Edge Computing Paradigm

Edge Computing Paradigm

Edge computing is a model in which data, processing and applications are concentrated in devices at the network rather than existing almost entirely in the cloud.

Edge Computing is a paradigm that extends Cloud Computing and services to the of the network, similar to Cloud, Edge provides data, compute, storage, and application services to end-users.

Edge Computing reduces service latency, and improves QoS (Quality of Service), resulting in superior user-experience. #Edge Computing supports emerging concept of Metaverse applications that demand real-time/predictable latency (industrial automation, transportation, networks of sensors and actuators). Edge Computing paradigm is well positioned for real time Big Data and real time analytics, it supports densely distributed data collection points, hence adding a fourth axis to the often-mentioned Big Data dimensions (volume, variety, and velocity).

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Unlike traditional data centers, Edge devices are geographically distributed over heterogeneous platforms, spanning multiple management domains. That means data can be processed locally in smart devices rather than being sent to the cloud for processing.

Edge Computing Services cover:

  • Applications that require very low and predictable latency.
  • Geographically distributed applications
  • Fast mobile applications
  • Large-scale distributed control systems

Advantages of Edge computing

  • Bringing data close to the user. Instead of housing information at data center sites far from the end-point, the Edge aims to place the data close to the end-user.
  • Creating dense geographical distribution. First of all, big data and analytics can be done faster with better results. Second, administrators are able to support location-based mobility demands and not have to traverse the entire network. Third, these (Edge) systems would be created in such a way that real-time data analytics become a reality on a truly massive scale.
  • True support for mobility and the Metaverse. By controlling data at various points, Edge computing integrates core cloud services with those of a truly distributed data center platform. As more services are created to benefit the end-user, and Edge networks will become more prevalent.
  • Numerous verticals are ready to adopt. Many organizations are already adopting the concept of the Edge. Many different types of services aim to deliver rich content to the end-user. This spans IT shops, vendors, and entertainment companies as well.
  • Seamless integration with the cloud and other services. With Edge services, we’re able to enhance the cloud experience by isolating user data that needs to live on the Edge. From there, administrators are able to tie-in analytics, security, or other services directly into their cloud model.

Benefits of Edge Computing

  • Minimize latency
  • Conserve network bandwidth
  • Address security concerns at all level of the network
  • Operate reliably with quick decisions
  • Collect and secure wide range of data
  • Move data to the best place for processing
  • Lower expenses of using high computing power only when needed and less bandwidth
  • Better analysis and insights of local data

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Real-Life Example:

A traffic light system in a major city is equipped with smart sensors. It is the day after the local team won a championship game and it’s the morning of the day of the big parade. A surge of traffic into the city is expected as revelers come to celebrate their team’s win. As the traffic builds, data are collected from individual traffic lights. The application developed by the city to adjust light patterns and timing is running on each edge device. The app automatically makes adjustments to light patterns in real time, at the edge, working around traffic impediments as they arise and diminish. Traffic delays are kept to a minimum, and fans spend less time in their cars and have more time to enjoy their big day.

After the parade is over, all the data collected from the traffic light system would be sent up to the cloud and analyzed, supporting predictive analysis and allowing the city to adjust and improve its traffic application’s response to future traffic anomalies. There is little value in sending a live steady stream of everyday traffic sensor data to the cloud for storage and analysis. The civic engineers have a good handle on normal traffic patterns. The relevant data is sensor information that diverges from the norm, such as the data from parade day.

Future of Edge Computing

As more services, data and applications are pushed to the end-user, technologists will need to find ways to optimize the delivery process. This means bringing information closer to the end-user, reducing latency and being prepared for the Metaverse and its applications in Web 3.0. More users are utilizing mobility as their means to conduct business and their personal lives. Rich content and lots of data points are pushing cloud computing platforms, literally, to the Edge – where the user’s requirements are continuing to grow.

With the increase in data and cloud services utilization, Edge Computing will play a key role in helping reduce latency and improving the user experience. We are now truly distributing the data plane and pushing advanced services to the Edge. By doing so, administrators are able to bring rich content to the user faster, more efficiently, and – very importantly – more economically. This, ultimately, will mean better data access, improved corporate analytics capabilities, and an overall improvement in the end-user computing experience.

Moving the intelligent processing of data to the edge only raises the stakes for maintaining the availability of these smart gateways and their communication path to the cloud. When the Internet of Things (IoT) provides methods that allow people to manage their daily lives, from locking their homes to checking their schedules to cooking their meals, gateway downtime in the Edge Computing world becomes a critical issue. Additionally, resilience and failover solutions that safeguard those processes will become even more essential. Generally speaking, we are moving towards localization to distributed model away from the current strained centralized system defining the Internet infrastructure.

?Ahmed Banafa, Author the Books:

Secure and Smart Internet of Things (IoT) Using Blockchain and AI

Blockchain Technology and Applications

Quantum Computing

Read more articles at: Prof. Banafa website


References ?

https://www.dhirubhai.net/pulse/why-iot-needs-fog-computing-ahmed-banafa/

https://www.dhirubhai.net/pulse/fog-computing-vital-successful-internet-things-iot-ahmed-banafa/

https://www.cisco.com/web/about/ac50/ac207/crc_new/university/RFP/rfp13078.html

https://www.howtogeek.com/185876/what-is-Edge-computing/

https://newsroom.cisco.com/feature-content?type=webcontent&articleId=1365576

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