2025-03-14T16:15:53Z MOSDAC,SAC-ISRO admin@mosdac.gov.in 128901 1 50 3DIMG_18JUN2024_2330_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13737095

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-19T00:00:00Z 2024-06-18T23:30:00Z/2024-06-19T00:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2300_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736997

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T23:30:00Z 2024-06-18T23:00:00Z/2024-06-18T23:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2230_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736877

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T23:00:00Z 2024-06-18T22:30:00Z/2024-06-18T23:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2200_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736875

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T22:30:00Z 2024-06-18T22:00:00Z/2024-06-18T22:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2130_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736803

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T22:00:00Z 2024-06-18T21:30:00Z/2024-06-18T22:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2100_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736829

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T21:30:00Z 2024-06-18T21:00:00Z/2024-06-18T21:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2030_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736831

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T21:00:00Z 2024-06-18T20:30:00Z/2024-06-18T21:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_2000_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736317

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T20:30:00Z 2024-06-18T20:00:00Z/2024-06-18T20:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1930_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13736249

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T20:00:00Z 2024-06-18T19:30:00Z/2024-06-18T20:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1900_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735847

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T19:30:00Z 2024-06-18T19:00:00Z/2024-06-18T19:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1830_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735769

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T19:00:00Z 2024-06-18T18:30:00Z/2024-06-18T19:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1800_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735703

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T18:30:00Z 2024-06-18T18:00:00Z/2024-06-18T18:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1700_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735551

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T17:30:00Z 2024-06-18T17:00:00Z/2024-06-18T17:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1630_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735467

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T17:00:00Z 2024-06-18T16:30:00Z/2024-06-18T17:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1600_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735373

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T16:30:00Z 2024-06-18T16:00:00Z/2024-06-18T16:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1530_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735267

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T16:00:00Z 2024-06-18T15:30:00Z/2024-06-18T16:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1500_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735187

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T15:30:00Z 2024-06-18T15:00:00Z/2024-06-18T15:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1430_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735099

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T15:00:00Z 2024-06-18T14:30:00Z/2024-06-18T15:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1400_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13735001

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T14:30:00Z 2024-06-18T14:00:00Z/2024-06-18T14:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1330_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13734929

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T14:00:00Z 2024-06-18T13:30:00Z/2024-06-18T14:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1300_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13734851

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T13:30:00Z 2024-06-18T13:00:00Z/2024-06-18T13:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1230_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13734745

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T13:00:00Z 2024-06-18T12:30:00Z/2024-06-18T13:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1200_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13734671

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T12:30:00Z 2024-06-18T12:00:00Z/2024-06-18T12:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_1030_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13734375

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T11:00:00Z 2024-06-18T10:30:00Z/2024-06-18T11:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0630_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13732325

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T07:00:00Z 2024-06-18T06:30:00Z/2024-06-18T07:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0600_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13732225

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T06:30:00Z 2024-06-18T06:00:00Z/2024-06-18T06:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0530_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13732237

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T06:00:00Z 2024-06-18T05:30:00Z/2024-06-18T06:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0400_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731893

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T04:30:00Z 2024-06-18T04:00:00Z/2024-06-18T04:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0330_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731767

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T04:00:00Z 2024-06-18T03:30:00Z/2024-06-18T04:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0300_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731669

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T03:30:00Z 2024-06-18T03:00:00Z/2024-06-18T03:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0230_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731537

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T03:00:00Z 2024-06-18T02:30:00Z/2024-06-18T03:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0200_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731461

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T02:30:00Z 2024-06-18T02:00:00Z/2024-06-18T02:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0130_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731357

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T02:00:00Z 2024-06-18T01:30:00Z/2024-06-18T02:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0100_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731269

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T01:30:00Z 2024-06-18T01:00:00Z/2024-06-18T01:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0030_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731185

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T01:00:00Z 2024-06-18T00:30:00Z/2024-06-18T01:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_18JUN2024_0000_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13731087

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-18T00:30:00Z 2024-06-18T00:00:00Z/2024-06-18T00:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2300_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730921

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T23:30:00Z 2024-06-17T23:00:00Z/2024-06-17T23:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2230_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730819

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T23:00:00Z 2024-06-17T22:30:00Z/2024-06-17T23:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2200_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730697

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T22:30:00Z 2024-06-17T22:00:00Z/2024-06-17T22:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2130_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730615

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T22:00:00Z 2024-06-17T21:30:00Z/2024-06-17T22:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2100_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730535

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T21:30:00Z 2024-06-17T21:00:00Z/2024-06-17T21:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2030_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730527

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T21:00:00Z 2024-06-17T20:30:00Z/2024-06-17T21:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_2000_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730383

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T20:30:00Z 2024-06-17T20:00:00Z/2024-06-17T20:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1930_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730299

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T20:00:00Z 2024-06-17T19:30:00Z/2024-06-17T20:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1900_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13730055

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T19:30:00Z 2024-06-17T19:00:00Z/2024-06-17T19:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1800_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13729905

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T18:30:00Z 2024-06-17T18:00:00Z/2024-06-17T18:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1730_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13729823

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T18:00:00Z 2024-06-17T17:30:00Z/2024-06-17T18:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1700_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13729641

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T17:30:00Z 2024-06-17T17:00:00Z/2024-06-17T17:30:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1630_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13729535

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T17:00:00Z 2024-06-17T16:30:00Z/2024-06-17T17:00:00Z 44.5,-10.0,105.5,45.5 3DIMG_17JUN2024_1600_L2C_FOG_V01R00.h5 https://mosdac.gov.in/apios/datasets.atom?gId=13729449

Night time FOG is derived from TIR-1 and MIR channel brightness temperature over Indian region. However, for day time visible channel reflectance and TIR-1 channel brightness temperature has been used. The algorithm involves detection of different thresholds following an image based approach to detect FOG

2024-06-17T16:30:00Z 2024-06-17T16:00:00Z/2024-06-17T16:30:00Z 44.5,-10.0,105.5,45.5