toplogo
Masuk

Weakly-Supervised Conditional Embedding for Referred Visual Search in Fashion


Konsep Inti
Superior performance in fashion image similarity search can be achieved through weakly-supervised conditional embedding, eliminating the need for explicit object detection.
Abstrak
  • Introduction to Referred Visual Search (RVS) in the fashion industry.
  • Challenges in defining image similarity in fashion due to multifaceted nature.
  • Comparison of traditional visual search methods with weakly-supervised conditional contrastive learning.
  • Presentation of LAION-RVS-Fashion dataset for the task.
  • Methodology of learning to extract referred embeddings using weakly-supervised training.
  • Experiments and results showcasing the effectiveness of the proposed approach.
  • Comparison with existing methods and baselines in the field.
  • Ethical considerations and reproducibility statement.
edit_icon

Kustomisasi Ringkasan

edit_icon

Tulis Ulang dengan AI

edit_icon

Buat Sitasi

translate_icon

Terjemahkan Sumber

visual_icon

Buat Peta Pikiran

visit_icon

Kunjungi Sumber

Statistik
Our dataset contains images of 272,451 products with 841,718 images. The test set includes 2,000 products with 2M distractors for evaluation. CondViT-B/16 achieves 68.4% Recall at 1 (R@1) against 2M distractors.
Kutipan
"Our method is lightweight and demonstrates robustness, reaching Recall at one superior to strong detection-based baselines against 2M distractors."

Pertanyaan yang Lebih Dalam

How can the weakly-supervised conditional embedding approach be applied to other domains beyond fashion

The weakly-supervised conditional embedding approach can be applied to various domains beyond fashion by adapting the conditioning information to suit the specific characteristics of each domain. For instance, in the field of e-commerce, this approach could be utilized for product recommendation systems. By incorporating textual descriptions or categorical attributes related to products, the system can learn to extract embeddings that focus on specific features or characteristics of the products. This can enhance the accuracy of recommendations by capturing the nuances of user preferences. In the field of healthcare, this approach could be applied to medical image analysis. By providing textual descriptions or categorical labels related to specific medical conditions or anatomical structures, the system can learn to extract embeddings that highlight relevant features in the images. This can aid in tasks such as disease diagnosis or anomaly detection in medical imaging. In the field of autonomous driving, this approach could be used for object detection and recognition. By providing contextual information or categorical labels related to different objects on the road, the system can learn to extract embeddings that focus on distinguishing between various objects and their spatial relationships. This can improve the accuracy of object detection and classification in autonomous vehicles.

What are the potential drawbacks of eliminating explicit object detection in image similarity search

The potential drawbacks of eliminating explicit object detection in image similarity search include: Loss of Localization Accuracy: Explicit object detection techniques provide precise localization information about objects in an image, which can be crucial for tasks like fine-grained attribute recognition or segmentation. By bypassing this step, the system may lose the ability to accurately localize objects within the image, leading to reduced performance in tasks that require precise object boundaries. Limited Contextual Understanding: Object detection helps in understanding the context in which objects appear in an image. By eliminating this step, the system may struggle to capture the relationships between different objects or elements in the scene, which can impact the overall understanding of the image and the similarity between images. Dependency on Conditioning Information: Weakly-supervised conditional embedding relies heavily on the conditioning information provided. If the conditioning information is noisy, ambiguous, or insufficient, it can lead to suboptimal embeddings and reduced performance in similarity search tasks. Scalability Concerns: Object detection methods can be computationally intensive, especially for large-scale datasets. By eliminating this step, the system may achieve faster inference times and scalability, but at the cost of potentially sacrificing detailed object information that could enhance the quality of embeddings.

How can the concept of referred visual search be extended to incorporate user-generated content in the dataset

The concept of referred visual search can be extended to incorporate user-generated content in the dataset by leveraging user annotations, feedback, or queries. This user-generated content can provide valuable insights into the specific aspects of images that users are interested in, guiding the system to focus on relevant features during the embedding extraction process. One approach to incorporating user-generated content is to allow users to provide textual descriptions or annotations for images in the dataset. These descriptions can serve as conditioning information for the system, guiding it to extract embeddings that align with the user's preferences or interests. By incorporating user-generated content, the system can learn to prioritize certain features or attributes based on user feedback, enhancing the relevance of the retrieved results in visual search tasks. Additionally, user-generated content can be used to create personalized embeddings for individual users, tailoring the retrieval results to match each user's unique preferences and requirements. This personalized approach can improve the user experience and satisfaction with the visual search system, leading to more accurate and relevant search results.
0
star