M. Taşyürek Et Al. , "DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache," NEURAL COMPUTING AND APPLICATIONS , vol.36, pp.1237-1259, 2024
Taşyürek, M. Et Al. 2024. DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache. NEURAL COMPUTING AND APPLICATIONS , vol.36 , 1237-1259.
Taşyürek, M., Türkdamar, M. U., & Öztürk, C., (2024). DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache. NEURAL COMPUTING AND APPLICATIONS , vol.36, 1237-1259.
Taşyürek, MURAT, Mehmet Uğur Türkdamar, And Celal Öztürk. "DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache," NEURAL COMPUTING AND APPLICATIONS , vol.36, 1237-1259, 2024
Taşyürek, MURAT Et Al. "DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache." NEURAL COMPUTING AND APPLICATIONS , vol.36, pp.1237-1259, 2024
Taşyürek, M. Türkdamar, M. U. And Öztürk, C. (2024) . "DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache." NEURAL COMPUTING AND APPLICATIONS , vol.36, pp.1237-1259.
@article{article, author={MURAT TAŞYÜREK Et Al. }, title={DSHFS: a new hybrid approach that detects structures with their spatial location from large volume satellite images using CNN, GeoServer and TileCache}, journal={NEURAL COMPUTING AND APPLICATIONS}, year=2024, pages={1237-1259} }