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Rajasekhar, R. P.

Mars Colour Camera: the payload characterization/calibration and data analysis from Earth imaging phase

Abstract Views :166 | PDF Views:131

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

Source

Current Science, Vol 109, No 6 (2015), Pagination: 1076-1086

Abstract

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.

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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.

Terrain Mapping Camera-2 onboard Chandrayaan-2 Orbiter

Abstract Views :175 | PDF Views:13

Authors

Arup Roy Chowdhury ¹, Vishnukumar D. Patel ¹, S. R. Joshi ¹, A. S. Arya ¹, Ankush Kumar ¹, Sukamal Paul ¹, Dhrupesh Shah ¹, Pradeep Soni ¹, J. C. Karelia ¹, Minal Sampat ¹, Satish Sharma ¹, Sandip Somani ¹, H. V. Bhagat ¹, Jitendra Sharma ¹, Amitabh ¹, K. Suresh ¹, R. P. Rajasekhar ¹, B. B. Bokarwadia ¹, Mukesh Kumar ¹, D. N. Ghonia ¹

Affiliations
1 Space Applications Centre, Indian Space Research Organisation, Ahmedabad 380 015, IN

Source

Current Science, Vol 118, No 4 (2020), Pagination: 566-572

Abstract

The paper presents the design and development of Terrain Mapping Camera-2 (TMC-2) for Chandrayaan- 2 including science objectives; system and sub-system configuration along with the realized performance of the camera; payload characterization; aspects related to data products, etc. TMC-2, onboard Chandrayaan-2 orbiter-craft is a follow-on of the Terrain Mapping Camera (TMC) onboard Chandrayaan- 1. It operates in visible panchromatic band. It comprises three identical electro-optical chains aligned for three views (–25, 0 and +25 degree) along track direction for generation of stereo images. It provides data with 5 m horizontal ground sampling distance to generate digital elevation model. TMC-2 based on the new configuration and sub-system designs has reduction in mass and power by more than 40% compared to TMC, without compromising the performance.

Keywords

Digital Elevation Model, Light Transfer Characteristics, Relative Spectral Response, Signal-to-noise Ratio, Stereo Imaging, Square Wave Response, Terrain Mapping Camera-2.

Full Text

References

Kiran Kumar, A. S. and Chowdhury, A. R., Terrain mapping camera for Chandrayaan-1. J. Earth Syst. Sci., 2005, 114(6), 717–720.

Kiran Kumar, A. S. et al., Terrain mapping camera: a stereoscopic high-resolution instrument on Chandrayaan-1. Curr. Sci., 2009, 96, 492–495.

Kiran Kumar, A. S. et al., The terrain mapping camera on Chandrayaan-1 and initial results. In 40th Lunar and Planetary Science Conference, Houston Texas, 2009, Abstract #1584.

Arya, A. S., Rajasekhar, R. P., Guneshwar Thangjam, Ajai and Kiran Kumar, A. S., Detection of potential site for future human habitability on the Moon using Chandrayaan-1 data. Curr. Sci., 2011, 100, 524–529.

Arya, A. S., Rajasekhar, R. P., Amitabh, Gopala Krishna, B., Ajai and Kiran Kumar, A. S., Morphometric, rheological and compositional analysis of an effusive lunar dome using high resolution remote sensing data sets: a case study from Marius hills region. Adv. Space Res., 2014, 54, 2073–2086.

Arya, A. S. et al., Morphometric and rheological study of lunar domes of Marius Hills volcanic complex region using Chandrayaan1 and recent datasets. J. Earth Syst. Sci., 2018, 127, 70.

Arya, A. S. et al., Lunar surface age determination using Chandrayaan-1 TMC data. Curr. Sci., 2012, 102, 783–788.

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