![]() Uses Java and works on Linux, Mac, Windows, and SolarisĪpplications are diverse, and especially useful for microscope images, e.g. Manual, Help files, and plugins are also available at. * 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 JMicroVision has been developed especially to analyze high definition images of rock thin sections, but it can easily be used in other domains. Moreover, the magnifying lens and the multiview tool allow a simultaneous view of several images, each one having its own zoom coefficient while keeping a joint position in the center. Like a microscope, it enables a dynamic observation of a specimen with the possibility of combining various focus or modes of lighting (polarized light, fluorescence …). JMicroVision contains tools having various degrees of automation in order to handle with complex and varied images. It has an intuitive user interface with powerful features and supports very large images (more than 1 GB, even with a computer with little memory). The results of the research are applicable for water resources and water use management of plantation forests.JMicroVision was designed to describe, measure, quantify and classify components of all kinds of images. The positive role of reforestation in relation to the dust storm damage reduction rounded and included the use of water should not be ignored. ![]() The amounts of groundwater extraction by Haloxylon aphyllum forest was estimated about 1.614 million cubic meters per year. The results showed that the 4423640 Haloxylon aphyllum existed in the Yazd-Ardakan plain and there is 56 million cubic meters of shortage in reservoir capacity. In next step, using GMS 8.3 and Modflow model, the aquifer balance and effective storage coefficient were obtained for calculating groundwater extraction of Haloxylon aphyllum in Yazd-Ardakan aquifer. ![]() Then considering annual water needs of Haloxylon aphyllum- obtained from lysimetric data of previous studies- and number of Haloxylon aphyllum counted from Google Earth images, water extraction of planted forest was calculated. To achieve this, numbers of Haloxylon aphyllum shrubs were counted using JMicrovision software on the preprocessed Google Earth images. Present study was conducted to determine the effects of Haloxylon aphyllum artificial forest on groundwater extraction from Yazd-Ardakan aquifer. One of the basic parameters of the water management is the accurate calculation of water balance components. To achieve this effective management, appropriate water resources planning can be utilized. Due to some factors such as limitation of water resources, increasing demands in all aspects and also the impact of climate changes, the optimal management of water resources and their efficient use is an essential task. ![]()
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