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Realizing XR Applications Using 5G-Based 3D Holographic Communication and Mobile Edge Computing (2310.03908v1)

Published 5 Oct 2023 in cs.NI and eess.SP

Abstract: 3D holographic communication has the potential to revolutionize the way people interact with each other in virtual spaces, offering immersive and realistic experiences. However, demands for high data rates, extremely low latency, and high computations to enable this technology pose a significant challenge. To address this challenge, we propose a novel job scheduling algorithm that leverages Mobile Edge Computing (MEC) servers in order to minimize the total latency in 3D holographic communication. One of the motivations for this work is to prevent the uncanny valley effect, which can occur when the latency hinders the seamless and real-time rendering of holographic content, leading to a less convincing and less engaging user experience. Our proposed algorithm dynamically allocates computation tasks to MEC servers, considering the network conditions, computational capabilities of the servers, and the requirements of the 3D holographic communication application. We conduct extensive experiments to evaluate the performance of our algorithm in terms of latency reduction, and the results demonstrate that our approach significantly outperforms other baseline methods. Furthermore, we present a practical scenario involving Augmented Reality (AR), which not only illustrates the applicability of our algorithm but also highlights the importance of minimizing latency in achieving high-quality holographic views. By efficiently distributing the computation workload among MEC servers and reducing the overall latency, our proposed algorithm enhances the user experience in 3D holographic communications and paves the way for the widespread adoption of this technology in various applications, such as telemedicine, remote collaboration, and entertainment.

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References (31)
  1. X. Xu, Y. Pan, P. P. M. Y. Lwin, and X. Liang, “3d holographic display and its data transmission requirement,” in 2011 international conference on information photonics and optical communications.   IEEE, 2011, pp. 1–4.
  2. A. Clemm, M. T. Vega, H. K. Ravuri, T. Wauters, and F. De Turck, “Toward truly immersive holographic-type communication: Challenges and solutions,” IEEE Communications Magazine, vol. 58, no. 1, pp. 93–99, 2020.
  3. I. F. Akyildiz and H. Guo, “Holographic-type communication: A new challenge for the next decade,” ITU Journal on Future and Evolving Technologies., 2022.
  4. R. Petkova, V. Poulkov, A. Manolova, and K. Tonchev, “Challenges in implementing low-latency holographic-type communication systems,” Sensors, vol. 22, no. 24, p. 9617, 2022.
  5. S. Shoydin and A. Pazoev, “Uncanny valley effect in holographic image transmission,” Journal of the Belarusian State University. Physics, no. 3, pp. 4–9, 2022.
  6. Y. Mao, C. You, J. Zhang, K. Huang, and K. B. Letaief, “A survey on mobile edge computing: The communication perspective,” IEEE communications surveys & tutorials, vol. 19, no. 4, pp. 2322–2358, 2017.
  7. Y. Siriwardhana, P. Porambage, M. Liyanage, and M. Ylianttila, “A survey on mobile augmented reality with 5g mobile edge computing: architectures, applications, and technical aspects,” IEEE Communications Surveys & Tutorials, vol. 23, no. 2, pp. 1160–1192, 2021.
  8. M. Maray and J. Shuja, “Computation offloading in mobile cloud computing and mobile edge computing: survey, taxonomy, and open issues,” Mobile Information Systems, vol. 2022, 2022.
  9. L. Chen, S. Zhou, and J. Xu, “Computation peer offloading for energy-constrained mobile edge computing in small-cell networks,” IEEE/ACM transactions on networking, vol. 26, no. 4, pp. 1619–1632, 2018.
  10. J. Guo, Z. Song, Y. Cui, Z. Liu, and Y. Ji, “Energy-efficient resource allocation for multi-user mobile edge computing,” in GLOBECOM 2017-2017 IEEE Global Communications Conference.   IEEE, 2017, pp. 1–7.
  11. K. Wang, J. Jin, Y. Yang, T. Zhang, A. Nallanathan, C. Tellambura, and B. Jabbari, “Task offloading with multi-tier computing resources in next generation wireless networks,” IEEE Journal on Selected Areas in Communications, 2022.
  12. F. Dufaux, Y. Xing, B. Pesquet-Popescu, and P. Schelkens, “Compression of digital holographic data: an overview,” Applications of Digital Image Processing XXXVIII, vol. 9599, pp. 163–173, 2015.
  13. J. V. d. Hooft, M. T. Vega, S. Petrangeli, T. Wauters, and F. D. Turck, “Tile-based adaptive streaming for virtual reality video,” ACM Transactions on Multimedia Computing, Communications, and Applications (TOMM), vol. 15, no. 4, pp. 1–24, 2019.
  14. M. Xiao, C. Zhou, Y. Liu, and S. Chen, “Optile: Toward optimal tiling in 360-degree video streaming,” in Proceedings of the 25th ACM international conference on Multimedia, 2017, pp. 708–716.
  15. C. Guo, Y. Cui, and Z. Liu, “Optimal multicast of tiled 360 vr video,” IEEE Wireless Communications Letters, vol. 8, no. 1, pp. 145–148, 2018.
  16. R. K. Moore, “A bayesian explanation of the ‘uncanny valley’effect and related psychological phenomena,” Scientific reports, vol. 2, no. 1, pp. 1–5, 2012.
  17. H. Amirpour, C. Timmerer, and M. Ghanbari, “Towards view-aware adaptive streaming of holographic content,” in 2020 IEEE International Conference on Multimedia & Expo Workshops (ICMEW).   IEEE, 2020, pp. 1–6.
  18. M. Botsch, A. Wiratanaya, and L. Kobbelt, “Efficient high quality rendering of point sampled geometry.” Rendering Techniques, vol. 2002, no. 13th, p. 2, 2002.
  19. M. Barcelo, A. Correa, J. Llorca, A. M. Tulino, J. L. Vicario, and A. Morell, “Iot-cloud service optimization in next generation smart environments,” IEEE Journal on Selected Areas in Communications, vol. 34, no. 12, pp. 4077–4090, 2016.
  20. P. P. Ray, “A survey of iot cloud platforms,” Future Computing and Informatics Journal, vol. 1, no. 1-2, pp. 35–46, 2016.
  21. E. El Haber, T. M. Nguyen, and C. Assi, “Joint optimization of computational cost and devices energy for task offloading in multi-tier edge-clouds,” IEEE Transactions on Communications, vol. 67, no. 5, pp. 3407–3421, 2019.
  22. C. Dong and W. Wen, “Joint optimization for task offloading in edge computing: An evolutionary game approach,” Sensors, vol. 19, no. 3, p. 740, 2019.
  23. C. You, K. Huang, H. Chae, and B.-H. Kim, “Energy-efficient resource allocation for mobile-edge computation offloading,” IEEE Transactions on Wireless Communications, vol. 16, no. 3, pp. 1397–1411, 2016.
  24. W. Chen, X. Lin, J. Lee, A. Toskala, S. Sun, C. F. Chiasserini, and L. Liu, “5g-advanced towards 6g: Past, present, and future,” arXiv preprint arXiv:2303.07456, 2023.
  25. A. Rajoriya, R. Budhiraja, and L. Hanzo, “Centralized and decentralized channel estimation in fdd multi-user massive mimo systems,” IEEE Transactions on Vehicular Technology, vol. 71, no. 7, pp. 7325–7342, 2022.
  26. F. Hu, Y. Deng, W. Saad, M. Bennis, and A. H. Aghvami, “Cellular-connected wireless virtual reality: Requirements, challenges, and solutions,” IEEE Communications Magazine, vol. 58, no. 5, pp. 105–111, 2020.
  27. M. Chen, W. Saad, and C. Yin, “Virtual reality over wireless networks: Quality-of-service model and learning-based resource management,” IEEE Transactions on Communications, vol. 66, no. 11, pp. 5621–5635, 2018.
  28. H. R. Chi and A. Radwan, “Fully-decentralized fairness-aware federated mec small-cell peer-offloading for enterprise management networks,” IEEE Transactions on Industrial Informatics, vol. 19, no. 1, pp. 644–652, 2022.
  29. J. Ren, G. Yu, Y. Cai, and Y. He, “Latency optimization for resource allocation in mobile-edge computation offloading,” IEEE Transactions on Wireless Communications, vol. 17, no. 8, pp. 5506–5519, 2018.
  30. P. Qian, V. S. H. Huynh, N. Wang, S. Anmulwar, D. Mi, and R. R. Tafazolli, “Remote production for live holographic teleportation applications in 5g networks,” IEEE transactions on broadcasting, vol. 68, no. 2, pp. 451–463, 2022.
  31. M. Mori, K. F. MacDorman, and N. Kageki, “The uncanny valley [from the field],” IEEE Robotics & automation magazine, vol. 19, no. 2, pp. 98–100, 2012.
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Authors (5)
  1. Dun Yuan (8 papers)
  2. Ekram Hossain (153 papers)
  3. Di Wu (477 papers)
  4. Xue Liu (156 papers)
  5. Gregory Dudek (57 papers)
Citations (1)
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