extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model
For indoor localisation, a challenge in data-driven localisation is to ensure sufficient data to train the prediction model to produce a good accuracy. However, for WiFi-based data collection, human effort is still required to capture a large amount of data as the representation Received Signal Stre...
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sg-ntu-dr.10356-1695352023-07-28T15:35:53Z extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model Yean, Seanglidet Goh, Wayne Lee, Bu-Sung Oh, Hong Lye School of Computer Science and Engineering Singtel Cognitive and Artificial Intelligence Lab (SCALE@NTU) Engineering::Computer science and engineering Indoor Localisation Generative Adversarial Networks For indoor localisation, a challenge in data-driven localisation is to ensure sufficient data to train the prediction model to produce a good accuracy. However, for WiFi-based data collection, human effort is still required to capture a large amount of data as the representation Received Signal Strength (RSS) could easily be affected by obstacles and other factors. In this paper, we propose an extendGAN+ pipeline that leverages up-sampling with the Dirichlet distribution to improve location prediction accuracy with small sample sizes, applies transferred WGAN-GP for synthetic data generation, and ensures data quality with a filtering module. The results highlight the effectiveness of the proposed data augmentation method not only by localisation performance but also showcase the variety of RSS patterns it could produce. Benchmarking against the baseline methods such as fingerprint, random forest, and its base dataset with localisation models, extendGAN+ shows improvements of up to 23.47%, 25.35%, and 18.88% respectively. Furthermore, compared to existing GAN+ methods, it reduces training time by a factor of four due to transfer learning and improves performance by 10.13%. Agency for Science, Technology and Research (A*STAR) Nanyang Technological University Published version This research was funded by Singtel Cognitive and Artificial Intelligence Lab for Enterprises (SCALE@NTU), which is a collaboration between Singapore Telecommunications Limited (Singtel) and Nanyang Technological University (NTU) that is supported by A*STAR under its Industry Alignment Fund (LOA Award number: I1701E0013). 2023-07-24T01:11:09Z 2023-07-24T01:11:09Z 2023 Journal Article Yean, S., Goh, W., Lee, B. & Oh, H. L. (2023). extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model. Sensors, 23(9), 4402-. https://dx.doi.org/10.3390/s23094402 1424-8220 https://hdl.handle.net/10356/169535 10.3390/s23094402 37177610 2-s2.0-85159216576 9 23 4402 en I1701E0013 Sensors © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Computer science and engineering Indoor Localisation Generative Adversarial Networks Yean, Seanglidet Goh, Wayne Lee, Bu-Sung Oh, Hong Lye extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| description |
For indoor localisation, a challenge in data-driven localisation is to ensure sufficient data to train the prediction model to produce a good accuracy. However, for WiFi-based data collection, human effort is still required to capture a large amount of data as the representation Received Signal Strength (RSS) could easily be affected by obstacles and other factors. In this paper, we propose an extendGAN+ pipeline that leverages up-sampling with the Dirichlet distribution to improve location prediction accuracy with small sample sizes, applies transferred WGAN-GP for synthetic data generation, and ensures data quality with a filtering module. The results highlight the effectiveness of the proposed data augmentation method not only by localisation performance but also showcase the variety of RSS patterns it could produce. Benchmarking against the baseline methods such as fingerprint, random forest, and its base dataset with localisation models, extendGAN+ shows improvements of up to 23.47%, 25.35%, and 18.88% respectively. Furthermore, compared to existing GAN+ methods, it reduces training time by a factor of four due to transfer learning and improves performance by 10.13%. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Yean, Seanglidet Goh, Wayne Lee, Bu-Sung Oh, Hong Lye |
| format |
Article |
| author |
Yean, Seanglidet Goh, Wayne Lee, Bu-Sung Oh, Hong Lye |
| author_sort |
Yean, Seanglidet |
| title |
extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| title_short |
extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| title_full |
extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| title_fullStr |
extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| title_full_unstemmed |
extendGAN+: transferable data augmentation framework using WGAN-GP for data-driven indoor localisation model |
| title_sort |
extendgan+: transferable data augmentation framework using wgan-gp for data-driven indoor localisation model |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169535 |
| _version_ |
1773551344761700352 |