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This study presents a hybrid deep learning architecture tailored to address the cold-start problem by combining visual similarity analysis with correction techniques for censored sales data. The proposed approach utilizes multimodal inputs, including high-resolution product images and structured metadata (e.g., category, fabric, and price), in addition to sales and inventory records that are affected by stockout-related censoring. The architecture is composed of two integrated pipelines. The first applies the Expectation\u2013Maximization (EM) algorithm to adjust sales records, estimating true latent demand by accounting for censored entries. The second pipeline extracts deep visual features through a modified ResNet-50 architecture, followed by compression via an autoencoder to generate compact, semantically meaningful representations. These representations are clustered to identify visually similar products, enabling demand estimation through similarity-weighted averaging and localized regression within each cluster. Prediction uncertainty is captured using a bootstrap-based resampling technique. This work offers several notable contributions: the fusion of EM-based demand correction with deep visual learning, the introduction of an adaptive similarity-based forecasting strategy, and the integration of uncertainty estimation for cold-start scenarios. Empirical evaluation on a real-world multimodal fashion dataset demonstrates that the proposed model significantly outperforms several baseline approaches\u2014including those relying solely on metadata, visual features, or global regressors\u2014with results achieving RMSE of 10.95, MAE of 8.54, MAPE of 16.5%, Precision@10 of 73.9%, and Recall@10 of 70.7%. 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