IDG TETIS
Toulouse 2015 Hyperspectral 1.6 spatial resolution VNIR - SWIR image
Full hyperspectral VNIR-SWIR ENVI standard image obtained from the coregistration of both VNIR and SWIR ones through a signal aggregation process that allowed to obtain a synthetic VNIR 1.6 m spatial resolution image, with pixels exactly corresponding to natif SWIR image ones. First, a spatially resampled 1.6 m VNIR image was built, where output pixel values were calculated as the average of the VNIR 0.8 m pixel values that spatially contribute to it. Then, ground control points (GCP) were selected over both images and SWIR one was tied to the VNIR 1.6 m image using a bilinear resampling method using ENVI tool. This lead to a 1.6 m spatial resolution full VNIR-SWIR image.
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Citation proposal
. Toulouse 2015 Hyperspectral 1.6 spatial resolution VNIR - SWIR image. https://idg-tetis.teledetection.fr/geonetwork/srv/api/records/ba5aec36-a8ba-43ab-93ed-db95585f6cf2 |
INSPIRE
Identification
- File identifier
- ba5aec36-a8ba-43ab-93ed-db95585f6cf2 XML
- Hierarchy level
- Dataset
Online resource
- Protocol
- file for download
Resource identifier
- code
- ba5aec36-a8ba-43ab-93ed-db95585f6cf2
- Metadata language
- English
- Spatial representation type
- Grid
Encoding
- Format
- ENVI BSQ
- Version
- 1.0
Projection
- code
- 4326
Classification of data and services
- Topic category
-
- Geoscientific information
- Environment
Classification of data and services
Coupled resource
Coupled resource
Classification of data and services
Coupled resource
Coupled resource
Keywords
- GEMET - INSPIRE themes, version 1.0 ( Theme )
- TETIS Thesaurus, version 1.0 21112019 ( Theme )
Other keywords
Geographic coverage
N
S
E
W
))
Temporal reference
Temporal extent
- Begin
- 2015-07-01T00:00:00Z
- End
- 2015-07-31T00:00:00Z
Temporal extent
- Date ( Revision )
- 2022-05-17T19:09:10
Quality and validity
- Lineage
- Full hyperspectral VNIR-SWIR ENVI standard image obtained from the coregistration of both VNIR and SWIR ones through a signal aggregation process that allowed to obtain a synthetic VNIR 1.6 m spatial resolution image, with pixels exactly corresponding to natif SWIR image ones. First, a spatially resampled 1.6 m VNIR image was built, where output pixel values were calculated as the average of the VNIR 0.8 m pixel values that spatially contribute to it. Then, ground control points (GCP) were selected over both images and SWIR one was tied to the VNIR 1.6 m image using a bilinear resampling method using ENVI tool. This lead to a 1.6 m spatial resolution full VNIR-SWIR image.
- Distance
- 1.6 m
Conformity
Conformity
Conformity
Conformity
Conformity
Conformity
- Explanation
- some explanation about the conformance
- Explanation
- See the referenced specification
- Explanation
- See the referenced specification
Restrictions on access and use
Restrictions on access and use
Responsible organization (s)
Contact for the resource
- Organisation name
- UMR TETIS - CNRS
- Christiane.Weber@cnrs.fr
Responsible organization (s)
Contact for the resource
- Organisation name
- UMR TETIS - CNRS
- Christiane.Weber@cnrs.fr
Metadata information
Contact for the metadata
- Organisation name
- ONERA
- xavier.briottet@onera.fr
- Organisation name
- UMR TETIS - CNRS
- Christiane.Weber@cnrs.fr
- Organisation name
- UMR TETIS - CNRS
- claudia.lavalley@cnrs.fr
- Date stamp
- 2022-05-17T19:27:28
- Metadata language
- English
- Character set
- UTF8
SDS
Conformance class 1: invocable
Access Point URL
Endpoint URL
Technical specification
Conformance class 2: interoperable
Coordinate reference system
Quality of Service
Access constraints
Limitation
Use constraints
Limitation
Responsible custodian
Contact for the resource
Conformance class 3: harmonized
Overviews
HYEP Project
Provided by
Views
ba5aec36-a8ba-43ab-93ed-db95585f6cf2
Access to the portal
Read here the full details and access to the data.
Associated resources
Not available