Holographic and Immersive Communication: The End of Screens in 6G and Beyond?

For decades, screens have been the primary interface between humans and digital content—whether on computers, smartphones, or TVs. However, next-generation networks could eliminate the need for screens altogether, ushering in an era of holographic communication and fully immersive digital experiences​​.

Imagine conducting a business meeting where colleagues appear as life-size holograms in your living room, or interacting with virtual environments in real-time—all without relying on physical screens. With ultra-high bandwidth and near-zero latency, next-gen networks will enable real-time holographic telepresence, haptic feedback, and multi-sensory experiences, revolutionizing the way we communicate, learn, and socialize​. The following presents a standardisation oriented view.

What is Holographic and Immersive Communication?

Holographic and immersive communication refers to technologies that allow 3D, interactive digital content to be projected into real-world environments without traditional displays. These technologies leverage holography, spatial computing, AI, and high-speed networks to create realistic, real-time interactions​.

📌 Key Features of Holographic Communication in Next-Gen Networks:
✅ Real-Time Holographic Telepresence: 3D holograms projected into physical space.
✅ Immersive Virtual and Augmented Reality: Digital objects interact naturally with real-world environments.
✅ Haptic Feedback Integration: Tactile sensations allow users to "feel" virtual objects.
✅ Ultra-Low Latency Interaction: Near-instantaneous data transmission ensures seamless communication.

Why Holographic Communication Needs Next-Gen Networks

1. Massive Data Transfer at Terabit Speeds

• Holographic telepresence requires data rates exceeding 1 Tbps to stream high-resolution, real-time 3D projections​.
• Current networks’ peak speeds (10 Gbps) are insufficient, making next-gen networks’ THz spectrum essential​.

2. Ultra-Low Latency for Realistic Interaction

• To prevent lag in holographic calls, next-gen networks must reduce latency to below 1 ms​.
• AI-powered edge computing will process holographic data in real-time, reducing delay.

3. Seamless Multi-Sensory Integration

• Holographic communication will integrate visual, auditory, and haptic feedback for lifelike experiences.
• Tactile internet technology will allow users to "touch" and "feel" holographic objects​.

Challenges of Holographic and Immersive Communication

1. Data Processing & Network Load

Holographic streaming will generate petabytes of data, requiring AI-powered compression and distributed processing​.

🛠️ Potential Solutions:

• Edge AI & Federated Learning: Reducing cloud dependency by processing holographic data locally.
• AI-Optimized Data Compression: Minimizing bandwidth requirements without loss of quality.

2. Hardware Limitations

Today’s displays, projectors, and VR/AR headsets are bulky and power-hungry, making full-scale holographic communication impractical​.

🛠️ Potential Solutions:

• Light Field Displays & Holographic Optical Elements: Eliminating the need for VR headsets.
• Quantum Dot and Meta-Material-Based Holographic Screens: Creating ultra-thin, energy-efficient holographic interfaces​.

3. Security and Privacy Concerns

• Holographic deepfakes and privacy risks will require strict regulations​.
• Unauthorized access to immersive experiences could lead to new cybersecurity challenges.

🛠️ Potential Solutions:

• Post-Quantum Cryptography & Secure Identity Verification.
• Global Standards for Ethical AI & Digital Identity Protection.

Key Applications of Holographic Communication

1. Business & Remote Work

🏢 Holographic meetings will replace video calls, enabling life-size interactions​.

2. Education & Training

🎓 Medical students could practice surgery on 3D holographic patients before real-world procedures​.

3. Entertainment & Gaming

🎮 Fully immersive AR/VR games with haptic feedback and AI-driven storylines​.

The Road Ahead: 3GPP’s Holographic Communication Roadmap

📌 Release 19 (2024-2025):

• Study on Holographic Communication & Bandwidth Requirements 

📌 Release 20 (2026-2028):

• Integration of AI for Holographic Data Compression 

📌 Release 21+ (2028-2030):

• Finalization of Next-Gen Holographic Network Architecture​.

Final Thoughts: Are We Ready for a World Without Screens?

Holographic and immersive communication will redefine human-computer interaction, enabling:
✅ Seamless, 3D Telepresence
✅ Haptic and AI-Driven Experiences
✅ Next-Level Education, Healthcare, and Gaming

However, data processing, security, and ethical concerns must be addressed before holography becomes mainstream. With 3GPP and ITU leading standardization efforts, the era of screen-free communication is closer than ever.

🚀 What excites you most about holographic communication? Let’s discuss below!

References & Further Reading

📄 ITU-R M.2160-0 (2023) – Framework and overall objectives of the future development of IMT for 2030 and beyond ​
📄 3GPP TR 22.870 (2024) – Study on 6G Use Cases and Service Requirements​
📄 3GPP RP-243327 – New SID: Study on 6G Scenarios and requirements
📄 3GPP RP-243245 – New SID: Study on Artificial Intelligence (AI)/Machine Learning (ML) for NR air interface Phase 2
📄 3GPP SP-241695 – New WID on Rel-19 Application Data Analytics Enablement Service
📄 3GPP SP-241778 – New WID on security support for the Next Generation Real Time Communication services Phase 2