Related papers: Seeing Beyond Redundancy: Task Complexity's Role in Vision Token Specialization in VLLMs

Seeing Beyond Redundancy: Task Complexity's Role in Vision Token Specialization in VLLMs

URL: http://arxiv.org/abs/2602.06914v1
Date: Fri, 06 Feb 2026 18:13:01 GMT
Title: Seeing Beyond Redundancy: Task Complexity's Role in Vision Token Specialization in VLLMs
Authors: Darryl Hannan, John Cooper, Dylan White, Yijing Watkins,
Abstract summary: Vision capabilities in vision large language models (VLLMs) have consistently lagged behind their linguistic capabilities.<n>We investigate how various types of visual information are processed by the model and what types of visual information are discarded.
Score: 4.469560591280309
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Vision capabilities in vision large language models (VLLMs) have consistently lagged behind their linguistic capabilities. In particular, numerous benchmark studies have demonstrated that VLLMs struggle when fine-grained visual information or spatial reasoning is required. However, we do not yet understand exactly why VLLMs struggle so much with these tasks relative to others. Some works have focused on visual redundancy as an explanation, where high-level visual information is uniformly spread across numerous tokens and specific, fine-grained visual information is discarded. In this work, we investigate this premise in greater detail, seeking to better understand exactly how various types of visual information are processed by the model and what types of visual information are discarded. To do so, we introduce a simple synthetic benchmark dataset that is specifically constructed to probe various visual features, along with a set of metrics for measuring visual redundancy, allowing us to better understand the nuances of their relationship. Then, we explore fine-tuning VLLMs on a number of complex visual tasks to better understand how redundancy and compression change based upon the complexity of the data that a model is trained on. We find that there is a connection between task complexity and visual compression, implying that having a sufficient ratio of high complexity visual data is crucial for altering the way that VLLMs distribute their visual representation and consequently improving their performance on complex visual tasks. We hope that this work will provide valuable insights for training the next generation of VLLMs.

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