Reconstruction of Partial Facades: Difference between revisions
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== Introduction == | == Introduction == | ||
=== Motivation === | === Motivation === | ||
Venice's facades represent a remarkable heritage of artistic and architectural ingenuity, reflecting centuries of cultural evolution. However, despite advancements in digital documentation, many scanned images of these facades are incomplete or improperly captured, leading to gaps in their visual representation. This limits the potential for accurate digital analysis, visualization, and preservation of these iconic structures. | |||
To address this challenge, this project explores the application of different models for reconstruction of incomplete facade images. Firstly, we tried to implement a Masked Autoencoder (MAE). MAEs are powerful tools for self-supervised learning, aiming at reconstructing missing portions of data by leveraging patterns learned from complete examples. By training the model on a dataset of complete Venetian facade images, we aim to develop a system capable of accurately filling in the missing regions of improperly scanned images. The second model we tried to implement was an NMF,... | |||
== Methodology == | == Methodology == | ||
Revision as of 13:10, 5 December 2024
Introduction
Project Timeline & Milestones
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Introduction
Motivation
Venice's facades represent a remarkable heritage of artistic and architectural ingenuity, reflecting centuries of cultural evolution. However, despite advancements in digital documentation, many scanned images of these facades are incomplete or improperly captured, leading to gaps in their visual representation. This limits the potential for accurate digital analysis, visualization, and preservation of these iconic structures.
To address this challenge, this project explores the application of different models for reconstruction of incomplete facade images. Firstly, we tried to implement a Masked Autoencoder (MAE). MAEs are powerful tools for self-supervised learning, aiming at reconstructing missing portions of data by leveraging patterns learned from complete examples. By training the model on a dataset of complete Venetian facade images, we aim to develop a system capable of accurately filling in the missing regions of improperly scanned images. The second model we tried to implement was an NMF,...