Search Results
1–9 of 9 results (0.001 seconds)
-
collection:
Hayabusa NIRS Calibrated Data
This data set includes the 111,226 calibrated spectra of asteroid 25143 Itokawa returned by the Near-Infrared Spectrometer (NIRS) instrument of the Hayabusa mission. The data cover the Itokawa encounter phases of the mission, from Aug. 31 through November 24, 2005. -
collection:
Hayabusa NIRS Raw Data
This collection includes the 117,937 raw spectra returned by the Near-Infrared Spectrometer (NIRS) of the Hayabusa mission. The targets include the asteroid 25143 Itokawa as well as Earth, Moon, Mars, Jupiter, Saturn, stars, and calibration frames. The data cover the period from May 12, 2003 through November 24, 2005. -
collection:
Hayabusa AMICA Data Raw Collection
This is the data_raw collection for the hay.amica bundle. The Asteroid Multi-band Imaging Camera (AMICA) of the Hayabusa mission to the asteroid 25143 Itokawa obtained 1662 images from May 11, 2003, shortly after launch, until November 19, 2005, after Itokawa encounter. This data set includes all images from the mission. -
collection:
Gaskell Itokawa Shape Model V1.1
The shape model of 25143 Itokawa derived by Robert Gaskell from Hayabusa AMICA images. The model is provided in the implicitly connected quadrilateral (ICQ) format in four levels of resolution. This version of the model was prepared on August 29, 2007. Vertex-facet versions of the models are also provided. -
collection:
Hayabusa AMICA Images with Geometry Backplanes V1.0
The Asteroid Multi-band Imaging Camera (AMICA) of the Hayabusa mission to the asteroid 25143 Itokawa obtained 1662 images from May 11, 2003, shortly after launch, until November 19, 2005, after Itokawa encounter. This data set provides derived data products for 1339 of those images that includes geometric information for each pixel. -
collection:
Hayabusa AMICA Images with Geometry Backplanes V1.0
The Asteroid Multi-band Imaging Camera (AMICA) of the Hayabusa mission to the asteroid 25143 Itokawa obtained 1662 images from May 11, 2003, shortly after launch, until November 19, 2005, after Itokawa encounter. This data set provides derived data products for 1339 of those images that includes geometric information for each pixel. -
collection:
data_calibrated collection for the "HAYABUSA LIDAR" bundle
This is the data_calibrated collection for the hay.lidar bundle. The HAYABUSA spacecraft included a LIght Detection and Ranging (LIDAR) altimeter. The primary objective of LIDAR was to establish the range between the HAYABUSA spacecraft and the asteroid Itokawa for navigation purposes during the surveying and collection phases of the mission. It provided excellent estimates of the location of the spacecraft relative to the asteroid. The Experiment Data Record (EDR) and Calibrated Data Record (CDR) from the Hayabusa LIDAR experiment are included in this data set. This updated version of the HAYABUSA LIDAR data includes a new CDR where the offsets between a high resolution shape model and the LIDAR data were minimized by optmizing the spacecraft trajectory. -
collection:
data_raw collection for the "HAYABUSA LIDAR" bundle
This is the data_raw collection for the hay.lidar bundle. The HAYABUSA spacecraft included a LIght Detection and Ranging (LIDAR) altimeter. The primary objective of LIDAR was to establish the range between the HAYABUSA spacecraft and the asteroid Itokawa for navigation purposes during the surveying and collection phases of the mission. It provided excellent estimates of the location of the spacecraft relative to the asteroid. The Experiment Data Record (EDR) and Calibrated Data Record (CDR) from the Hayabusa LIDAR experiment are included in this data set. This updated version of the HAYABUSA LIDAR data includes a new CDR where the offsets between a high resolution shape model and the LIDAR data were minimized by optmizing the spacecraft trajectory. -
collection:
Gaskell Itokawa Shape Model V1.1
The shape model of 25143 Itokawa derived by Robert Gaskell from Hayabusa AMICA images. The model is provided in the implicitly connected quadrilateral (ICQ) format in four levels of resolution. This version of the model was prepared on August 29, 2007. Vertex-facet versions of the models are also provided.
Data Sets and Information