Samsung Moonshot explained: AI Technology to Create High-Quality Moon Photos

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Samsung is dedicated to providing the greatest camera experiences possible under all settings. The Samsung Galaxy series has integrated artificial intelligence (AI) technology into its cameras with the release of the Galaxy S10 to enable customers to record every momentous occasion whenever and wherever they want.

Samsung created the Scene Optimizer feature as a part of this, a camera tool that makes use of cutting-edge AI to identify objects and provide consumers with the best results. Since the launch of the Galaxy S21 series, the moon has been identified as a distinct object by Scene Optimizer, which then uses the feature’s detail enhancement engine to improve the photograph.

Your Galaxy device’s camera system will use multi-frame processing and this deep learning-based AI technology to further improve details when you take a picture of the moon. Continue reading to discover more about the many procedures, technology, and methods required to produce high-quality moon photos.

Users may easily deactivate Scene Optimizer by going to the Settings menu and select the “Scene Optimizer” option: Camera → Camera Settings → Scene Optimizer → Off

Super Resolution and Scene Optimizer: An Overview

Galaxy cameras use Super Resolution to combine more than 10 photos captured at 25x zoom or higher in order to get a clear image of the moon. To reduce noise, improve clarity, and bring out additional features, the image must have been zoomed in at least 25 times.

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Multi-frame composition is a technique used to create photos with Super Resolution technology. The camera will provide customers with a bright and clear image using the detail enhancement engine of Scene Optimizer on top of the Super Resolution technology when Scene Optimizer is on and the moon has been identified as an object.

AI Deep Learning for Recognizing Moon Objects

The engine for recognizing the moon was built based on a variety of moon shapes and details, from full through to crescent moons, and is based on images taken from our view of the Earth.

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The relevant image is used to determine the region the moon occupies, which is shown by the square box, using an AI deep learning model to recognize the moon’s existence. After the AI model has finished learning, it can recognize the moon’s shadow in photographs that weren’t utilized during training.

However, the moon will not be properly recognized by the camera and Scene Optimizer technology if it is obscured by clouds, or if the moon object itself is the side that is not visible from the Earth.

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Lighting Control Process

Once the device has recognized the moon after zooming in, it will control the brightness of the display in order to present the moon more clearly while maintaining optimal brightness.

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Since the device dims the object backdrop brightness to assist the moon showing more clearly, when users snap images of the moon in the early evening, the sky surrounding it seems darker than the actual sky hue. Your device will continually adjust focus to remain centred on the moon once it identifies it.

Taking the Most Steady Pictures Possible

The Zoom Lock function, which Samsung launched, automatically lessens the affects of a shaking smartphone without the need for a tripod. Zoom Lock, which combines OIS and VDIS technology, may reduce the amount of picture blur that can be brought on by trembling hands and enable users to capture some genuinely amazing moon photos.

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While zooming in and touching the display or maintaining a focus on the moon for longer than 1.5 seconds, the Zoom Lock feature will be automatically activated. The borderline of the zoom map on the upper right side of the screen will change from white to yellow, and the moon will be fixed on the display.

Why not give these suggestions a try while capturing 100x zoom photos of the moon?

Hold your Galaxy phone in both hands with both hands in landscape mode.

Check the moon’s location on the zoom map and move the moon to the middle of your screen.

Use the capture button to take a photo when the yellow zoom map borders line changes.

AI-Based Detail Improvement for Moon Photography

The user may hit the capture button once the moon is at the proper brightness level in the Galaxy device’s viewfinder. The camera will then take additional steps to give a bright and clear photograph of the moon.

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First, the Scene Optimizer reconfirms whether to apply the detail enhancement engine through AI processing.

The camera then captures a number of shots before combining them to create a single, brilliant image with little noise.

When Multi-frame Processing is complete, Scene Optimizer’s deep-learning-based AI detail improvement engine is used by Galaxy Camera to further enhance the image details and successfully remove any lingering noise.

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Samsung keeps enhancing Scene Optimizer to eliminate any potential misunderstandings that can arise between snapping a photo of the actual moon and an image of the moon.

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