A Data Quality Assessment Framework for AI-enabled Wireless Communication

Using artificial intelligent (AI) to re-design and enhance the current wireless communication system is a promising pathway for the future sixth-generation (6G) wireless network. The performance of AI-enabled wireless communication depends heavily on the quality of wireless air-interface data. Altho...

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Veröffentlicht in:	arXiv.org 2022-12
Hauptverfasser:	Hanning Tang, Yang, Liusha, Zhou, Rui, Liang, Jing, Hong, Wei, Wang, Xuan, Shi, Qingjiang, Zhi-Quan Luo
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Sprache:	eng
Schlagworte:	Artificial intelligence Completeness Datasets Performance measurement Quality assessment Reference signals Similarity Statistical distributions Wireless communication systems Wireless communications Wireless networks
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creator	Hanning Tang Yang, Liusha Zhou, Rui Liang, Jing Hong, Wei Wang, Xuan Shi, Qingjiang Zhi-Quan Luo
description	Using artificial intelligent (AI) to re-design and enhance the current wireless communication system is a promising pathway for the future sixth-generation (6G) wireless network. The performance of AI-enabled wireless communication depends heavily on the quality of wireless air-interface data. Although there are various approaches to data quality assessment (DQA) for different applications, none has been designed for wireless air-interface data. In this paper, we propose a DQA framework to measure the quality of wireless air-interface data from three aspects: similarity, diversity, and completeness. The similarity measures how close the considered datasets are in terms of their statistical distributions; the diversity measures how well-rounded a dataset is, while the completeness measures to what degree the considered dataset satisfies the required performance metrics in an application scenario. The proposed framework can be applied to various types of wireless air-interface data, such as channel state information (CSI), signal-to-interference-plus-noise ratio (SINR), reference signal received power (RSRP), etc. For simplicity, the validity of our proposed DQA framework is corroborated by applying it to CSI data and using similarity and diversity metrics to improve CSI compression and recovery in Massive MIMO systems.
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subjects	Artificial intelligence Completeness Datasets Performance measurement Quality assessment Reference signals Similarity Statistical distributions Wireless communication systems Wireless communications Wireless networks
title	A Data Quality Assessment Framework for AI-enabled Wireless Communication
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