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Comprehensive Blind Assessment of AI-Generated Image Quality: Evaluating Visual Quality, Authenticity, and Content Consistency


核心概念
The proposed AMFF-Net comprehensively evaluates the quality of AI-generated images (AGIs) from three dimensions: visual quality, authenticity, and content consistency. It utilizes a multi-scale input strategy and an adaptive feature fusion block to capture both local and global image details, and compares the semantic features between the text prompt and generated image to assess content consistency.
摘要

The paper proposes a novel blind image quality assessment (IQA) network, named AMFF-Net, for evaluating the quality of AI-generated images (AGIs). AMFF-Net assesses the quality of AGIs from three dimensions: visual quality, authenticity, and content consistency.

Key highlights:

  1. Multi-scale input strategy: AMFF-Net scales the AGI up and down and feeds the scaled images and the original-sized image into the image encoder to capture image details at different levels of granularity.
  2. Adaptive feature fusion (AFF) block: The AFF block adaptively fuses the multi-scale features, reducing the risk of information masking caused by direct concatenation or addition.
  3. Content consistency evaluation: AMFF-Net compares the semantic features from the text encoder and image encoder to evaluate the alignment between the text prompt and generated image.
  4. Extensive experiments on three AGI quality assessment databases show that AMFF-Net outperforms nine state-of-the-art blind IQA methods. Ablation studies further demonstrate the effectiveness of the multi-scale input strategy and AFF block.
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統計資料
The visual quality score is predicted using the mean square error loss. The authenticity score is predicted using the mean square error loss. The content consistency score is computed as the cosine similarity between the text and image features.
引述
"Considering that both local and global details affect the subjective ratings of visual quality and authenticity, AMFF-Net inputs the scaled AGIs, i.e., I1.5×, I1.0×, and I0.5×, into an image encoder of the pre-trained CLIP model [33] to obtain multi-scale semantic representations." "An AFF block is proposed to fuse multi-scale features. Different from current works that directly concatenate or add multi-scale features, the proposed block adaptively calculates the weights for different features, reducing the risk of information masking caused by concatenation and addition." "For content consistency prediction, AMFF-Net uses the text encoder in the pre-trained CLIP to encode the text prompt and computes the similarity between the obtained textual features and the fused multi-scale features."

深入探究

How can the proposed AMFF-Net be extended to handle other types of generative content, such as text-to-speech or video-to-video generation

The proposed AMFF-Net can be extended to handle other types of generative content, such as text-to-speech or video-to-video generation, by adapting the network architecture and input modalities. For text-to-speech generation, the text prompts can be encoded using a suitable text encoder, similar to the one used for image prompts in the AMFF-Net. The audio features extracted from the generated speech can then be processed and fused with the text features to evaluate the quality of the generated speech. Additionally, for video-to-video generation, the network can be modified to accept video frames as input and extract multi-scale features from different frames to assess the quality of the generated videos. The adaptive feature fusion block can be adjusted to handle the fusion of multi-modal features from video frames and text prompts, enabling comprehensive quality assessment for video content.

What are the potential limitations of using cosine similarity to measure the alignment between text prompts and generated images, and how could alternative approaches be explored

While cosine similarity is a commonly used metric for measuring the alignment between text prompts and generated images, it has certain limitations that may affect the accuracy of the quality assessment. One limitation is that cosine similarity only considers the angle between two vectors and does not account for the magnitude of the vectors, which can lead to discrepancies in similarity measurements. Alternative approaches, such as using more advanced similarity metrics like Mahalanobis distance or incorporating attention mechanisms to capture the semantic relationships between text and image features, could be explored to improve alignment measurement. Additionally, exploring the use of contextual embeddings or transformer-based models for text and image encoding may enhance the alignment assessment by capturing more nuanced relationships between the modalities.

Given the rapid advancements in generative AI, how might the quality assessment criteria and methodologies need to evolve to keep pace with emerging use cases and challenges

As generative AI continues to advance rapidly, the quality assessment criteria and methodologies need to evolve to keep pace with emerging use cases and challenges. One key aspect is the development of more robust and comprehensive evaluation metrics that can capture the multi-dimensional aspects of quality in generative content, beyond just visual quality, authenticity, and consistency. This may involve incorporating user feedback, perceptual studies, and domain-specific criteria to create more holistic quality assessment frameworks. Additionally, with the increasing complexity and diversity of generative models, there is a need to explore adaptive and transferable quality assessment models that can adapt to different types of generative content and scenarios. Incorporating explainability and interpretability into quality assessment models can also enhance transparency and trust in AI-generated content evaluation. Furthermore, continuous monitoring and updating of quality assessment methodologies to address emerging challenges such as deepfakes, bias, and ethical considerations will be essential to ensure the reliability and effectiveness of AI-generated content evaluation.
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