Exploring cross-industry collaboration between 5G and edge computing

Exploring cross-industry collaboration between 5G and edge computing

The combination of 5G networks and edge computing has ushered in an era of change across industries. 5G, often referred to as "Enterprise G," provides unparalleled bandwidth, reliability, low-latency capabilities, and cost efficiency. At the same time, edge computing strategically positions processing and storage close to the data source, further amplifying this technological revolution.

5G, with its huge leap in network capabilities, is the key to the next generation of business application innovation. As a result, multi-access edge computing (MEC) has been gaining attention, forcing enterprises to move their applications closer to the data processing point.

In healthcare, this combination is taking remote diagnostics and patient care to new heights. Likewise, real-time monitoring, predictive maintenance, and increased operational efficiency are pushing the boundaries of industry sectors.

Likewise, this dynamic duo unlocks countless possibilities, including immersive AI and VR, enhanced personalized content delivery, and interactive experiences.

Unlocking potentially transformative use cases

1. Driving healthcare transformation: Low latency, data decentralization, a single access point, and real-time reporting change the way we deliver and receive healthcare at the edge of the network. In addition to expanding the scope of innovation, it can also improve efficiency.

  • Improved triage and support: Real-time imaging, analysis, and local processing of data from smart devices will ensure timely response and intervention.
  • Reduce data vulnerability: Through localized data processing, network slicing, and low latency, a more secure and resilient network can be created.
  • Personalized Virtual Care: Uninterrupted consultation, real-time data analysis, and enhanced communication allow effective personalized care to be utilized anywhere.
  • Building smart healthcare: Seamless integration of medical devices, ingestible sensors, and more creates an effective ecosystem that expands monitoring and treatment.

2. Completely change the personalized retail experience: Currently, in a complex data environment, 5G edge computing will support a complete change in personalized retail experience and instant automation. This technology plays an important role in unlocking the "dematerialized" shopping experience. Provide simplified and real-time operations.

  • Preventing leakage: The ability to instantly analyze data from video streams and sensors enables retailers to streamline supply chains, reduce retail shrinkage, and automatically replenish inventory.
  • Supply Chain Optimization: Low latency and high computing power enable retailers to deliver targeted marketing campaigns, personalized recommendations, and advertising. It also helps strengthen security measures.
  • Efficient store layout: The technology helps enable self-checkout (SCO) and buy online, pickup in store (BOPIS) capabilities through interactive screens or real-time personalization via smartphones, sensors and cameras.

3. Unleashing interconnected smart cities: Covering the entire field, from optimizing street lighting and traffic flow to smart buildings and parks, improving edge connectivity through 5G distributed cloud architecture and enhanced network resilience can transform cities into interconnected smart ecosystems.

  • Digital rights: As data and governance become more reliable, people can fully participate in city activities through smart devices.
  • Smart Environments: Smart homes, parking lots, and other AI devices can improve their performance by providing low-latency, on-demand computing resources.
  • Improved visibility: Low-latency, real-time monitoring will enable better monitoring, faster decision making, and data protection.
  • Reduced operational expenses: Decentralization, distributed computing infrastructure, and local data processing will optimize network bandwidth, reduce storage costs, and provide nearly unlimited scalability.

4. Next-generation telecom convergence: In addition to processing data in real time closer to where it is generated, the introduction of 5G will also reduce high bandwidth costs for businesses and help operate in areas with low or no internet.

  • Improve network efficiency: The distributed nature of edge computing can reduce the load on the core network, enhance availability and resilience, and minimize congestion at the end.
  • Accelerate content delivery: By deploying edge servers closer to end users, telecom providers can significantly reduce the distance data needs to travel, thereby speeding up content delivery.
  • Flexible scalability: Minimizes network challenges, enabling telecom operators to optimize resource allocation, accurately deliver services, and achieve excellent scalability, especially during peak hours or in high-density areas.

5. Autonomous edge connectivity in transportation: Localized data processing, low-latency connectivity, and real-time analytics can revolutionize the way logistics functions, enabling connectivity in areas lacking traditional infrastructure, addressing supply chain resilience issues, and improving operational efficiency and safety.

  • Connected Vehicles: Seamless Ultra-Reliable Low-Latency Communication (URLLC) between vehicles and roadside infrastructure will enable efficient tracking of objects, remote control, and process automation in autonomous vehicles.
  • Smart Infrastructure: By enabling up to 1 million connections per square kilometer, connected infrastructure endpoints will help rapidly optimize traffic flow and improve overall road efficiency.
  • Enhanced Communication: Continuous real-time communication and data exchange between vehicles and teams will optimize routes, improve fuel efficiency, experience and reduce maintenance costs, and enhance fleet operations.
  • A tailor-made experience: High-speed internet access, along with optimized routes and customized recommendations, ensures a seamless and enjoyable travel experience.

Harnessing the power of 5G and edge computing to enable a collaborative revolution

The seamless integration of 5G networks and edge computing will fundamentally change the way we communicate and experience things, as new opportunities (real-time intelligence), streamlined operations (autonomous systems), better experiences for customers (immersive experiences), and enhanced cybersecurity emerge—usually ushering in a hyper-connected future that will reveal multiple possibilities across different sectors.

<<:  How the global 5G network will reshape future defense strategies

>>:  Ethernet vs. WiFi: A Comparison of Internet Connection Technologies

Recommend

How to implement a real-time monitoring system for tens of billions of visits?

[51CTO.com original article] The author has joine...

An Internet cable makes the whole dormitory building quieter after lights out

He tells the story of how he used an internet cab...

Could 5G networks enable faster, cheaper food production?

In the ongoing quest to develop cheaper and more ...

How long will it take for 5G small base stations to "take off"?

In the era of rapid changes in information and co...

How to force close TCP connection in Go

[[425673]] This article is reprinted from the WeC...

5G development is gradually getting better

On June 6, 2019, the Ministry of Industry and Inf...

With a downlink rate of over 100Mbps, can Starlink really replace 5G?

According to Mobile World Live, Ookla's lates...

What other uses does a wireless router have besides WiFi access?

Wireless routers have entered thousands of househ...