Visual Real-Time Communications Technologies

Price: Starting at USD 1,950
Publish Date: 03 Jun 2024
Code: AN-6193
Research Type: Research Report
Pages: 13
Visual Real-Time Communications Technologies
RELATED SERVICE: Augmented & Virtual Reality
Actionable Benefits

Actionable Benefits

  • Identify trends and key findings in visual real-time communications technologies.
  • Companies can align strategic plans and investment decision with the projected trends and forecasts in Extended Reality (XR) hardware shipments, ensuring they are well-positioned to leverage growth opportunities.
  • Analyze key players and ecosystems to identify competitive advantages and potential partnerships.
  • Insights to help organizations effectively integrate XR solutions into their operations.
Critical Questions Answered

Critical Questions Answered

  • What are the current findings in visual real-time communications, and how has the XR market been evolving?
  • What are the projected shipments for XR hardware by connectivity type (Wi-Fi, Bluetooth® Low Energy (LE), etc.)?
  • What are the critical technology challenges and how can they be addressed?
  • What are specific connectivity requirements in visual real-time communications, especially for XR?
Research Highlights

Research Highlights

  • A detailed breakdown of key findings, companies, and recommendations for visual real-time communications.
  • Forecasts of XR shipments by connectivity type.
  • Comprehensive analysis of implementation strategies, and how to overcome connectivity problems, especially when discussing low latencies.
Who Should Read This?

Who Should Read This?

  • Decision makers to make informed strategic decision and investments related to connectivity requirements and XR technologies.
  • Information Technology (IT) and network engineers to understand technology enablers for low-latency XR applications, ensuring optimal network performance, and visual real-time communication.
  • Developers to gain insights into market trends, hardware shipment forecasts, and technology advancements, helping design and develop XR products and chipsets.
  • Telecommunications providers to identify the infrastructure and connectivity requirements necessary to support low-latency XR applications and tailor them to their services.
  • Public safety and emergency response teams to explore how low-latency XR can improve coordination and communication in critical response situations.

Table of Contents

Key Findings

Recommendations

Key Forecasts

Key Companies and Ecosystems

Video Conferencing
Translation
Driving

Implementation Strategies and Technology Enablement

Connectivity Requirements