Related papers: Controlling Multimodal Conversational Agents with Coverage-Enhanced Latent Actions

Controlling Multimodal Conversational Agents with Coverage-Enhanced Latent Actions

URL: http://arxiv.org/abs/2601.07516v1
Date: Mon, 12 Jan 2026 13:13:24 GMT
Title: Controlling Multimodal Conversational Agents with Coverage-Enhanced Latent Actions
Authors: Yongqi Li, Hao Lang, Tieyun Qian, Yongbin Li,
Abstract summary: reinforcement learning (RL) has been widely explored for adapting MCAs to various human-AI interaction scenarios.<n>We learn a compact latent action space for RL fine-tuning instead.<n>We leverage both paired image-text data and text-only data to construct the latent action space.
Score: 62.02112656288921
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Vision-language models are increasingly employed as multimodal conversational agents (MCAs) for diverse conversational tasks. Recently, reinforcement learning (RL) has been widely explored for adapting MCAs to various human-AI interaction scenarios. Despite showing great enhancement in generalization performance, fine-tuning MCAs via RL still faces challenges in handling the extremely large text token space. To address this, we learn a compact latent action space for RL fine-tuning instead. Specifically, we adopt the learning from observation mechanism to construct the codebook for the latent action space, where future observations are leveraged to estimate current latent actions that could further be used to reconstruct future observations. However, the scarcity of paired image-text data hinders learning a codebook with sufficient coverage. Thus, we leverage both paired image-text data and text-only data to construct the latent action space, using a cross-modal projector for transforming text embeddings into image-text embeddings. We initialize the cross-modal projector on paired image-text data, and further train it on massive text-only data with a novel cycle consistency loss to enhance its robustness. We show that our latent action based method outperforms competitive baselines on two conversation tasks across various RL algorithms.

Related papers

MAGE: Multimodal Alignment and Generation Enhancement via Bridging Visual and Semantic Spaces [23.447713697204225]
MAGE is a novel framework that bridges the semantic spaces of vision and text through an innovative alignment mechanism.<n>We employ a training strategy that combines cross-entropy and mean squared error, significantly enhancing the alignment effect.<n>Our proposed multimodal large model architecture, MAGE, achieved significantly better performance compared to similar works across various evaluation benchmarks.
arXiv Detail & Related papers (2025-07-29T12:17:46Z)
Vision as a Dialect: Unifying Visual Understanding and Generation via Text-Aligned Representations [33.11867433769496]
This paper presents a framework that attempts to unify visual understanding and generation within a shared semantic representation.<n>At its core is the Text-Aligned Tokenizer (TA-Tok), which converts images into discrete tokens using a text-aligned codebook projected from a large language model's (LLM) vocabulary.<n> Experiments across benchmarks show that Tar matches or surpasses existing multimodal LLM methods, achieving faster convergence and greater training efficiency.
arXiv Detail & Related papers (2025-06-23T17:59:14Z)
Towards Text-Image Interleaved Retrieval [49.96332254241075]
We introduce the text-image interleaved retrieval (TIIR) task, where the query and document are interleaved text-image sequences.<n>We construct a TIIR benchmark based on naturally interleaved wikiHow tutorials, where a specific pipeline is designed to generate interleaved queries.<n>We propose a novel Matryoshka Multimodal Embedder (MME), which compresses the number of visual tokens at different granularity.
arXiv Detail & Related papers (2025-02-18T12:00:47Z)
Harmonizing Visual Text Comprehension and Generation [31.605599298507293]
We present TextHarmony, a unified and versatile multimodal generative model proficient in comprehending and generating visual text. We propose Slide-LoRA, which aggregates modality-specific and modality-agnostic LoRA experts, partially decoupling the multimodal generation space. Comprehensive experiments across various benchmarks demonstrate the effectiveness of the proposed approach.
arXiv Detail & Related papers (2024-07-23T10:11:56Z)
Text2Data: Low-Resource Data Generation with Textual Control [100.5970757736845]
Text2Data is a novel approach that utilizes unlabeled data to understand the underlying data distribution.<n>It undergoes finetuning via a novel constraint optimization-based learning objective that ensures controllability and effectively counteracts catastrophic forgetting.
arXiv Detail & Related papers (2024-02-08T03:41:39Z)
Seeing What You Miss: Vision-Language Pre-training with Semantic Completion Learning [22.464424641734652]
Cross-modal alignment is essential for vision-language pre-training models. We propose a novel Semantic Completion Learning task to facilitate global-to-local alignment. We also present a flexible vision encoder, which enables our model to perform image-text and video-text multimodal tasks simultaneously.
arXiv Detail & Related papers (2022-11-24T06:39:16Z)
mPLUG: Effective and Efficient Vision-Language Learning by Cross-modal Skip-connections [104.14624185375897]
mPLUG is a new vision-language foundation model for both cross-modal understanding and generation. It achieves state-of-the-art results on a wide range of vision-language downstream tasks, such as image captioning, image-text retrieval, visual grounding and visual question answering.
arXiv Detail & Related papers (2022-05-24T11:52:06Z)
Vision-Language Pre-Training for Boosting Scene Text Detectors [57.08046351495244]
We specifically adapt vision-language joint learning for scene text detection. We propose to learn contextualized, joint representations through vision-language pre-training. The pre-trained model is able to produce more informative representations with richer semantics.
arXiv Detail & Related papers (2022-04-29T03:53:54Z)
COTS: Collaborative Two-Stream Vision-Language Pre-Training Model for Cross-Modal Retrieval [59.15034487974549]
We propose a novel COllaborative Two-Stream vision-language pretraining model termed COTS for image-text retrieval. Our COTS achieves the highest performance among all two-stream methods and comparable performance with 10,800X faster in inference. Importantly, our COTS is also applicable to text-to-video retrieval, yielding new state-ofthe-art on the widely-used MSR-VTT dataset.
arXiv Detail & Related papers (2022-04-15T12:34:47Z)

This list is automatically generated from the titles and abstracts of the papers in this site.