Existing deep learning-enabled semantic communication systems often rely on shared background knowledge between the transmitter and receiver that includes empirical data and their associated semantic information. In practice, the semantic information is defined by the pragmatic task of the receiver and cannot be known to the transmitter. The actual observable data at the transmitter can also have non-identical distribution with the empirical data in the shared background knowledge library. To address these practical issues, this paper proposes a new neural network-based semantic communication system for image transmission, where the task is unaware at the transmitter and the data environment is dynamic. The system consists of two main parts, namely the semantic coding (SC) network and the data adaptation (DA) network. The SC network learns how to extract and transmit the semantic information using a receiver-leading training process. By using the domain adaptation technique from transfer learning, the DA network learns how to convert the data observed into a similar form of the empirical data that the SC network can process without retraining. Numerical experiments show that the proposed method can be adaptive to observable datasets while keeping high performance in terms of both data recovery and task execution.
翻译:现有的深层学习辅助语义通信系统往往依赖于发射机和接收机之间共享的背景知识,其中包括实验数据及其相关的语义信息。实际上,语义信息是由接收机的务实任务界定的,而且发射机无法知晓。发射机上的实际可观测数据也可以与共享背景知识库中的经验数据有不相同的分布。为解决这些实际问题,本文件提出了一个新的基于神经网络的基于神经网络的语义通信系统,用于图像传输,在发送机上的任务并不为人所知,而数据环境是动态的。该系统由两个主要部分组成,即语义编码(SC)网络和数据适应(DA)网络。SC网络学习如何利用接收机主导的培训过程提取和传输语义信息。通过使用传输学习的域适应技术,DA网络学会如何将所观测的数据转换成类似的经验数据的形式,而SC网络无需再培训即可处理。数字实验表明,拟议的方法可以适应可观测的数据集,同时保持数据恢复和任务执行方面的高性。