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Toward truly immersive holographic-type ccommunication : challenges and solutions

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Abstract
With significant advances in holographic display technology, a plethora of interactive applications, such as tele-conferencing and tele-surgery, are well on their way to integrating holographic technologies. However, hologram-based applications will place significant demands on networking infrastructure, which are not supported today. These include support for ultra-low delays, high bandwidth, and the ability to coordinate, synchronize, and dynamically adapt multiple data streams. This article articulates these challenges and points out gaps in existing networks that solutions must address. In addition, it provides an experimental analysis of novel network architectures that address one of these challenges, namely the ability to dynamically set up new flows with very low latency incurred by the first packet.

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Citation

Please use this url to cite or link to this publication:

MLA
Clemm, Alexander, et al. “Toward Truly Immersive Holographic-Type Ccommunication : Challenges and Solutions.” IEEE COMMUNICATIONS MAGAZINE, vol. 58, no. 1, 2020, pp. 93–99.
APA
Clemm, A., Torres Vega, M., Ravuri, H. K., Wauters, T., & De Turck, F. (2020). Toward truly immersive holographic-type ccommunication : challenges and solutions. IEEE COMMUNICATIONS MAGAZINE, 58(1), 93–99.
Chicago author-date
Clemm, Alexander, Maria Torres Vega, Hemanth Kumar Ravuri, Tim Wauters, and Filip De Turck. 2020. “Toward Truly Immersive Holographic-Type Ccommunication : Challenges and Solutions.” IEEE COMMUNICATIONS MAGAZINE 58 (1): 93–99.
Chicago author-date (all authors)
Clemm, Alexander, Maria Torres Vega, Hemanth Kumar Ravuri, Tim Wauters, and Filip De Turck. 2020. “Toward Truly Immersive Holographic-Type Ccommunication : Challenges and Solutions.” IEEE COMMUNICATIONS MAGAZINE 58 (1): 93–99.
Vancouver
1.
Clemm A, Torres Vega M, Ravuri HK, Wauters T, De Turck F. Toward truly immersive holographic-type ccommunication : challenges and solutions. IEEE COMMUNICATIONS MAGAZINE. 2020;58(1):93–9.
IEEE
[1]
A. Clemm, M. Torres Vega, H. K. Ravuri, T. Wauters, and F. De Turck, “Toward truly immersive holographic-type ccommunication : challenges and solutions,” IEEE COMMUNICATIONS MAGAZINE, vol. 58, no. 1, pp. 93–99, 2020.
@article{8662293,
  abstract     = {With significant advances in holographic display technology, a plethora of interactive applications, such as tele-conferencing and tele-surgery, are well on their way to integrating holographic technologies. However, hologram-based applications will place significant demands on networking infrastructure, which are not supported today. These include support for ultra-low delays, high bandwidth, and the ability to coordinate, synchronize, and dynamically adapt multiple data streams. This article articulates these challenges and points out gaps in existing networks that solutions must address. In addition, it provides an experimental analysis of novel network architectures that address one of these challenges, namely the ability to dynamically set up new flows with very low latency incurred by the first packet.},
  author       = {Clemm, Alexander and Torres Vega, Maria and Ravuri, Hemanth Kumar and Wauters, Tim and De Turck, Filip},
  issn         = {0163-6804},
  journal      = {IEEE COMMUNICATIONS MAGAZINE},
  language     = {eng},
  number       = {1},
  pages        = {93--99},
  title        = {Toward truly immersive holographic-type ccommunication : challenges and solutions},
  url          = {http://dx.doi.org/10.1109/MCOM.001.1900272},
  volume       = {58},
  year         = {2020},
}

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