Dr. Debadatta Swain
Department : Earth, Ocean and Climate Sciences
Professional Summary
Ø Associate Professor at School of Earth, Ocean & Climate Sciences, IIT Bhubaneswar (under MHRD of Govt. of India), Sep. 2022 onwards.
Ø Assistant Professor at School of Earth, Ocean & Climate Sciences, IIT Bhubaneswar (under MHRD of Govt. of India), Sep. 2013 to Aug. 2022.
Ø Sci./Eng. ‘SD’ at National Remote Sensing Centre (Indian Space Research Organisation, Govt. of India), Nov-2010 to Aug-2013.
Ø JRF at National Remote Sensing Agency (Dept. of Space, Govt. of India), Nov-2003 to May-2005.
Publications
1Nayak, H. P., G. Nandini, V. Vinoj, K. Landu, D. Swain, U. C. Mohanty and D. Niyogi (2023), Influence of urbanization on winter surface temperatures in a topographically asymmetric Tropical City, Bhubaneswar, India, Computational Urban Science, 3(36), 1-14, doi.: 10.1007/s43762-023-00112-y.
2Moharana, S. S. and D. Swain* (2023), On the recent increase in Atlantic Ocean hurricane activity
and influencing factors, Natural Hazards, 1-13, doi.: 10.1007/s11069-023-06061-3.
3Sethi, S. S., V. Vinoj, P. P. Gogoi, K. Landu, D. Swain and U.C. Mohanty (2023), Spatio-temporal Evolution of Surface Urban Heat Island over Bhubaneswar-Cuttack Twin City: A Rapidly Growing Tropical Urban Complex in Eastern India, Environment Development & Sustainability (2023), doi.: 10.1007/s10668-023-03254-5.
4Ray, S. and D. Swain* (2023), A systematic method of estimation of alongshore windstress and Ekman transport associated with coastal upwelling, MethodsX, 10 (102186), 1-8, doi: 10.1016/j.mex.2023.102186.
5Srikanth, K. and D. Swain* (2022), Urbanization and Land surface temperature changes over Hyderabad, a semi-arid mega city in India, Remote Sensing Applications: Society and Environment, 28:100858, doi: 10.1016/j.rsase.2022.100858.
6Gopinath, N. , V. Vinoj, S. S. Sethi, H. P. Nayak, L. Kiranmayi, D. Swain and U. C. Mohanty (2022), A modelling study on quantifying the impact of urbanization and regional effects on the wintertime surface temperature over a rapidly growing tropical city, Computational Urban Science, 2(40), 1-11, doi.:10.1007/s43762-022-00067-6.
7Ray, S., D. Swain*, M. M. Ali, M. A. Bourassa (2022), Coastal Upwelling in the Western Bay of Bengal: Role of Local and Remote Windstress, Remote Sensing, 14(19):4703, doi: 10.3390/rs14194703.
8Ray, S., D. Swain*, G. Patidar and Ch. Jayaram (2022), Comparison of SCATSAT-1 swath data with global in situ buoy winds, Geocarto International, 37(26), 11068-11087, doi.:10.1080/10106049.2022.2046865.
9Jangir, B., D. Swain* and S. K. Ghose (2021), Influence of Eddies and Tropical Cyclone Heat Potential on intensity changes of Tropical Cyclones in the North Indian Ocean, Advances in Space Research, 68 (2), 773-786, doi.: 10.1016/j.asr.2020.01.011. [Outstanding Paper Award by COSPAR]
10Ghose, S. K., D. Swain*, S. Mathew and R. Venkatesan (2021), Seasonal variability of Air-Sea Fluxes in two contrasting basins of the north Indian Ocean, Dynamics of Atmospheres and Oceans, 93 (101183), doi.:10.1016/j.dynatmoce.2020.101183.
11International Altimetry Team [Abdalla, S., …, D. Swain, et. al.] (2021), Altimetry for the future: Building on 25 years of progress, Advances in Space Research, 68 (2), 319-363, doi.:10.1016/j.asr.2021.01.022.
12Nanda, D., D. R. Mishra and D. Swain* (2021), COVID-19 lockdowns induced land surface temperature variability in mega urban agglomerations in India, Environmental Science: Processes & Impacts, 23, 144-159, doi.:10.1039/D0EM00358A.
13Jayaram, Ch., G. Patidar, D. Swain*, V. M. Chowdary and S. Bandyopadhyay (2021), Total suspended matter distribution in the Hooghly river estuary and the Sundarbans: A Remote Sensing approach, IEEE Journal of Selected Topics in Applied Earth Observations And Remote Sensing, 14, 9064-9070, doi.: 10.1109/JSTARS.2021.3076104.
14Sarin, T. S., V. Vinoj, D. Swain, K. Landu and E. Suhas (2021), Aerosol Induced Changes in Sea Surface Temperature Over the Bay of Bengal Due to COVID-19 Lockdown, Frontiers in Marine Science, 8 (648566), 1-9, doi.: 10.3389/fmars.2021.648566.
15Jayaram, Ch., R. Roy, N. Chacko, D. Swain, R. Punnana, S. Bandyopadhyay, S. B. Choudhury and D. Dutta (2021), Anomalous Reduction of the Total Suspended Matter During the COVID-19 Lockdown in the Hooghly Estuarine System, Frontiers in Marine Science, 8 (633493), 1-11, doi.: 10.3389/fmars.2021.633493.
16Vinoj, V. and D. Swain (2020), Did COVID-19 Lockdown Brew “Amphan” into a Super Cyclone?. Preprints 2020, 2020070033, doi: 10.20944/preprints202007.0033.v1.
17Kishore, R., B. Sahoo, D. Swain and K. K. Sahu (2020), Analysis of COVID19 Outbreak in India using SEIR model, physics.soc-ph arXiv:2010.13610, doi.: 10.48550/arXiv.2010.13610.
18Behera, N., D. Swain* and S. Sil (2020), Effect of Antarctic sea ice on chlorophyll concentration in the Southern Ocean, Deep Sea Research Part II: Topical Studies in Oceanography, 104853, doi:10.1016/j.dsr2.2020.104853.
19Behera, N., S. Sil and D. Swain (2020), Seasonal and interannual variations of Chlorophyll-a concentrations in Agulhas return current region, Regional Studies in Marine Science, 39 (101423), 1-9, doi:10.1016/j.rsma.2020.101423.
20Mishra, D. R., A. Kumar, P. R. Muduli, Sk. Md. Equeenuddin, G. Rastogi, T. Acharyya and D. Swain (2020), Decline in Phytoplankton Biomass along Indian coastal waters due to COVID-19 lockdown, Remote Sensing, 12 (2584), 1-8, doi:10.3390/rs12162584.
21Prusty, P., S. H. Farooq, D. Swain and D. Chandrasekharam (2020), Association of geomorphic features with groundwater quality and freshwater availability in coastal regions, International Journal of Environmental Science and Technology, 17, 3313-3328, doi.: 10.1007/s13762-020-02706-z.
22Jangir, B., D. Swain*, S. K. Ghose, R. Goyal and T. V. S. Udaya Bhaskar (2020), Inter-comparison of model, satellite and in situ tropical cyclone heat potential in the North Indian Ocean, Natural Hazards, 102, 557-574, doi.: 10.1007/s11069-019-03756-4.
23Barik, A., D. Swain* and V. Vinoj (2019), Rapid urbanization and associated impacts on land surface temperature changes over Bhubaneswar Urban District, India, Environmental Monitoring and Assessment, 191(Suppl 3:790), 1-13, doi.: 10.1007/s10661-019-7699-2.
24Poddar, S., N. Chacko and D. Swain* (2019), Estimation of Chlorophyll-a in northern coastal Bay of Bengal using Landsat- OLI and Sentinel-2 MSI sensors, Frontiers in Marine Science, 6(598), 1-11, doi: 10.3389/fmars.2019.00598.
25Jayaram, Ch., T. V. S. Udaya Bhaskar, J. P. Kumar and D. Swain (2019), Cyclone enhanced Chlorophyll in the Bay of Bengal as evidenced from Satellite and BGC-Argo float observations, Journal of the Indian Society of Remote Sensing (Springer), 47(11), 1875-1882, doi.: 10.1007/s12524-019-01034-1.
26Gogoi, P. P., V. Vinoj, D. Swain, G. Roberts, J. Dash and S. Tripathy (2019), Land use and land cover change effect on surface temperature over Eastern India. Scientific Reports, 9:8859, 1-10, doi.: 10.1038/s41598-019-45213-z.
27Mandal, S., S. Sil, A. Gangopadhyay, T. Murty and D. Swain (2018), On extracting high-frequency tidal variability from HF radar data in the northwestern Bay of Bengal, Journal of Operational Oceanography (Taylor & Francis), 11(2), 65-81, doi.: 10.1080/1755876X.2018.1479571.
28Mandal, S., S. Sil, A. Shee, D. Swain and P. C. Pandey (2018), Comparative Analysis of SCATSat-1 Gridded Winds With Buoys, ASCAT, and ECMWF Winds in the Bay of Bengal, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 11 (3), 845-851, doi.: 10.1109/JSTARS.2018.2798621.
29Jayaram, C., T. V. S. Udaya Bhaskar, D. Swain and S. Bansal (2017), Oceansat-2 Scatterometer (OSCAT) Wind Fields over the Global Oceans, Proceedings of National Academy of Sciences, India Section A: Physical Sciences (Springer), 87 (4), 797-806, doi: 10.1007/s40010-017-0449-3.
30Swain, D.*, G. J. Roberts, J. Dash, K. Lekshmi, V. Vinoj and S. Tripathy (2017), Impact of Rapid Urbanization on the City of Bhubaneswar, India, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences (Springer), 87 (4), 845-853, doi.: 10.1007/s40010-017-0453-7.
31Udaya Bhaskar, T. V. S., C. Jayaram, S. Bansal, K. Krishna Mohan and D. Swain (2017), Generation and Validation of two Day Composite Wind Fields from Oceansat-2 Scatterometer, Journal of the Indian Society of Remote Sensing (Springer), 45 (1), 113-122, doi 10.1007/s12524-016-0566-5.
32Mahesh Kumar, U., S. K. Sasamal, D. Swain, N. Narendra Reddy, and T. Ramanjappa (2015), Intercomparison of Geophysical parameters from SARAL/AltiKa and Jason-2 Altimeters, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8 (10), 4863-4870, doi.: 10.1109/JSTARS.2015.2469757.
33Mahesh Kumar, U., D. Swain, S. K. Sasamal, N. Narendra Reddy, T. Ramanjappa (2015), Validation of SARAL/AltiKa significant wave height and wind speed observations over the North Indian Ocean, Journal of Atmospheric and Solar-Terrestrial Physics, 135, 174-180, doi.: 10.1016/j.jastp.2015.11.003.
34Jayaram, C., T. V. S. Udaya Bhaskar, D. Swain, E. P. R. Rao, S. Bansal, D. Dutta and K. H. Rao (2014), Daily composite wind fields from Oceansat-2 scatterometer, Remote Sensing Letters, 5 (3), 258-267, doi.: 10.1080/2150704X.2014.898191.
35Swain, D.* (2013), Simultaneous Retrieval of Sea Surface Wind Speed and Sea Surface Temperature from a Multi-frequency Scanning Microwave Radiometer, Radio Science Bulletin, 2013(347), 32-39, doi.: 10.23919/URSIRSB.2013.7909829.
36Ramkumar, G., K. V. Subrahmanyam, K. Kishore Kumar, S. S. Das, D. Swain, S. V. Sunilkumar, K. V. S. Namboodiri, K. N.Uma, V. S. Babu, S. R. John and A. Babu (2013), First observational study during a solar eclipse event on variations in the horizontal winds simultaneously in the troposphere-stratosphere-mesosphere-lower thermosphere region over the equatorial station Thumba (8.5° N, 77° E), Earth, Planets and Space, 65 (7), 781-790, doi:10.5047/eps.2012.12.007.
37Jena, B., S. Sahu, K. Avinash and D. Swain (2013), Observation of oligotrophic gyre variability in the south Indian Ocean: Environment forcing and biological response, Deep-Sea Research-I, 80, 1-10, doi.: 10.1016/j.dsr.2013.06.002.
38Ali, M. M., D. Swain, Tina Kashyap, J. P. McCreary and P. V. Nagamani (2013), Relationship between Cyclone Intensities and Sea Surface Temperature in the Tropical Indian Ocean, IEEE-Geosciences and Remote Sensing Letters, 10 (4), 841-844, doi.: 10.1109/LGRS.2012.2226138.
39Jena, B., D. Swain and K. Avinash, (2012), Investigation of the biophysical processes over the oligotrophic waters of South Indian Ocean subtropical gyre, triggered by cyclone Edzani, International Journal of Applied Earth Observation and Geoinformation, 18, 49-56, doi.: 10.1016/j.jag.2012.01.006.
40Salim, M., R. K. Nayak, D. Swain and V. K. Dadhwal (2012), Sea Surface Height Variability in the Tropical Indian Ocean: Steric Contribution, Journal of the Indian Society of Remote Sensing (Springer), 40 (4), 679-688, doi.: 10.1007/s12524-011-0188-x.
41Jena B., J. Kurian, D. Swain and A. Tyagi (2012), Prediction of bathymetry from satellite altimeter based gravity in the Arabian Sea: Mapping of two unnamed deep seamounts, International Journal of Applied Earth Observations & Geoinformation, 16, 1-4, doi.: 10.1016/j.jag.2011.11.008.
42Udaya Bhaskar, T. V. S. and D. Swain (2011), Sonic Layer Depth estimated from XBT temperatures and climatological salinities, Nature Precedings, doi:10.1038/npre.2011.6534.1 (Un-referred).
43Kumar, K. K., D. Swain, S. Rachel John and G. Ramkumar (2011), Simultaneous observations of SAO and QBO in winds, temperature and ozone in the tropical middle atmosphere during MIDAS program over Thumba (8.5º N, 77º E), Climate Dynamics, 37 (9-10), 1961-1973, doi.: 10.1007/s00382-010-0991-z.
44Subrahmanyam, K. V., G. Ramkumar, K. K. Kumar, D. Swain, S. V. Sunil Kumar, S. S. Das, R. K. Choudhary, K. V. S. Namboodiri, K. N. Uma, S. B. Veena, S. R. John and A. Babu (2011), Temperature perturbations in the troposphere-stratosphere over Thumba (8.5° N, 76.9° E) during the solar eclipse 2009/2010, Annales Geophysicae, 29(2), 275 – 282, doi.: 10.5194/angeo-29-275-2011.
45Jena, B., D. Swain and A. Tyagi (2010), Application of artificial neural networks for sea surface wind speed retrieval from IRS-P4 (MSMR) brightness temperature, IEEE-Geosciences and Remote Sensing Letters, 7 (3), 567-571, doi.:10.1109/LGRS.2010.2041632.
46Swain, D., H. Rahman and M. Ravichandran (2009), Comparison of NCEP turbulent heat fluxes with in situ observations over the south-eastern Arabian Sea, Meteorology and Atmospheric Physics, 104 (3-4), 163-175, doi.: 10.1007/s00703-009-0023-x.
47Udaya Bhaskar, T. V. S., D. Swain and M. Ravichandran (2008), Seasonal Variability of Sonic Layer Depth in the Central Arabian Sea, Ocean Science Journal (Springer), 43(3), 147-152, doi.: 10.1007/BF03020695.
48Udaya Bhaskar, T. V. S., D. Swain and M. Ravichandran (2007), Mixed Layer Variability in
Northern Arabian Sea as detected by an Argo float, Ocean Science Journal (Springer), 42 (4), 241-246, doi.: 10.1007/BF03020915.
49Udaya Bhaskar, T. V. S., D. Swain and M. Ravichandran (2006), Inferring Mixed Layer Depth variability from Argo observations in the western Indian Ocean, Journal of Marine Research, 64 (3), 393-406, doi.: 10.1357/002224006778189572.
50Swain, D.*, M. M. Ali and R. A. Weller (2006), Estimation of Mixed Layer Depth from Surface Parameters, Journal of Marine Research, 64 (5), 745-758, doi.: 10.1357/002224006779367285.
51Ali, M. M., D. Swain and R. A. Weller (2004), Estimation of Ocean Sub-surface Thermal Structure from Surface Parameters: A Neural Network Approach, Geophysical Research Letters, 31, L20308, 1-4, doi: 10.1029/2004GL021192.
1Ghose, S. K. and D. Swain (2019), The improved COARE 3.5 Algorithm for ocean heat flux estimations, The Indian Ocean Bubble, 2(10), 12-13.
2Udaya Bhaskar, T. V. S. and D. Swain (2016), Relation between Sonic Layer and Mixed Layer Depth in the Arabian Sea, Indian Journal of Geo-Marine Science, 45 (10), 1264-1271.
3Swain, D.* and S. K. Sasamal (2013), Altimetric Signature of Tropical Cyclone “Thane” over the Ocean, International Journal of Earth Sciences and Engineering, 06 (2), 1821-1824.
4Swain, D.*, N. V. P. Kiran Kumar, K. Kishore Kumar, Md. Mosarraf Hossain, M. Rajasekhar and G. Ramkumar (2013), Application of Wavelet De-noising for Wind Speed retrieval from a 2.5 MHz Partial Reflection Radar, Current Trends in Signal Processing, 3 (2), 1-8.
5Udaya Bhaskar, T. V. S., D. Swain and M. Ravichandran (2012), Determination of Sonic Layer Depth from XBT profiles and climatological salinities in the Arabian Sea, International Journal of Earth Sciences and Engineering, 5 (1), 36-44.
6Udaya Bhaskar, T.V.S., D. Swain and M. Ravichandran (2010), Sonic Layer depth variability in the Arabian Sea, International Journal of Oceans and Oceanography, 4 (1), 17-28.
7Swain, D.*, M. M. Ali and P. N. Sen (2008), Sensitivity of a one-dimensional ocean mixed layer model to surface meteorological parameters, Vatavaran, 32 (2), 27-34.
8Swain, D.* (2008), Winds from Fire, Vatavaran, 32 (1), 1-3.
9Swain, D. and R. Gowrishankar (2003), Computer Simulation Methods: Implementation of Monte Carlo using MATLAB, Bulletin of IAPT, 20 (12), 405-407.
1Jangir, B. and D. Swain (2019), Validation of Tropical Cyclone Heat Potential (TCHP) derived from satellite products over the North Indian Ocean, 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC), New Delhi, India, 2019, INSPEC Acc. No. 18776046, pp. 1-1, doi: 10.23919/URSIAP-RASC.2019.8738449.
2Swain, D., G. J. Roberts, J. Dash, V. Vinoj, K. Lekshmi and S. Tripathy (2016), “Impact of rapid urbanization on the microclimate of Indian cities: a case study for the city of Bhubaneswar”, Proc. SPIE 9877, Land Surface and Cryosphere Remote Sensing III, 98772X-1-7; doi:10.1117/12.2228111.
3Jangir, B., D. Swain and T. V. S. Udaya Bhaskar (2016), “Relation between tropical cyclone heat potential and cyclone intensity in the North Indian Ocean”, Proc. SPIEÂ 9882, Remote Sensing and Modeling of the Atmosphere, Oceans, and Interactions VI, 988228-1-7; doi:10.1117/12.2228033.
4Gogoi, P. P., K. Lekshmi, D. Swain and V. Vinoj (2016), Temperature changes associated with Urbanization or Land Use Land Cover Change over the state of Odisha, 1st International Conference on Climate Science, Mar. 07, 2016, Guwahati, INDIA
5Mathew, S., R. Venkatesan, S. K. Ghose, D. Swain and G. Vengatesan (2015), “Role of net heat flux terms in warming the Bay of Bengal and Arabian Sea as observed from an in situ platform”, Dynamics of the Indian Ocean: Perspective and Retrospective, International Symposium on the Indian Ocean, Nov. 30 – Dec. 4, 2015, Goa, pp: 542.
6Sil, S., S. Mandal, A. Gangopadhyay, T. Murty and D. Swain (2015), “Analysis of HF Radar Derived Ocean Currents in Northwestern Bay of Bengal”, Dynamics of the Indian Ocean: Perspective and Retrospective, International Symposium on the Indian Ocean, Nov. – Dec. 4, 2015, Goa, pp:129.
1Ghose, S. K., R. Goyal, B. Jangir, A. B. Amere, S. Mathew, K. J. Joseph, R. Venkatesan and D. Swain (2017), “Understanding the response of ocean subsurface parameters to changes in surface met-parameters using high resolution moored buoy observations in the Indian Ocean”, Workshop on Two Decades of Observing the Oceans, Apr. 22, 2017, National Institute of Ocean Technology (MoES), Chennai.
2Jangir, B., D. Swain and T.V.S. Udaya Bhaskar (2016), “Inter-Comparison of INCOIS-GODAS and in situ Tropical Cyclone Heat Potential in the North Indian Ocean”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
3Behera, N., D. Swain and S. Sil (2016), “Physical Processes Induced Variability in Primary Productivity in Southern Indian Ocean”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
4Anand Babu A., R. Goyal, D.Swain and T. D. Vara Prasad (2016), “Long-Period Variability of Relative Heat Content In The Indian Ocean”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
5Lekshmi, K., J. Dash, D. Swain, G. J. Roberts, V. Vinoj and S. Tripathy (2016), “Land Cover Classification for monitoring Urbanization over Bhubaneswar”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
6Lekshmi K., J. Dash, D. Swain, G. J. Roberts, V. Vinoj and S. Tripathy (2016), “Validation of MODIS Land Surface Temperature for Bhubaneswar using ground measurements”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
7Gogoi, P. P., K. Lekshmi, D. Swain and V. Vinoj (2016), “Temperature changes associated with Urbanization/Land Use And Land Cover (LULC) change over Odisha state of India”, National Symposium on Tropical Meteorology: Climate Change and Coastal Vulnerability (TROPMET 2016), Dec. 18 – 21, 2016, Bhubaneswar.
8Swain, D., A. Taori and P. V. N. Rao (2016), “Establishment of a lightning monitoring network”, Workshop on Protecting human beings and animals from lightning, Odisha State Disaster Management Authority, Oct. 25, 2016, Bhubaneswar
9Mahesh Kumar, U., D. Swain and T. Ramanjappa (2016), “Observation of Geophysical Parameters during Tropical Cyclones using Satellite Altimetry” National Space Science Symposium (NSSS-2016), Feb. 9 – 12, 2016, Thiruvananthapuram.
10Ghose, S. K., D. Swain, S. Mathew and R. Venkatesan (2016), “Seasonal variation of local heat flux terms for Bay of Bengal and Arabian Sea as observed from in-situ platformsâ€, Annual Monsoon Workshop-2015 & National Symposium on Understanding and Forecasting the Monsoon Extremes, 2016, Feb. 23-24, Pune, India, Bulletin of the Indian Meteorological Society, Vol. 17, pp: 89.
11Swain, D. and V. C. N. Krishnan (2013), “An one-dimensional modelling approach to prediction of tropical cyclone heat potential”, In: Role of Oceans in Earth System, Eds. M. Baba and K. V. Jayachandran, Proc. Natl. Conf. of Ocean Soc. of India (OSICON’13), 117 – 120.
12Udaya Bhaskar, T. V. S., D. Swain and E. P. Rama Rao (2013), “Relation between sonic layer and mixed layer depth in the Arabian Sea”, In: Role of Oceans in Earth System, Eds. M. Baba and K. V. Jayachandran, Proc. Natl. Conf. of Ocean Soc. of India (OSICON’13), 284 – 288.
13
14Books and Book Chapters
15Swain, D., Mishra, D. R., Vignudelli, S., Lee, C. M., D’Alelio, D., eds. (2022). Impact of COVID-19 Lockdowns on the Regional and Global Oceans and Coasts. Lausanne: Frontiers Media SA. DOI.: 10.3389/978-2-88974-924-9.
16Swain, D. (2022), Tropical Cyclones and Coastal Vulnerability: Assessment and Mitigation, in: Geospatial Technologies for Land and Water Resources Management, Eds.: Pandey A. P., et al., Water Science and Technology Library book series, vol. 103, Springer Nature, Switzerland, 587-621, DOI: https://doi.org/10.1007/978-3-030-90479-1.
17Pattanaik, C., C. Sudhakar Reddy, M. S. R. Murthy and D. Swain (2008), Assessment and Monitoring the Coastal Wetland Ecology Using RS & GIS with reference to Bhitarkanika Mangroves of Orissa, India, in Monitoring and Modelling Lakes and Coastal Environments, ed: P.K. Mohanty, Springer Publications, New York.
18Pattanaik, C., Ch. Sudhakar Reddy, M.S.R. Murthy and D. Swain (2007), Assessment and Monitoring the Coastal Wetland Ecology using RS & GIS with reference to Bhitarkanika Mangroves of Orissa, in Lakes and Coastal Wetlands: Conservation, Restoration and Management, ed: P. K. Mohanty, Capital Publishing Company, New Delhi, India, pp: 478.
19
20Atlases
21Swain, D., T. V. S. Udaya Bhaskar, C. Purna Chand, E. Pattabhi Rama Rao and K. H. Rao (2013), An Atlas of Dynamic Height, Dynamic Height Anomaly and Sea Level Anomaly of the Indian Ocean, NRSC Technical Document No. NRSC-ECSA-OSG-July2013-TR-547, pp: 116, ISRO.
22
23Technical Reports
24Bansal, S., S. K. Sasamal, C. Jayaram, T. V. S. Udaya Bhaskar, D. Swain (2015), OSCAT Wind Stress & Wind Stress Curl Products, ver. 3.0, Technical Document No. NRSC-ECSA-OSG-APR-2015-TR-699, pp. 18.
25Bansal, S., C. Jayaram, T. V. S. Udaya Bhaskar, D. Swain, D. Dutta, E. P. Rama Rao, K. H. Rao (2015), Oceansat-2 Scatterometer daily and two-day composite global surface wind fields: Generation and Evaluation, ver. 1.0, Technical Document No. NRSC-ECSA-OSG-MAR-2015-TR-693, pp. 25.
26Bansal, S., S. K. Sasamal, C. Jayaram, T. V. S. Udaya Bhaskar and D. Swain (2014), OSCAT Wind Stress & Wind Stress Curl Products, Technical Document No. NRSC-ECSA-OSG-NOV-2014-TR-661, pp. 18.
27Swain, D. and M. M. Ali (2013), One-Dimensional Price-Weller-Pinkel Model for Mixed Layer Depth Predictions (ver. 2.0: Automated Module with Graphical User Interface), NRSC Technical Document No. NRSC-ECSA-OSG-Aug2013-TR-549, pp. 24, ISRO.
28Jayaram, C., T. V. S. Udaya Bhaskar, D. Swain, E. Pattabhi Rama Rao, Saurabh Bansal, A. Jeyaram and K. H. Rao (2013), Generation of OSCAT Winds daily Composites, NRSC Technical Document No. NRSC-ECSA-OSG-June2013-TR-532, pp. 42, ISRO.
29Swain, D. and V. C. Navaneeth (2013), Prediction of Depth of 26 °C Isotherm and Tropical Cyclone Heat Potential using a One-Dimensional Ocean Model, NRSC Technical Document No. NRSC-ECSA-OSG-May2013-TR-529, pp: 24, ISRO.
30Swain, D. and M. M. Ali (2011), One-Dimensional Price-Weller-Pinkel Model for Mixed Layer Depth Predictions (ver. 1.0), NRSC Technical Document No. NRSC:RS&GISAA:ESAG:OD:Dec11:TR365, pp. 25, ISRO.
31Ali, M. M., P. V. Nagamani, D. Swain, G. J. Goni, D. Pedro, T. V. S. Udaya Bhaskar, V. V. Gopalakrishna, J. C. Pezzullo, P. Sinha, U. C. Mohanty, D. V. Bhaskararao and M. Rajeevan (2011), Sea Surface Height Anomalies for Meteorological Studies, NRSC Techinal Document No. NRSC-RS&GIS-AS&OG-OD-April’11-TR253, pp. 22, ISRO.
32Swain, D., Md. M. Hossain, M. Rajasekhar and N. V. P. Kiran Kumar (2007), Wavelet de-noising technique for 2.5 MHz Partial Reflection RADAR, IITP-15 Project Report, ISRO-VSSC-TR-0119-0-07, Sept. 2007, pp. 81, ISRO.