A deep neural network framework for dynamic multi-valued mapping estimation and its applications
- URL: http://arxiv.org/abs/2407.00295v1
- Date: Sat, 29 Jun 2024 03:26:51 GMT
- Title: A deep neural network framework for dynamic multi-valued mapping estimation and its applications
- Authors: Geng Li, Di Qiu, Lok Ming Lui,
- Abstract summary: This paper introduces a deep neural network framework incorporating a generative network and a classification component.
The objective is to model the dynamic multi-valued mapping between the input and output by providing a reliable uncertainty measurement.
Experimental results show that our framework accurately estimates the dynamic multi-valued mapping with uncertainty estimation.
- Score: 3.21704928672212
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: This paper addresses the problem of modeling and estimating dynamic multi-valued mappings. While most mathematical models provide a unique solution for a given input, real-world applications often lack deterministic solutions. In such scenarios, estimating dynamic multi-valued mappings is necessary to suggest different reasonable solutions for each input. This paper introduces a deep neural network framework incorporating a generative network and a classification component. The objective is to model the dynamic multi-valued mapping between the input and output by providing a reliable uncertainty measurement. Generating multiple solutions for a given input involves utilizing a discrete codebook comprising finite variables. These variables are fed into a generative network along with the input, producing various output possibilities. The discreteness of the codebook enables efficient estimation of the output's conditional probability distribution for any given input using a classifier. By jointly optimizing the discrete codebook and its uncertainty estimation during training using a specially designed loss function, a highly accurate approximation is achieved. The effectiveness of our proposed framework is demonstrated through its application to various imaging problems, using both synthetic and real imaging data. Experimental results show that our framework accurately estimates the dynamic multi-valued mapping with uncertainty estimation.
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