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Co-Authors
- A. S. Arya
- A. R. Srinivas
- S. Manthira Moorthi
- Vishnukumar D. Patel
- Rimjhim B. Singh
- R. P. Rajasekhar
- Sampa Roy
- Indranil Misra
- Sukamal Kr. Paul
- Dhrupesh Shah
- Kamlesh Patel
- Rajdeep K. Gambhir
- U. S. H. Rao
- Amul Patel
- Jalshri Desai
- Rahul Dev
- Ajay K. Prashar
- Hiren Rambhia
- Ranjan Parnami
- Harish Seth
- K. R. Murali
- Rishi Kaushik
- Deepak Patidar
- Nilesh Soni
- Prakash Chauhan
- D. R. M. Samudraiah
- A. S. Kiran Kumar
- Kurian Mathew
- Moumita Dutta
- Minal x Minal Rohit
- Rajiv Kumaran
- Kshitij Pandya
- Ankush Kumar
- Jitendra Sharma
- Vishnu Patel
- Piyush Shukla
- Aravind K. Singh
- Ashutosh Gupta
- Jaya Rathi
- P. Narayana Babu
- Saji A. Kuriakose
Journals
Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Sarkar, S. S.
- Mars Colour Camera: the payload characterization/calibration and data analysis from Earth imaging phase
Abstract Views :249 |
PDF Views:202
Authors
A. S. Arya
1,
S. S. Sarkar
1,
A. R. Srinivas
1,
S. Manthira Moorthi
1,
Vishnukumar D. Patel
1,
Rimjhim B. Singh
1,
R. P. Rajasekhar
1,
Sampa Roy
1,
Indranil Misra
1,
Sukamal Kr. Paul
1,
Dhrupesh Shah
2,
Kamlesh Patel
1,
Rajdeep K. Gambhir
1,
U. S. H. Rao
1,
Amul Patel
1,
Jalshri Desai
1,
Rahul Dev
1,
Ajay K. Prashar
1,
Hiren Rambhia
1,
Ranjan Parnami
1,
Harish Seth
1,
K. R. Murali
1,
Rishi Kaushik
1,
Deepak Patidar
1,
Nilesh Soni
1,
Prakash Chauhan
1,
D. R. M. Samudraiah
1,
A. S. Kiran Kumar
1
Affiliations
1 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 015, IN
2 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 015
1 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 015, IN
2 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 015
Source
Current Science, Vol 109, No 6 (2015), Pagination: 1076-1086Abstract
Mars Colour Camera (MCC) on-board Mars Orbiter Mission is considered the ‘eye’ of the mission, taking photographs (imageries) of the surfacial features on Mars, and the cloud and dust around it. MCC is an important contextual camera for other non-imaging sensors like MSM, TIS, LAP, etc. The camera has been designed, characterized, calibrated and qualified at the Space Applications Centre, ISRO, Ahmedabad by a team of professional engineers and scientists. It has been miniaturized, ruggedized and space-qualified to match the weight and power budget of the mission. During Earth orbit phase, the images returned by the camera have been analysed qualitatively and quantitatively. The results show that MCC has been working as expected in terms of radiometry, geometry and application potential to discern various morphological features. The present article discusses these facts in detail.Keywords
Detector, Earth imaging phase, payload, Mars colour camera.References
- Anon., Pre-shipment review document, Mars Colour Camera, Document No. SAC-MOM-04-April 2013.
- Hua, L. and Chen, H., A color interpolation algorithm for Bayer pattern digitalcameras based on green components and color differencespace. Informatics and Computing, IEEE International Conference, Shanghai, 10–12 December 2010, pp. 791–795.
- El Gamal, A., CMOS image sensors. IEEE Circuits Dev. Mag.,2005, 21, 6–20.
- Zhang, L., Automatic digital surface model (DSM) generation from lineararray images. Ph D dissertation. Institute of Geodesy and Photogrammetry,Zurich, Switzerland, 2005.
- Baltsavias, E. P., Pateraki, M. and Zhang, L. Radiometric and geometric evaluationof IKONOS geo images and their use for 3D buildingmodeling. In Proceedings of Joint ISPRS Workshop on HighResolution Mapping from Space 2001, Hannover, Germany,19–21 September 2001.
- Methane Sensor for Mars
Abstract Views :246 |
Authors
Kurian Mathew
1,
S. S. Sarkar
1,
A. R. Srinivas
1,
Moumita Dutta
1,
Minal x Minal Rohit
1,
Harish Seth
1,
Rajiv Kumaran
1,
Kshitij Pandya
1,
Ankush Kumar
1,
Jitendra Sharma
1,
Jalshri Desai
1,
Amul Patel
1,
Vishnu Patel
1,
Piyush Shukla
1,
S. Manthira Moorthi
1,
Aravind K. Singh
1,
Ashutosh Gupta
1,
Jaya Rathi
1,
P. Narayana Babu
1,
Saji A. Kuriakose
1,
D. R. M. Samudraiah
1,
A. S. Kiran Kumar
1
Affiliations
1 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 058, IN
1 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 058, IN
Source
Current Science, Vol 109, No 6 (2015), Pagination: 1087-1096Abstract
Methane Sensor for Mars (MSM), on-board Mars Orbiter Mission is a differential radiometer based on Fabry–Perot Etalon (FPE) filters which measures column density of methane in the Martian atmosphere. It is the first FPE sensor ever flown to space. Spectral, spatial and radiometric performances of the sensor were characterized thoroughly during the pre-launch calibration. Geophysical calibration of the sensor was carried out using the data acquired over Sahara desert during Earth Parking Orbit phase. Retrieval algorithm for MSM, which is based on the linearization of radiative transfer equations, gets simultaneous solutions for CH4 and CO2 concentrations in the Martian atmosphere.Keywords
Differential radiometer, Fabry–Perot Etalon, geophysical calibration, methane sensor, retrieval algorithm.Full Text
References
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- Chizek, M. R., Murphy, J. R., Fonti, S., Marzo, G. A., Kahre, M. A. and Roush, T. L., Mapping the methane on Mars: seasonal comparison. In The Fourth International Workshop on the Mars Atmosphere: Modelling and Observation, in Paris, 8–11 February 2011; http://www-mars.lmd.jussieu.fr/paris2011/ program.html
- Zahnle, K., Freedman, R. and Catling, D., Is there methane on Mars? Icarus, 2011, 212, 493–503.
- Zahnle, K., Freedman, R. and Catling, D., Is there methane on Mars? Part II. In 42nd Lunar and Planetary Science Conference, TheWoodlands, Texas, 2011, p. 2427.
- Heaps, W. S., Kawa, S. R., Georgieva, E. and Wilson, E., Fabry– Perotinterferometer for column CO2; www.esto.nasa.gov/conferences/estc2003/papers/B4P1(Heaps).pdf
- Georgieva, E. M., Heaps, W. S. and Wilson, E. L., Differential radiometersusing Fabry–Perot interferometric technique for remotesensing of greenhouse gases. IEEE Trans. Geosci. Remote Sensing, 2008, 46(10), 3115–3122.
- Cunningham, I. A. and Fenster, A., A method for modulation transferfunction determination from edge profiles with correction forfinite element differentiation. Med. Phys., 1987, 14(4), 533–537.