ImageJ is a public domain Java image processing program inspired by NIH Image for the Macintosh. It runs, either as an online applet or as a downloadable application, on any computer with a Java 1.4 or later virtual machine. Downloadable distributions are available for Windows, Mac OS, Mac OS X and Linux.

References in zbMATH (referenced in 25 articles )

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  1. Amitai, A.; Holcman, D.: Polymer physics of nuclear organization and function (2017)
  2. Calatroni, Luca; van Gennip, Yves; Schönlieb, Carola-Bibiane; Rowland, Hannah M.; Flenner, Arjuna: Graph clustering, variational image segmentation methods and Hough transform scale detection for object measurement in images (2017)
  3. Christophe Deroulers, David Ameisen, Mathilde Badoual, Chloe Gerin, Alexandre Granier, Marc Lartaud: Analyzing huge pathology images with open source software (2017) arXiv
  4. Curtis T. Rueden, Johannes Schindelin, Mark C. Hiner, Barry E. DeZonia, Alison E. Walter, Kevin W. Eliceiri: ImageJ2: ImageJ for the next generation of scientific image data (2017) arXiv
  5. Mahara, Hitoshi; Mizobe, Koshiro; Kida, Katsuyuki; Nakane, Kazuaki: Image analyzing method to detect vague boundaries by using reaction-diffusion system (2017)
  6. Hossain, Shaolie S.: An image-based computational framework for analyzing disease occurrence and treatment outcome in patients with peripheral arterial disease (2016)
  7. Filippov, Alexander; Kovalev, Alexander; Matsumura, Yoko; Gorb, Stanislav N.: Male penile propulsion into spiraled spermathecal ducts of female chrysomelid beetles: a numerical simulation approach (2015)
  8. Heiberger, Richard M.; Holland, Burt: Statistical analysis and data display. An intermediate course with examples in R (2015)
  9. Maroulas, Vasileios; Nebenführ, Andreas: Tracking rapid intracellular movements: a Bayesian random set approach (2015)
  10. Tseng, Zhijie Jack; Flynn, John J.: Convergence analysis of a finite element skull model of \itHerpestes javanicus (Carnivora, Mammalia): implications for robust comparative inferences of biomechanical function (2015)
  11. Corall, Silke; Haraszti, Tamas; Bartoschik, Tanja; Spatz, Joachim Pius; Ludwig, Thomas; Cavalcanti-Adam, Elisabetta Ada: $\alpha 5\beta 1$-integrin and MT1-MMP promote tumor cell migration in 2D but not in 3D fibronectin microenvironments (2014)
  12. McGarrity, K.S.; Sietsma, J.; Jongbloed, G.: Nonparametric inference in a stereological model with oriented cylinders applied to dual phase steel (2014)
  13. Lück, Sebastian; Fichtl, Alois; Sailer, Michaela; Joos, Helga; Brenner, Rolf E.; Walther, Paul; Schmidt, Volker: Statistical analysis of the intermediate filament network in cells of mesenchymal lineage by greyvalue-oriented image segmentation (2013)
  14. Henkel, A.; Müller, J.; Pötzsche, C.: Modeling the spread of Phytophthora (2012)
  15. Heras, Jónathan; Dénès, Maxime; Mata, Gadea; Mörtberg, Anders; Poza, María; Siles, Vincent: Towards a certified computation of homology groups for digital images (2012)
  16. Mayer, Jürgen; Swoger, Jim; Ozga, Aleksandra J.; Stein, Jens V.; Sharpe, James: Quantitative measurements in 3-dimensional datasets of mouse lymph nodes resolve organ-wide functional dependencies (2012)
  17. Ehret, Alexander E.; Böl, Markus; Itskov, Mikhail: A continuum constitutive model for the active behaviour of skeletal muscle (2011)
  18. Kaya, Bulent; Oysu, Cuneyt; Ertunc, Huseyin M.: Force-torque based on-line tool wear estimation system for CNC milling of Inconel 718 using neural networks (2011) ioport
  19. Ng, Hoi Dick; Abderrahmane, Hamid Ait; Bates, Kevin R.; Nikiforakis, Nikos: The growth of fractal dimension of an interface evolution from the interaction of a shock wave with a rectangular block of SF6 (2011)
  20. Ambrosi, D.; Duperray, A.; Peschetola, V.; Verdier, C.: Traction patterns of tumor cells (2009)

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