Add to ORKGThere is a user need for increasing spatial and spectral resolution in Earth Observation (EO) optical instrumentation. Higher spectral resolution will be achieved by the introduction of spaceborne imaging spectrometers. Higher spatial resolutions of 1 - 3m will be achieved also, but at the expense of sensor redesign, higher communications bandwidth, high data processing volumes, and therefore, at the risk of time delays due to large volume data-handling bottlenecks. This paper discusses a design concept whereby the hyperspectral properties of a spaceborne imaging spectrometer can be used to increase the image spatial resolution, without such adverse cost impact
International audienceMore than 25 years of airborne imaging spectroscopy and spaceborne sensors suc...
International audienceGenerally, for optical satellite sensors spatial and spectral resolutions are ...
Hyperspectral imaging (HSI) is used in a wide range of applications such as remote sensing, space im...
Two important sensor design drivers are the requirement for spatial registration of the spectral com...
Hyperspectral instruments are designed for the characterisation of planetary surfaces, oceans and th...
Recent advances in airborne and spaceborne hyperspectral imaging technology have provided end users ...
Hyperspectral images with hundreds of spectral bands have been proven to yield high performance in m...
Earth observation at a local scale requires images having both high spatial and spectral resolutions...
Imaging spectroscopy (IS), also commonly known as hyperspectral remote sensing, is a powerful remote...
Major advances in detector technology and in the ability to process large amounts of spectrometer da...
Hyperspectral instruments are designed for the characterisation of planetary surfaces, oceans and th...
Imaging spectroscopy (IS), also commonly known as hyperspectral remote sensing, is a powerful remote...
The most significant recent breakthrough in remote sensing has been the development of hyperspectral...
International audienceThe use of hyperspectral (HS) data is growing over the years, thanks to the ve...
The evolution and improvements in hyperspectral instrumentation are being matched by information tec...
International audienceMore than 25 years of airborne imaging spectroscopy and spaceborne sensors suc...
International audienceGenerally, for optical satellite sensors spatial and spectral resolutions are ...
Hyperspectral imaging (HSI) is used in a wide range of applications such as remote sensing, space im...
Two important sensor design drivers are the requirement for spatial registration of the spectral com...
Hyperspectral instruments are designed for the characterisation of planetary surfaces, oceans and th...
Recent advances in airborne and spaceborne hyperspectral imaging technology have provided end users ...
Hyperspectral images with hundreds of spectral bands have been proven to yield high performance in m...
Earth observation at a local scale requires images having both high spatial and spectral resolutions...
Imaging spectroscopy (IS), also commonly known as hyperspectral remote sensing, is a powerful remote...
Major advances in detector technology and in the ability to process large amounts of spectrometer da...
Hyperspectral instruments are designed for the characterisation of planetary surfaces, oceans and th...
Imaging spectroscopy (IS), also commonly known as hyperspectral remote sensing, is a powerful remote...
The most significant recent breakthrough in remote sensing has been the development of hyperspectral...
International audienceThe use of hyperspectral (HS) data is growing over the years, thanks to the ve...
The evolution and improvements in hyperspectral instrumentation are being matched by information tec...
International audienceMore than 25 years of airborne imaging spectroscopy and spaceborne sensors suc...
International audienceGenerally, for optical satellite sensors spatial and spectral resolutions are ...
Hyperspectral imaging (HSI) is used in a wide range of applications such as remote sensing, space im...