1,721,146 research outputs found
Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae)
No full textTaberer, Tabitha R., Giusti, Alessandro (2022): Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae). Ecologica Montenegrina 59: 24-37, DOI: 10.37828/em.2022.59.3, URL: http://dx.doi.org/10.37828/em.2022.59.
Figure 20 in Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae)
No full textFigure 20. Distribution of Achrocerides species (TL = Type locality).Published as part of Taberer, Tabitha R. & Giusti, Alessandro, 2022, Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae), pp. 24-37 in Ecologica Montenegrina 59 on page 35, DOI: 10.37828/em.2022.59.3, http://zenodo.org/record/804426
Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae)
No full textTaberer, Tabitha R., Fiebig, Ralf, Giusti, Alessandro, László, Gyula M. (2023): Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae). Journal of Natural History 57 (1-4): 54-129, DOI: 10.1080/00222933.2022.2157346, URL: http://dx.doi.org/10.1080/00222933.2022.215734
Figures 16-19 in Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae)
No full textFigures 16-19. Genitalia (a: clasping apparatus, b: phallus). Figs. 16—17: Achrocerides flavoantennata comb. n., 16: Male, DRC, Kabunga (gen. slide No. TT 132) (ANHRT); 17: Male, DRC, Moutombe [=Mondombe] (gen. slide No. TT 198) (RMCA). Figs. 18—19: Achrocerides smithi sp. n., 18. HT, Male, Central African Republic, La Maboke (gen. slide No. CHRY-11-84) (RMCA); 19: Male, Central African Republic, La Maboke (gen. slide No. TT 201) (RMCA).Published as part of Taberer, Tabitha R. & Giusti, Alessandro, 2022, Revision of Achrocerides Hering, 1937 (Lepidoptera: Chrysopolomidae), pp. 24-37 in Ecologica Montenegrina 59 on page 32, DOI: 10.37828/em.2022.59.3, http://zenodo.org/record/804426
Delorhachis viridiplaga Karsch 1896
No full textDelorhachis viridiplaga species group Delorhachis viridiplaga Karsch, 1896 Delorhachis charopa (Bethune-Baker, 1909) stat. rev. Delorhachis ochsei sp. nov.Published as part of Taberer, Tabitha R., Fiebig, Ralf, Giusti, Alessandro & László, Gyula M., 2023, Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae), pp. 54-129 in Journal of Natural History 57 (1 - 4) on page 60, DOI: 10.1080/00222933.2022.2157346, http://zenodo.org/record/763680
Figure 187 in Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae)
No full textFigure 187. Distribution map of the D. nigrivenosa species group (TL = type locality).Published as part of Taberer, Tabitha R., Fiebig, Ralf, Giusti, Alessandro & László, Gyula M., 2023, Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae), pp. 54-129 in Journal of Natural History 57 (1-4) on page 122, DOI: 10.1080/00222933.2022.2157346, http://zenodo.org/record/763680
Delorhachis kilosa West 1940
No full textDelorhachis kilosa species group Delorhachis kilosa West, 1940 Delorhachis zambica sp. nov.Published as part of Taberer, Tabitha R., Fiebig, Ralf, Giusti, Alessandro & László, Gyula M., 2023, Taxonomic revision of the genus Delorhachis Karsch 1896 (Lepidoptera: Limacodidae), pp. 54-129 in Journal of Natural History 57 (1 - 4) on page 60, DOI: 10.1080/00222933.2022.2157346, http://zenodo.org/record/763680
Recovering Ball Motion from a Single Motion-Blurred Image
No full textMotion blur often affects the ball image in photographs and video frames in many
sports such as tennis, table tennis, squash and golf. In this work we operate on a
single calibrated image depicting a moving ball over a known background, and show
that motion blurred ball images, usually unwelcome in computer vision, bear more
information than a sharp image. We provide techniques for extracting such infor-
mation ranging from low-level image processing to 3D reconstruction, and present
a number of experiments and possible applications, such as ball localization with
speed and direction measurement from a single image, and ball trajectory recon-
struction from a single long-exposure photograph
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