Specific applications where inflatable technology can enable or enhance future space missions are ta...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
This paper presents the design of an inflatable coplanar patch antenna array as to increase the Tech...
Large RF apertures have long proven to be a vexing challenge for small satellite/CubeSat platforms d...
Thin-film inflatable solar concentrators offer significant advantages in comparison to stateof- the-...
Inflatable aperture antennas are an emerging technology that is being investigated for potential use...
NASA is developing ultra-lightweight structures technology for communication antennas for space miss...
A report discusses a 7-meter-diameter reflectarray antenna that has been conceived in a continuing e...