What's New in PixInsight 1.7.4?
PixInsight 1.7.4 introduces several new features and improvements, such as:
A new ImageSolver script that can automatically solve astrometric problems in any image, such as plate scale, orientation, coordinates, and distortion parameters. This script can also generate synthetic star fields and annotate images with celestial objects and constellations.
A new StarAlignment tool that can align images based on star patterns, without requiring any prior astrometric information. This tool can also perform image registration, distortion correction, and mosaic composition.
A new Deconvolution tool that can restore images degraded by atmospheric turbulence, optical aberrations, and instrumental defects. This tool can also apply noise reduction and sharpening filters to enhance image details.
A new PhotometricColorCalibration tool that can automatically calibrate the color balance of images based on the spectral types of stars. This tool can also correct for atmospheric extinction and color excess due to interstellar dust.
A new DynamicPSF tool that can measure the point spread function (PSF) of an image by fitting Gaussian or Moffat models to selected stars. This tool can also generate synthetic PSFs and apply them to images for deconvolution or simulation purposes.
A new LocalNormalization tool that can normalize the intensity and background levels of images to improve their compatibility for image integration. This tool can also apply local contrast enhancement and noise reduction filters to improve image quality.
A new LinearFit tool that can perform linear regression between two images to match their intensity levels and gradients. This tool can also apply scaling, offset, and rotation transformations to align images geometrically.
A new SubframeSelector tool that can evaluate the quality of subframes (individual exposures) based on several criteria, such as signal-to-noise ratio, full width at half maximum, eccentricity, and star support. This tool can also reject outliers and select the best subframes for image integration.
A new ImageIntegration tool that can combine multiple images into a single high-quality image using various pixel rejection algorithms, such as sigma clipping, Winsorized sigma clipping, linear fit clipping, percent clip, and averaged sigma clip. This tool can also apply pixel interpolation methods, such as nearest neighbor, bilinear, bicubic spline, and Lanczos.
A new DrizzleIntegration tool that can perform image integration using the drizzle algorithm, which preserves the original resolution and reduces aliasing artifacts caused by undersampling. This tool can also apply distortion correction and pixel weighting to improve image quality.
A new MultiscaleLinearTransform tool that can perform linear transformations on multiple scales of an image using wavelet decomposition. This tool can also apply noise reduction, sharpening, contrast enhancement, and edge-preserving smoothing filters to improve image details.
A new MultiscaleMedianTransform tool that can perform median transformations on multiple scales of an image using wavelet decomposition. This tool can also apply noise reduction, sharpening, contrast enhancement, and edge-preserving smoothing filters to improve image details.
A new HistogramTransformation tool that can perform histogram equalization and normalization on an image to adjust its brightness and contrast levels. This tool can also apply gamma correction and logarithmic scaling to enhance image details.
A new CurvesTransformation tool that can perform curves adjustment on an image to modify its brightness and contrast levels using spline interpolation. This tool can also apply color balance and saturation adjustments to enhance image colors.
A new ColorSaturation tool that can perform saturation adjustment on an image to increase or decrease the intensity of colors. This tool can also apply hue and chrominance adjustments to modify the color tones.
A new SCNR tool that can perform selective color noise reduction on an image to remove unwanted color casts caused by light pollution, atmospheric dispersion, or sensor defects. This tool can also apply color protection and neutralization filters to preserve the natural colors of the image.
A new MorphologicalTransformation tool that can perform morphological operations on an image, such as erosion, dilation, opening, closing, median, and morphological gradient. These operations can modify the shape and size of image features, such as stars, galaxies, nebulae, and noise.
A new Convolution tool that can perform convolution on an image using a user-defined kernel matrix. This operation can apply various filters to an image, such as blur, sharpen, edge detection, emboss, and custom effects.
A new UnsharpMask tool that can perform unsharp masking on an image to enhance its details by subtracting a blurred version of the image from the original image. This operation can also apply thresholding and clipping filters to control the amount and range of sharpening.
A new HDRMultiscaleTransform tool that can perform high dynamic range (HDR) transformations on an image using multiscale decomposition. This operation can compress the dynamic range of an image to reveal details in both bright and dark regions.
A new HDRComposition tool that can perform HDR composition on multiple images with different exposure levels to create a single HDR image. This operation can also apply tone mapping and exposure fusion algorithms to render the HDR image in a realistic or artistic way.
A new CloneStamp tool that can perform cloning on an image by copying pixels from a source region to a target region. This operation can be used to remove or replace unwanted elements in an image, such as dust spots, scratches, wires, or objects.
A new Inpainting tool that can perform inpainting on an image by filling in missing or damaged pixels using information from the surrounding pixels. This operation can be used to restore or enhance images that have been corrupted by noise, artifacts, or defects.
A new StarNet tool that can perform star removal on an image using a deep neural network trained on thousands of astrophotography images. This operation can be used to isolate the diffuse nebulae and galaxies from the stars in an image, or to create starless backgrounds for artistic purposes.
A new Annotation tool that can perform annotation on an image by adding text labels, arrows, shapes, or symbols to highlight or explain certain features in the image. This operation can be used to create informative or educational images for presentations, publications, or tutorials.
A new PixelMath tool that can perform pixel math on one or more images using a user-defined expression. This operation can be used to create complex or custom effects on images by applying mathematical operations and functions to the pixel values.
A new BatchPreprocessing script that can perform batch preprocessing on a set of raw images captured by a digital camera or a CCD device. This script can automatically calibrate, register, and integrate the raw images using the best settings and tools available in PixInsight.
A new BatchFormatConversion script that can perform batch format conversion on a set of images in different formats. This script can automatically convert the images to a common format using the best settings and options available in PixInsight.
A new ImageContainer window that can display multiple images in a single window using tabs or thumbnails. This window can also perform basic operations on the images, such as zooming, panning, rotating, flipping, cropping, resizing, saving, exporting, printing, and copying.
A new ProcessContainer window that can display multiple processes in a single window using tabs or thumbnails. This window can also perform basic operations on the processes, such as editing, executing, saving, loading, importing, exporting, duplicating, and deleting.
A new ProcessConsole window that can display the output messages generated by the processes and scripts executed in PixInsight. This window can also perform basic operations on the messages, such as filtering, searching, copying, saving, and clearing.
A new Preferences dialog that can display and modify the global settings and options of PixInsight. This dialog can also perform basic operations on the preferences, such as importing, exporting, resetting, and applying.
A new Workspace concept that can store and restore the state of the PixInsight application, including the open images, processes, windows, toolbars, menus, and preferences. This concept can also perform basic operations on the workspaces, such as creating, loading, saving, deleting, and switching.
A new Project concept that can organize and manage a set of related images and processes in a hierarchical structure. This concept can also perform basic operations on the projects, such as creating, opening, closing, saving, importing, exporting, adding, removing, and renaming.
A new HistoryExplorer window that can display and navigate the history of an image, including the processes and scripts applied to it. This window can also perform basic operations on the history, such as undoing, redoing, reverting, deleting, saving, loading, and applying.
A new ProcessExplorer window that can display and manage the processes and scripts available in PixInsight. This window can also perform basic operations on the processes and scripts, such as executing, editing, saving, loading, importing, exporting, duplicating, deleting, and organizing.
A new ScriptEditor window that can create and edit scripts in JavaScript or PCL (PixInsight Class Library) languages. This window can also perform basic operations on the scripts, such as executing, debugging, formatting, commenting, searching, replacing, and inserting.
A new Console window that can execute commands in JavaScript or PCL languages interactively. This window can also perform basic operations on the commands, such as evaluating, printing, completing, recalling, copying, saving, and clearing.
A new Documentation window that can display the online documentation of PixInsight. This window can also perform basic operations on the documentation, such as browsing, searching, bookmarking, and printing.
Why Use PixInsight 1.7.4?
PixInsight 1.7.4 is a powerful image processing platform for astrophotography that offers several advantages, such as:
It is modular and open-architecture, which means that it can be extended and customized by third-party developers and users. PixInsight supports a plugin system that allows adding new processes, scripts, file formats, and GUI elements. PixInsight also supports a scripting system that allows automating tasks and creating complex workflows.
It is portable and cross-platform, which means that it can run on different operating systems and hardware configurations. PixInsight supports FreeBSD, Linux, Mac OS X and Windows platforms, and can handle images of any size, bit depth, color space, and pixel format. PixInsight also supports parallel processing and multithreading to take advantage of multicore CPUs and GPUs.
It is professional and accurate, which means that it can perform image processing tasks with a high level of control and precision. PixInsight uses advanced algorithms and techniques to process images, such as wavelet decomposition, multiscale analysis, linear algebra, numerical optimization, machine learning, and artificial intelligence. PixInsight also uses rigorous standards and conventions to handle images, such as FITS format, WCS coordinates, ICC profiles, and CIE color spaces.
It is comprehensive and versatile, which means that it can cover all the stages of image processing, from raw data acquisition to final presentation. PixInsight includes a wide range of tools and functions to perform image calibration, registration, integration, enhancement, restoration, analysis, annotation, and conversion. PixInsight also supports various types of images and data, such as astronomical images, terrestrial images, medical images, scientific images, and generic images.
It is innovative and creative, which means that it can offer new solutions and possibilities for image processing. PixInsight introduces novel concepts and features that are not available in other software, such as dynamic processes, process icons, process containers, image containers, workspaces, projects, history explorer, process explorer, script editor, console, documentation, and more. PixInsight also provides unique tools and functions that are specially designed for astrophotography, such as image solver, star alignment, deconvolution, photometric color calibration, dynamic PSF, local normalization, linear fit, subframe selector, image integration, drizzle integration, multiscale linear transform, multiscale median transform, histogram transformation, curves transformation, color saturation, SCNR, morphological transformation, convolution, unsharp mask, HDR multiscale transform, HDR composition, clone stamp, inpainting, StarNet, and annotation.
How to Get PixInsight 1.7.4?
PixInsight 1.7.4 is available for download from the official website of PixInsight. To get PixInsight 1.7.4, you need to follow these steps:
Register an account on the PixInsight website and activate it by email.
Purchase a PixInsight license from the PixInsight website and activate it by email.
Download the PixInsight installer for your operating system from the PixInsight website and run it.
Follow the instructions on the installer to install PixInsight on your computer.
Launch PixInsight and enter your license key when prompted.
Enjoy PixInsight 1.7.4!
Conclusion
PixInsight 1.7.4 is a powerful image processing platform for astrophotography that offers several features and advantages over other software. It is modular, open-architecture, portable, professional, accurate, comprehensive, versatile, innovative, and creative. It can perform all the stages of image processing, from raw data acquisition to final presentation. It can handle various types of images and data with a high level of control and precision. It can also offer new solutions and possibilities for image processing with novel concepts and features. If you are interested in astrophotography and want to get the best results from your images, you should definitely try PixInsight 1.7.4!
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The article is already quite long and covers most of the aspects of PixInsight 1.7.4. However, if you want me to continue writing, I can add some more sections, such as: - A Tutorial section that can provide a step-by-step guide on how to use some of the most common or useful tools and functions in PixInsight 1.7.4, such as image solver, star alignment, image integration, photometric color calibration, deconvolution, HDR composition, and StarNet. - A Comparison section that can compare PixInsight 1.7.4 with other popular image processing software for astrophotography, such as Photoshop, GIMP, Astro Pixel Processor, and DeepSkyStacker. This section can highlight the strengths and weaknesses of each software and provide some examples of images processed with them. - A Gallery section that can showcase some of the best images processed with PixInsight 1.7.4 by professional and amateur astronomers from around the world. This section can also provide some details and tips on how the images were captured and processed. - A Resources section that can provide some links to useful websites, forums, blogs, videos, books, and courses related to PixInsight 1.7.4 and astrophotography in general. This section can also provide some recommendations and reviews on the best equipment and accessories for astrophotography. Which section would you like me to write next?
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