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HOLOTWIN: A Modular and Interoperable Approach to Holographic Telepresence System Development.

Ivaylo Bozhilov1, Radostina Petkova1, Krasimir Tonchev1

  • 1Faculty of Telecommunications, Technical University of Sofia, 8 Kliment Ohridski Blvd., 1000 Sofia, Bulgaria.

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Summary
This summary is machine-generated.

This study introduces a modular holographic telepresence system (HTPS) architecture. Modularity and interoperability are key for advancing holographic-type communication (HTC) and enabling future product development.

Keywords:
communication architecturesholographic communicationholographic telepresence systemsimage processingvirtual reality

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Area of Science:

  • * Computer Science
  • * Telecommunications Engineering
  • * Holographic Technology

Background:

  • * Holographic-type communication (HTC) is an emerging field with significant potential for immersive interaction.
  • * Existing HTC technologies often lack modularity and interoperability, hindering widespread adoption and standardization.
  • * The development of effective holographic telepresence systems (HTPSs) requires a robust and adaptable architectural foundation.

Purpose of the Study:

  • * To explore existing holographic-type communication (HTC) technologies.
  • * To propose and implement a novel, modular architecture for holographic telepresence systems (HTPSs).
  • * To evaluate the modularity, interoperability, and versatility of the proposed HTPS architecture.

Main Methods:

  • * Comprehensive review of current holographic-type communication (HTC) technologies.
  • * Design and implementation of a new modular architecture for holographic telepresence systems (HTPSs).
  • * Quantitative and qualitative assessments of the implemented platform's performance and capabilities.

Main Results:

  • * The proposed modular architecture for holographic telepresence systems (HTPSs) was successfully implemented.
  • * Demonstrated the platform's modularity, interoperability, and versatility through practical application.
  • * Identified areas for improvement alongside the promising capabilities of the developed HTPS.

Conclusions:

  • * Modularity and interoperability are crucial for the future advancement of holographic-type communication (HTC).
  • * The developed modular HTPS architecture provides a viable framework for future research and development.
  • * These principles are essential for efficient standardization and the creation of minimal viable products in HTC.