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September 24, 2024

Improving Internet Performance for Time-Sensitive Applications

Improving Internet Performance for Time-Sensitive Applications

Have you ever experienced video freezing during a live sports event or lag while gaming online? Researchers have proposed new ideas to address these issues and make our online experiences smoother.

The Problem: Internet Traffic Jams

The Internet can be thought of as a system of roads. When there's too much traffic, things slow down and get congested. This is what causes lag or buffering while streaming video or gaming online.

Currently, most internet traffic is treated equally. However, some types of data, like live video streams or gaming data, are more time-sensitive than others. Even slight delays can significantly impact the user experience.

A New "Fast Lane" for the Internet

To address this, the internet community of researchers and practitioners has developed "L4S" (Low Latency, Low Loss, Scalable throughput). Think of L4S as a special fast lane on the internet highway, designed to prioritize time-sensitive data.

However, if too much traffic uses this fast lane, it could become as slow as the regular lanes. To prevent this, researchers DJ Lal and Christopher Phillips propose a smarter way that even expands the scope of applications that may use the fast lane.

Smarter Use of the Fast Lane

The researchers suggest different approaches that are contextually adapted to the applications using the fast lane:

  1. For fast-paced applications (like cloud gaming): Use the fast lane only for sudden increases in data volume, such as when a new scene needs to be rendered quickly.
  2. For live streaming (like sports events): Only put video chunks that require higher data volume into the fast lane. This could help prevent buffering during crucial moments.

Dealing with Out-of-Order Data

One challenge with this approach is that data might arrive out of order. The researchers suggest creating separate "streams" for the fast and regular data, then reassembling them in the correct order when they reach the user's device.

Potential Benefits

If implemented, these ideas could lead to:

  1. Smoother gaming experiences with less lag
  2. Better live streaming with fewer interruptions
  3. More efficient use of existing internet infrastructure

Looking Ahead

While these are still proposals that require extensive testing and cooperation from various internet infrastructure stakeholders, they represent an exciting step towards a more responsive internet.

The researchers acknowledge that more work is needed to determine exactly when to use the "fast lane" and how to balance its use with regular internet traffic. However, these ideas offer a glimpse into a future where our online experiences could be significantly improved.

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JoAnn Yamani

Vice President, Communications & Marketing

JoAnn is Vice President of Communications & Marketing at Adeia, where she drives our brand and marketing goals forward while staying aligned with key business objectives. As an expert communicator and strategist, she oversees the design and execution of all campaigns and cultivates strong relationships with stakeholders. Prior to joining Adeia, JoAnn was the Head of Communications at NIO, where she developed strategic initiatives and brand-building opportunities and cultivated top-tier media coverage for the company. She also served as the Director of Corporate Communications at Western Digital, and communicated the crossover between semiconductors, AI, precision medicine and autonomous driving with key audiences. JoAnn received her B.A. in Government & Economics from Mills College and earned her J.D. from Santa Clara University.