Zero-shot object counting with good exemplars

Zero-shot object counting with good exemplars

Zero-shot object counting (ZOC) aims to enumerate objects in images using only the names of object classes during testing, without the need for manual annotations. However, a critical challenge in current ZOC methods lies in their inability to identify high-quality exemplars effectively. This defici...

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Bibliographic Details
Main Authors: ZHU, Huilin, YUAN, Jingling, YANG, Zhengwei, GUO, Yu, WANG, Zheng, ZHONG, Xian, HE, Shengfeng
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2024
Subjects:
Zero-shot object counting
Object classification
Object counting framework
Class exemplar identification
Artificial Intelligence and Robotics
Graphics and Human Computer Interfaces
Online Access:https://ink.library.smu.edu.sg/sis_research/9768
https://ink.library.smu.edu.sg/context/sis_research/article/10768/viewcontent/2407.04948v2.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Zero-shot object counting (ZOC) aims to enumerate objects in images using only the names of object classes during testing, without the need for manual annotations. However, a critical challenge in current ZOC methods lies in their inability to identify high-quality exemplars effectively. This deficiency hampers scalability across diverse classes and undermines the development of strong visual associations between the identified classes and image content. To this end, we propose the Visual Association-based Zero-shot Object Counting (VA-Count) framework. VACount consists of an Exemplar Enhancement Module (EEM) and a Noise Suppression Module (NSM) that synergistically refine the process of class exemplar identification while minimizing the consequences of incorrect object identification. The EEM utilizes advanced vision-language pretaining models to discover potential exemplars, ensuring the framework’s adaptability to various classes. Meanwhile, the NSM employs contrastive learning to differentiate between optimal and suboptimal exemplar pairs, reducing the negative effects of erroneous exemplars. VA-Count demonstrates its effectiveness and scalability in zero-shot contexts with superior performance on two object counting datasets.

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