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An effective and robust method for tracking multiple fish in video image based on fish head detection.Automated design of image operators that detect interest pointsCurrent automated 3D cell detection methods are not a suitable replacement for manual stereologic cell countingChapter 17: bioimage informatics for systems pharmacologyDuration of balloon inflation for optimal stent deployment: five seconds is not enough.Fast segmentation of stained nuclei in terabyte-scale, time resolved 3D microscopy image stacks.MRI tools for assessment of microstructure and nephron function of the kidney.Automation of Hessian-Based Tubularity Measure Response Function in 3D Biomedical Images.RDFTools: a software tool for quantifying short-range ordering in amorphous materials.Motion correction for myocardial T1 mapping using image registration with synthetic image estimation.ImgLib2--generic image processing in Java.3D Tree Dimensionality Assessment Using Photogrammetry and Small Unmanned Aerial Vehicles.Automatic detection of abnormalities in mammograms.Necrotic enlargement of cone photoreceptor cells and the release of high-mobility group box-1 in retinitis pigmentosaImage mosaicking using SURF features of line segments.An Automatic Method for Nucleus Boundary Segmentation Based on a Closed Cubic Spline.Are we aware of stent fracture?Multicenter validation of prostate tumor localization using multiparametric MRI and prior knowledge.A multi-scale convolutional neural network for phenotyping high-content cellular images.Performance Analysis of the SIFT Operator for Automatic Feature Extraction and Matching in Photogrammetric Applications.SpotCaliper: fast wavelet-based spot detection with accurate size estimation.Computer-aided diagnosis systems for lung cancer: challenges and methodologies.Local pixel value collection algorithm for spot segmentation in two-dimensional gel electrophoresis research.ACBD5 and VAPB mediate membrane associations between peroxisomes and the ERQuantitative analysis of vascular morphology from 3D MR angiograms: In vitro and in vivo results.Controlled hydrophobic functionalization of natural fibers through self-assembly of amphiphilic diblock copolymer micelles.Cell-accurate optical mapping across the entire developing heart.Nanocrystal size distribution analysis from transmission electron microscopy images.Automated model-based quantitative analysis of phantoms with spherical inserts in FDG PET scans.The Hessian Blob Algorithm: Precise Particle Detection in Atomic Force Microscopy Imagery.Automatic marker detection and 3D position reconstruction using cine EPID images for SBRT verification.An automated approach for cerebral microvascularity labeling in microscopy images.Involvement of Machine Learning for Breast Cancer Image Classification: A Survey.Reconstruction of Banknote Fragments Based on Keypoint Matching Method.Automatic three-dimensional measurement of large-scale structure based on vision metrology.Deformable image registration with inclusion of autodetected homologous tissue features.Psychophysics with junctions in real images.Interesting Interest PointsPerformance evaluation of new colour histogram-based interest point detectorsNotes on Discrete Gaussian Scale Space
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Q27318736-0AEB8A1A-932F-47C2-A1AF-360D2A2585A0Q28302670-2E88FA1D-1D3E-4E77-9574-BE2DEF9ED872Q28364911-5364A9C9-EF96-44DD-A3AC-4E4C33B0619FQ28486894-C3AFE7E4-D779-4C58-8E89-A9FD569C2941Q30409866-11587CB8-AF01-41EC-AD9D-8C6F15A92289Q30573022-88196736-3045-4E82-A512-7B9B6171AC1DQ31130873-19B7EE28-52B0-4B5E-9505-BCE14A89956AQ33855475-FACC4C5E-0450-47D9-B0CC-D2817D75055BQ33962198-FFD80CF7-8618-4E7F-A6CA-90737BDAAF09Q34152173-27B5B10C-D4F4-4EAC-89C5-4838071F136FQ34409628-69F7FB76-4BE9-4DAE-867B-0DB1AD6F2C29Q35783377-D71A056C-6194-4DCF-B477-79A7A19385AEQ35834641-22649F41-86EF-40BB-883A-194F60FF277EQ36110043-09CF0A62-3350-4E51-9082-062AD325E556Q36309040-CEA2F100-FC9E-4128-BF27-A6CC358CE8BAQ37010352-29FA04AF-BB10-4DF5-9107-9E5E528A5CC8Q38155103-FFBB78B6-6CBD-4D8A-8C26-76E8F98A1580Q38403524-2FFBE2BE-11C9-4F6E-BAD6-F7FACA0D6010Q38958887-8AC4F812-1E9F-4933-AA50-9F04C6C34ED0Q40026018-34C65A8B-1429-420E-BD5C-A8AEF67E7177Q40222628-CA74AF56-E9A5-44EA-B7F0-81FA8EFE2504Q41790195-423C3585-6E7D-4FC8-ADBA-092C0E3828FAQ41791486-218E1B41-9F2B-4AED-B0EE-DA143ACF46A0Q42323515-AF4F569C-A501-46ED-8F19-7302E520B1ECQ46600531-E78EB48D-49CE-49DE-8F27-5DA30004747EQ46685307-10723439-058E-490E-8F1C-73606873F769Q47134002-5B4DCC57-B642-4C46-B031-91FFA0080A17Q47345552-32FCB823-D18F-46CB-84C6-08182622E08DQ47392230-92877742-98C4-41F7-AB8C-FF03538D8BBAQ47561676-BF70DB7E-4465-4232-9DA5-18498E7389EDQ48830888-068AE174-BAA0-4E92-B342-6F2C312F8581Q48913015-79EC50D6-B4DD-43FE-AD53-65DCEDF6E493Q49788249-F36F3276-9346-4394-BCF9-5B29DEDE667AQ50985509-1E5EF7C0-E588-4334-A045-A8FFC4587C7AQ51097253-4C95D8FA-EACD-4590-9EE8-AB2239F21935Q51370556-85FB665D-7AE6-46C0-AADB-D0CA67FAD032Q52085497-7BB8807B-9149-45C2-A08A-F60F7F4E61C7Q54929253-D908EF9F-3798-472F-84B4-5D731500D3F2Q56916204-3320BCDF-D50E-4C67-B36D-4522A20128AEQ56928898-1655D036-855D-4E54-AD0C-8427EA34FF99
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description
im Januar 1998 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1998
@uk
type
P356
P2093
Tony Lindeberg
P2888
P304
P356
10.1023/A:1008045108935
P407
P577
1998-01-01T00:00:00Z
P6179
1041767492