Datasets:

mikkoim
/

aquamonitor

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	1_Ch-val1_267_2024_05_02-09-14-34-059	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_KaFu-sii3_152_2024_03_06-15-24-43-946	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Tan-vie1_82_2024_06_03-09-37-14-083	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-haa1_37_2024_04_24-08-17-41-461	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-hii1_10_2024_06_03-12-21-38-733	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_TiWa-kuo1_7_2024_04_17-09-16-45-475	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_AsAq-pus3_10_2024_04_18-07-35-41-061	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_AsAq-kak2_9_2023_10_27-07-19-54-598	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_789_2024_05_15-07-55-31-391	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_B-B5-CaHo-hau1-5_1_2023_05_08-10-24-33-624	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_1581_2024_05_15-10-38-42-200	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso1_333_2024_05_10-12-12-37-277	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ol-iva1_37_2024_06_27-08-29-51-348	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Tan-iso2_21_2023_10_17-16-52-43-291	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_D-B3-KaFu-iso3-4_1_2023_05_10-09-19-56-380	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-hii2_40_2024_06_04-07-07-26-123	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_1050_2024_05_15-08-58-36-080	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-kuo1_51_2024_04_29-09-47-17-797	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_KaFu-vii1_48_2024_01_02-12-13-20-113	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_1891_2024_05_15-11-53-11-266	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_F-C3-AsAq-koy1-4_2_2023_05_11-14-27-42-853	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Hydia-iva1_25_2024_06_26-09-27-59-587	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-val2_103_2024_04_30-10-34-37-926	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_1562_2024_05_15-10-36-29-312	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-kaj1_7_2024_01_04-13-14-20-736	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso1_60_2024_05_10-10-23-22-670	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_OuTu-iso1_83_2024_05_16-12-52-55-862	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso1_119_2024_05_10-10-30-06-507	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Q-C6-KaFu-vii1-4_2_2023_05_23-11-42-57-167	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-pus2_35_2023_11_23-14-01-57-662	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ol-haa2_38_2024_04_24-12-25-28-263	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-nie2_83_2024_04_25-14-07-24-040	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ol-koy2_74_2024_03_20-11-36-56-524	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-kuo1_106_2024_04_26-13-31-37-019	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-ull1_176_2024_06_24-09-14-47-335	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_TiWa-kuo2_5_2023_11_21-18-57-20-692	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-val2_63_2024_04_30-10-14-09-278	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Mi-sii1_111_2024_03_19-08-59-01-188	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_A-C3-CaHo-haa1-3_1_2023_05_04-11-40-33-430	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Hydrac-iso3_6_2023_10_19-07-29-35-939	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso2_195_2024_05_13-12-16-07-280	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Tan-iso2_30_2024_05_08-08-16-37-354	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-val3_14_2024_04_30-09-08-45-321	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Mi-sii1_243_2024_03_19-09-19-32-377	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_L-G8-StLa-pus1-1_1_2023_05_17-15-19-31-327	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-val1_651_2024_05_02-11-12-03-469	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-sii3_171_2024_03_06-16-14-22-871	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_11-A9-CaLu-kak3-6_1_2023_07_27-12-03-09-769	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_B-H8-CaHo-iso1-1_1_2023_05_09-10-11-16-922	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso3_1143_2024_05_15-09-15-42-239	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_15-C9-Mi-sii1-29_1_2023_08_09-12-12-00-227	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_G-B2-KaFu-kaj1-1_2_2023_05_12-10-00-00-181	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ol-hii2_47_2024_06_04-12-44-01-388	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-kak3_7_2023_10_27-09-01-13-969	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-kom3_85_2024_06_28-12-42-52-772	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-val1_781_2024_05_02-12-07-58-709	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_AsAq-kaj1_35_2023_10_19-08-12-40-343	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_N-B11-CaLu-lop1-3_1_2023_05_19-14-11-56-451	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_E-F11-KaFu-iso3-24_2_2023_05_11-10-17-44-575	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_CaHo-kuh2_48_2023_11_21-16-05-44-659	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-ala1_16_2023_10_05-08-16-34-217	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ol-iso1_40_2024_05_13-08-55-30-089	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso1_422_2024_05_07-11-02-44-685	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-val2_6_2024_04_17-13-25-42-620	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-pus1_33_2023_11_23-12-25-08-827	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_KaFu-nie2_68_2024_04_17-09-42-11-706	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso2_132_2024_05_07-08-50-20-016	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso2_913_2024_05_14-07-37-42-513	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso3_535_2024_05_14-13-50-48-823	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso3_1681_2024_05_15-10-51-09-911	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_EpVu-haa1_2_2024_04_16-13-35-36-725	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-iso3_35_2024_05_06-10-11-57-921	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_AsAq-kur2_12_2023_11_22-12-36-14-957	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-pus2_41_2023_11_23-14-02-26-263	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_D-C6-CaHo-kak2-1_1_2023_05_10-10-19-19-757	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_5-D8-LiPhidae-kir1-5_1_2023_07_14-12-09-19-090	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-val2_29_2024_01_02-10-20-52-310	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-pus3_22_2024_03_27-08-31-06-719	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_KaFu-sii3_204_2024_03_06-15-42-02-890	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ol-pus2_21_2024_04_23-08-55-49-955	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso2_680_2024_05_13-13-12-17-653	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_KaFu-kur1_21_2024_03_26-08-23-10-072	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_CaHo-sii1_107_2024_03_19-10-29-21-118	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_AsAq-kuh2_34_2023_11_21-15-47-15-603	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_144_2024_05_14-12-48-11-402	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-iso3_864_2024_05_15-08-05-35-133	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ch-pus2_36_2023_11_23-14-02-03-774	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_CaHo-vie1_18_2024_05_31-08-55-03-479	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ol-kuh1_22_2023_11_10-14-18-29-309	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ch-kom1_95_2024_06_28-10-01-54-063	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_14-B12-Ce-vii2-1_1_2023_08_07-16-51-22-394	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Le-iso2_644_2024_05_13-13-07-01-685	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Le-sii1_62_2024_03_19-08-25-34-667	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Hydia-ull1_4_2024_06_06-07-33-17-738	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Nem-iso1_12_2023_09_06-08-13-32-122	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	1_Ce-val2_3_2024_04_30-07-45-00-482	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar
	2_Ol-kom2_44_2024_07_02-09-40-55-748	hf://datasets/mikkoim/aquamonitor@8cf9b08b7c4988b6f77a797b0ded0eee2e9c4537/images/aquamonitor-00000.tar

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Dataset Card for AquaMonitor

Dataset Details

Dataset Description

AquaMonitor is a large, multi-modal multi-view image sequence dataset of aquatic invertebrates, collected during two years of operational environmental monitoring. It allows benchmarking computer vision algorithms for fine-grained classification, open-set detection, out-of-distribution detection and domain adaptation, all which are problems encountered in real-life monitoring situations. The dataset has 2.7M images from 43,189 specimens, DNA sequences for 1358 specimens, and dry mass and size measurements for 1494 specimens, making it also one of the largest biological multi-view and multi-modal datasets collected with an uniform setup.

Dataset Sources

Dataset handling library: https://github.com/mikkoim/aquamonitor

Dataset repository: https://github.com/mikkoim/aquamonitor-codes

Pretrained models: https://huggingface.co/mikkoim/aquamonitor-baselines

Uses

Direct Use

The dataset is intended for benchmarking computer vision methods applied to aquatic invertebrate identification. Specifically, it is used to define and evaluate performance on three benchmark tasks:

Monitoring benchmark: Reflecting real-life deployment challenges, including open-set recognition, out-of-distribution detection, distribution shift, and extreme class imbalance. This benchmark uses data from different years for training and testing (2021 train, 2022 test/val)
Classification benchmark: A standard fine-grained visual categorization task for classes with sufficient data.
Few-shot benchmark: Targeting categories with limited training examples to evaluate methods for learning new classes with few examples.

Dataset Structure

Folders

class_maps: Contains files that are used for mapping class strings to indices

dna: contains metadata files for the DNA subset

images: image files in WebDataset format (~108GB)

thumbnail: Resized and contrast-adjusted thumbnail images in the same structure as the main dataset for visualization purposes (~10GB)

Files

aquamonitor.parquet.gzip: Full dataset metadata, without train-test-splits. Each row corresponds to a single image.

aquamonitor-individual.parquet.gzip: Full dataset metadata, aggregated by individual.

aquamonitor-monitor.parquet.gzip: Full dataset metadata, with train-test-splits for the monitor task.

aquamonitor-classif.parquet.gzip: Full dataset metadata, with train-test-splits for the classification task.

aquamonitor-fewshot.parquet.gzip: Full dataset metadata, with train-test-splits for the few-shot task.

aquamonitor-biomass.parquet.gzip: Metadata for biomass estimation, with additional columns for biomass-related metadata.

Columns

See README-metadata.md for metadata column descriptions.

Usage

Using Huggingface datasets:

import datasets
ds = datasets.load_dataset("mikkoim/aquamonitor", data_dir="images", split="train", cache_dir="aquamonitor")

The full dataset will consume ~100GB of disk space, and it is recommended to cache it to a known location.

For testing, you can use the thumbnail dataset (~10GB):

ds_thumbs = datasets.load_dataset("mikkoim/aquamonitor", data_dir="thumbnail", split="train", cache_dir="aquamonitor")

You can also download the raw .tar partitions from here

The metadata can be accessed straight from Huggingface using pandas:

import pandas as pd
df = pd.read_parquet("https://huggingface.co/datasets/mikkoim/aquamonitor/resolve/main/aquamonitor-monitor.parquet.gzip")
df_train = df.query("fold0 == 'train'")
df_val = df.query("fold0 == 'val'")

The benchmark splits are in separate files:

df_classif = pd.read_parquet("https://huggingface.co/datasets/mikkoim/aquamonitor/resolve/main/aquamonitor-classif.parquet.gzip")
df_fewshot = pd.read_parquet("https://huggingface.co/datasets/mikkoim/aquamonitor/resolve/main/aquamonitor-fewshot.parquet.gzip")

Dataset Creation

Source Data

Data Collection and Processing

The samples are from a national monitoring programme for agriculture and forestry diffuse loading impacts on streams and lakes (MaaMet-monitoring) More information in Finnish.

The samples imaged are only from lakes and not streams.

Comparing our specimen counts to a national monitoring database, we were able to image 89.58% (out of 25,546) of 2021 specimens and 72.65% (out of 27,952) of 2022 specimens.

Taxonomic coverage is 152 taxa out of 161 taxa encountered during the two monitoring years.

The specimens were imaged using the BIODISCOVER device and its software.

Detailed code repositories for all phases of dataset processing can be found from https://github.com/mikkoim/aquamonitor-codes

Bias, Risks, and Limitations

The dataset is limited to Finnish lake invertebrates, collected with kick-sampling methods.

Downloads last month: 212

Size of the auto-converted Parquet files (First 5GB):

4.99 GB

Number of rows (First 5GB):

132,100

Estimated number of rows:

2,758,429