No infections have been found and downloading JMicroVision is completelly problem free because of that reason. Various leading antiviruses have been used to test JMicroVision, if it contains any viruses. It is checked for possible viruses and is proven to be 100% clean and safe. JMicroVision installation package is prepared to be downloaded from our fast download servers. All software that you can find here is freely downloadable and legal. Our collection also doesn't contain any keygens, because keygen programs are being used in illegal ways which we do not support. There is no crack, serial number, hack or activation key for JMicroVision present here. Every software that you are able to download on our site is legal. You cannot download any crack or serial number for JMicroVision on this page. Save all measures, data, calibration and preferences in a single project file.Profile (variation of granulometry, density, objects or background).Tools for data collection in one or two dimensions.Image rectification (geometric corrections by control points).Image processing (binary and morphology operations, filtering, segmentation.).Object analysis (size, shape, orientation, texture.Quantify components: objects or background.Read images in TIFF, BMP, FlashPiX, GIF, JPEG, PNG, and PNM formats.It contains tools to quantify either manually or automatically. JMicroVision has been developed especially to analyze high definition images of rock thin sections, but it can easily be used in other domains. Using it does not require to be a specialist of image analysis, basic knowledge is enough. JMicroVision has a simple and intuitive user interface with powerful features. The program contains tools to customize, visualize and export data. Images even larger than 100 MB can be visualized and analyzed. Shneiderman B, Plaisant C (2004) Designing the User Interface: Strategies for Effective Human-Computer Interaction (4th Edition).JMicroVision is an application designed to describe, measure, quantify and classify components of all types of images. Shand SJ (1916) A recording micrometer for rock analysis. Verhandlungen der Kaiserlich-Königslich geologischen Reichsanstalt 143–175 Rosiwal A (1898) Über geometrische gesteinsanalysen, ein einfacher weg zur ziffermässigen festellung des quantitätsverhältnisses der mineralbestandtheile egmengter gesteine. Mock K, Amato J, Bertmaring J (2012) GeoPixelCounter (Version 1.0). Medyckyj-Scott D, Hearnshaw HM (1993) Human Factors in Geographical Information Systems. Lamprecht MR, Sabatini DM, Carpenter AE (2007) Cell Profiler™: free, versatile software for automated biological image analysis. Berkshire Encyclopedia of Human-Computer Interaction. Higgins M (2000) Measurement of crystal size distributions. A semiautomated image analysis technique. Gatlin CL, Schaberg ES, Jordan WH, Kuyatt BL, Smith WC (1993) Point counting on the Macintosh. Am Mineral 34:1–11ĭelesse MA (1848) Procédé méchanique pour determiner la composition des roches. Morgan Kaufmann Publishers IncĬhayes F (1949) A simple point counter for thin section analysis. We compare the time it takes to complete a session of point counting and the tools' usability.Ĭard SK, Mackinlay JD, Shneiderman B (1999) Readings in information visualization: using vision to think. A comparison between this application and similar tools through users' experiences is provided. It provides visual tools like distortion techniques, overview + detail, and statistics to assist the technique. In this contribution, we introduce an interactive visualization application called Rock.AR that reduces the amount of time required to apply this technique and simplify its work flow. Point counting in thin sections is normally conducted through mechanical or electromechanical devices attached to a microscope such devices are very expensive, offer limited functionality, and are very time consuming. Although point counting is very time consuming, it is of common use in several domains including geology, biology, medicine, and materials sciences, among others. Conventionally, this quantification has been determined by point counting performed on thin sections. An example of this is the petrographic study of rock samples, i.e., the quantification of its mineral components and the percentages of each phase present in it. In the field of geology, as in many other fields, a common problem is the analysis of 2D sections.
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