利用条件GAN修正缺陷轨迹

2021 IEEE 4th International Conference on Advanced Information and Communication Technologies (AICT) Pub Date : 2021-09-21 DOI:10.1109/aict52120.2021.9628933

Marek Ruzicka, Marcel Volosin, J. Gazda, T. Maksymyuk, Y. Bobalo

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引用次数: 1

摘要

终端用户移动性模式在5G网络设计过程中起着关键作用。在通过GPS跟踪最终用户的过程中，可能会出现错误。虽然我们仍然受到商业可用轨迹数据集数量非常有限的限制，但一个可能的解决方案是使用生成对抗网络(GAN)扩展现有数据集。我们之前的工作表明，GAN以人工轨迹生成器的形式使用是可能的，但并非完美无缺，因为它引入了轨迹连续GPS坐标之间不合理间隙的问题。为了克服生成数据集和真实数据的这个问题，可以使用一种称为条件GAN的特殊类型的GAN。通过利用这种方法，我们不仅能够生成潜在无限数量的新数据样本，而且还可以纠正现有的数据样本。轨迹中缺失数据点的数量可以低至所有点的95%。这种人工智能方法有潜力用于轨迹数据有缺陷且需要纠正的各种用例。

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Correcting Defective Trajectories using Conditional GAN

The end-user mobility patterns play a key role in the process of 5G network design. During tracking end-users via GPS, errors can appear. While we are still constrained with a very limited number of commercially available trajectory datasets, a possible solution is to extend an existing dataset using a generative adversarial network (GAN). Our previous work showed that the utilization of GAN in a form of artificial trajectory generator is possible but not flawless as it introduces the issue with unreasonable gaps between trajectory’s consecutive GPS coordinates. To overcome this issue with a generated dataset and with authentic data as well a special type of GAN called conditional GAN can be used. By leveraging this approach we are not only able to generate a potentially unlimited number of new data samples but as well to correct the existing ones. The number of missing datapoints in the trajectory can go as low as 95% of all points. This artificial intelligence approach has the potential to be used in various use cases where trajectory data are defective and need to be corrected.

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2021 IEEE 4th International Conference on Advanced Information and Communication Technologies (AICT)

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