Orion 52084 instruction manual Combine Methods, Filter

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Set the Screen Stretch Window to Medium (or otherwise manually adjust for best image appearance), and use Save under the File menu to save your image. You can now perform any wanted imaging processing.

Combine Methods

We previously mentioned in “Imaging Deep Sky Objects” that Average is one of the methods to combine your images. There are three other methods that will achieve slightly different results: Sum, Median, and Sigma-Clip. Each of these methods will improve your image by stacking it, but each one combines the images in different ways.

1.Average sums all the pixels and divides by the number of images chosen to combine.

2.Sum adds up all the pixels in the images. This will increase the Max Pixel value and the offset in the Screen Stretch window. If you Sum the image, the file should be saved as a fit in IEEE Float (beyond 16 bits) to preserve all the data in the image.

3.Median takes the middle pixel value from all of the images. The Median mode is useful when some pixels are extremely bright or dark (hot/dark pixels, cosmic ray hits). If Median mode is used, a Normalize option is available. Normalize will remove differences in the image scaling which could interfere with the median processing.

4.Sigma-Clipcombines the best features of Average and Median. Sigma- Clip is the best choice for removing unwanted noise, hot pixels and satel- lite trails. It works like Average but also calculates the standard deviation of the averaged pixel values. The Sigma Factor will determine how many pixels from the standard deviation are discarded. The lower the Sigma Factor, the more pixels are discarded. 0.5 is a good value to start with. A new average is calculated without the discarded pixel. This value is assigned to the corresponding pixel in the output image.

Filter

Filtering an image is an operation that emphasizes certain characteristics of an image while suppressing others. MaxIm DL Essentials supports two kinds of filters: Unsharp Mask and Gaussian Blur. In the Filter window select which one of these filter types you would like to apply.

Unsharp Mask is a method of sharpening or high-pass filtering an image. It amounts to subtracting a low-pass filtered version of an image from itself. The low-pass filtered version is called the mask. The Low-Pass Filter itself can be set to Mild or Strong for different effect. Use Mask Weight to control the strength of the mask applied to the image. The Mask Weight is in percent; the higher the number, the stronger the mask.

Gaussian Blur is a method of blurring an image. It can be used to suppress noise in an image at the expense of sharpness. The Radius setting controls

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Contents Orion StarShoot Pro Deep Space Color Imager Table of Contents Page System Requirements refer to Figure Parts ListGetting Started TelescopeSecuring ThumbscrewTelescope Mount ComputerSoftware Installation Software Driver InstallationPower Camera Driver Installation To install the camera driver on a Windows XP computerTo install the camera driver on Windows Vista computer Select Locate and install driver software recommendedGetting Started During Daylight Obtaining First ImagesPage Page Screen Stretch Window Astronomical Imaging Focusing Page Imaging Deep Sky Objects To startSet the Mode in the Camera Control Window to Dark Raw Dark FramesFlat Fields Set the Mode in the Camera Control window to Light Raw VignettingLight and Dark 2x2 Modes Select Setup Calibrate from the Process menuImage Processing Dark Frame CalibrationPage Convert Raw to Color Select Setup Calibrate in the Process menuFlat Field Calibration Combining Deep Sky Images Page Combine Methods FilterColor Balance Stretch Recommended Processing Sequence Batch Process Batch Process windowUsing The StarShoot Pro as an Autoguider Guide tab Computer to Mount Connection Click OK in the Ascom Telescope Chooser window Camera Control Window, click on the Guide tabAutoguider Calibration Page Edit Menu Other Features of Maxim DL EssentialsMultiple Camera Control for Autoguiding View Menu Window MenuHelp Menu TipsPolar Alignment Using Focal Reducers and Barlow Lenses Choosing a Site for Astro-imagingUSB Extension Cable Care and Maintenance FiltersSpecifications Appendix A. Troubleshooting Use the supplied USB cable first25.26 This is normalImages look very noisy overall Camera lost its connectionAppendix B. Field of View Quick Reference Guide 600mm 750mm 900mm 138.8’ X 90.6’ 111’ X 72.5’ 92.5’ X 60.4’ Telescope Focal Length 2032mm 3910mm Appendix C Summarized Procedure to Imaging Deep Sky Objects Camera Control Window, Subframe ResetProcess Calibrate Various processing commands are found in the Process menu Page Page One-Year Limited Warranty

52084 specifications

Orion 52084 is an advanced piece of geolocation technology designed for precision tracking and monitoring. It serves various sectors, including logistics, transportation, and personal security, enhancing efficiency and safety through real-time data. This device embodies a blend of cutting-edge features and technologies, including Global Navigation Satellite System (GNSS) capabilities, high-battery performance, and a compact, durable design.

At the heart of Orion 52084 is its superior GNSS functionality. It supports multi-constellation satellite systems, including GPS, GLONASS, Galileo, and BeiDou. This allows for improved positioning accuracy, even in challenging environments where traditional systems might struggle, such as urban canyons or dense foliage. The enhanced sensitivity ensures reliable tracking of assets and personnel, making it an essential tool for fleet management and emergency services.

Another standout feature of the Orion 52084 is its long-lasting battery life. Designed for extended use, it boasts a power-efficient architecture that allows for up to several weeks of continuous operation on a single charge. This is particularly valuable in logistics and field operations, where frequent charging is impractical. The device also comes with an optional solar charging capability, making it even more reliable in remote locations.

The Orion 52084 is equipped with multiple communication technologies, including cellular, satellite, and short-range wireless options. This versatility ensures a seamless connection, allowing users to access data from anywhere in real-time. The integration of Bluetooth and Wi-Fi allows for easy setup and management through a user-friendly mobile app, making it accessible for individuals and organizations alike.

Durability is another hallmark of Orion 52084. It is designed to withstand harsh conditions, with an IP67 rating that guarantees dust and water resistance. This ruggedness makes it suitable for various applications, from tracking heavy machinery in construction sites to monitoring outdoor adventurers.

In summary, the Orion 52084 combines advanced GNSS capabilities, efficient power management, versatile communication options, and robust durability to deliver a reliable geolocation solution. Its features cater to a wide range of users, making it an invaluable tool for enhancing safety and operational efficiency in various industries. Whether for fleet management, personal tracking, or asset monitoring, the Orion 52084 stands out as a leader in the market.
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