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Super-Resolution Techniques

Super-resolution techniques can be broadly categorized into:

Traditional interpolation-based methods (Bilinear, Bicubic, Lanczos);
Deep learning-based super-resolution (CNNs, GANs, Transformers).

Traditional Interpolation-Based Methods

Interpolation is one of the simplest approaches to super-resolution, where missing pixels are estimated based on surrounding pixel values. All common interpolation techniques include cv2.resize(), but the interpolation parameter differs:

Nearest-Neighbor Interpolation

Copies the closest pixel value to the new location;
Produces sharp but blocky images;
Fast but lacks smoothness and detail.

Bilinear Interpolation

Averages four neighboring pixels to estimate the new pixel value;
Produces smoother images but can introduce blurriness.

Bicubic Interpolation

Uses a weighted average of 16 surrounding pixels;
Provides better smoothness and sharpness compared to bilinear interpolation.

Lanczos Interpolation

Uses a sinc function to calculate pixel values;
Offers better sharpness and minimal aliasing.

While interpolation-based methods are computationally efficient, they often fail to restore fine details and textures.

Deep Learning-Based Super-Resolution

Pretrained Super-Resolution Models:

ESPCN (Efficient Sub-Pixel Convolutional Network): Fast and efficient for real-time SR;
FSRCNN (Fast Super-Resolution CNN): A lightweight network optimized for speed;
LapSRN (Laplacian Pyramid SR Network): Uses progressive upscaling for better details.

Uppgift

Swipe to start coding

You are given an image with low resolution:

Apply bicubic interpolation method with 4x scale and store result in bicubic_image;
Define and create deep neural network object in sr variable;
Read model from the model_path;
Set the name espcn and 4x scale;
Apply DNN super-resolution method and store result in dnn_image.

Lösning

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Avsnitt 2. Kapitel 6

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Super-Resolution Techniques

Super-resolution techniques can be broadly categorized into:

Traditional interpolation-based methods (Bilinear, Bicubic, Lanczos);
Deep learning-based super-resolution (CNNs, GANs, Transformers).

Traditional Interpolation-Based Methods

Nearest-Neighbor Interpolation

Copies the closest pixel value to the new location;
Produces sharp but blocky images;
Fast but lacks smoothness and detail.

Bilinear Interpolation

Averages four neighboring pixels to estimate the new pixel value;
Produces smoother images but can introduce blurriness.

Bicubic Interpolation

Uses a weighted average of 16 surrounding pixels;
Provides better smoothness and sharpness compared to bilinear interpolation.

Lanczos Interpolation

Uses a sinc function to calculate pixel values;
Offers better sharpness and minimal aliasing.

While interpolation-based methods are computationally efficient, they often fail to restore fine details and textures.

Deep Learning-Based Super-Resolution

Pretrained Super-Resolution Models:

ESPCN (Efficient Sub-Pixel Convolutional Network): Fast and efficient for real-time SR;
FSRCNN (Fast Super-Resolution CNN): A lightweight network optimized for speed;
LapSRN (Laplacian Pyramid SR Network): Uses progressive upscaling for better details.

Uppgift

Swipe to start coding

You are given an image with low resolution:

Apply bicubic interpolation method with 4x scale and store result in bicubic_image;
Define and create deep neural network object in sr variable;
Read model from the model_path;
Set the name espcn and 4x scale;
Apply DNN super-resolution method and store result in dnn_image.

Lösning

Byt till skrivbordet för praktisk övningFortsätt där du är med ett av alternativen nedan

Var allt tydligt?

Tack för dina kommentarer!

Avsnitt 2. Kapitel 6

Byt till skrivbordet för praktisk övningFortsätt där du är med ett av alternativen nedan