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Main Authors: Mi, Yu, Bhatia, Randeep, Hao, Fang, Wang, An, Benno, Steve, Lakshman, Tv
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.20246
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author Mi, Yu
Bhatia, Randeep
Hao, Fang
Wang, An
Benno, Steve
Lakshman, Tv
author_facet Mi, Yu
Bhatia, Randeep
Hao, Fang
Wang, An
Benno, Steve
Lakshman, Tv
contents Low-latency applications like AR/VR and online gaming need fast, stable connections. New technologies such as V2X, LEO satellites, and 6G bring unique challenges in mobility management. Traditional solutions based on centralized or distributed anchors often fall short in supporting rapid mobility due to inefficient routing, low versatility, and insufficient multi-access support. In this paper, we design a new end-to-end system for tracking multi-connected mobile devices at scale and optimizing performance for latency-sensitive, highly dynamic applications. Our system, based on the locator/ID separation principle, extends to multi-access networks without requiring specialized routers or caching. Using a novel tree embedding-based overlay, we enable fast session setup while allowing endpoints to directly handle mobility between them. Evaluation with real network data shows our solution cuts connection latency to 7.42% inflation over the shortest path, compared to LISP's 359\% due to cache misses. It also significantly reduces location update overhead and disruption time during mobility.
format Preprint
id arxiv_https___arxiv_org_abs_2504_20246
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Tree embedding based mapping system for low-latency mobile applications in multi-access networks
Mi, Yu
Bhatia, Randeep
Hao, Fang
Wang, An
Benno, Steve
Lakshman, Tv
Networking and Internet Architecture
Low-latency applications like AR/VR and online gaming need fast, stable connections. New technologies such as V2X, LEO satellites, and 6G bring unique challenges in mobility management. Traditional solutions based on centralized or distributed anchors often fall short in supporting rapid mobility due to inefficient routing, low versatility, and insufficient multi-access support. In this paper, we design a new end-to-end system for tracking multi-connected mobile devices at scale and optimizing performance for latency-sensitive, highly dynamic applications. Our system, based on the locator/ID separation principle, extends to multi-access networks without requiring specialized routers or caching. Using a novel tree embedding-based overlay, we enable fast session setup while allowing endpoints to directly handle mobility between them. Evaluation with real network data shows our solution cuts connection latency to 7.42% inflation over the shortest path, compared to LISP's 359\% due to cache misses. It also significantly reduces location update overhead and disruption time during mobility.
title Tree embedding based mapping system for low-latency mobile applications in multi-access networks
topic Networking and Internet Architecture
url https://arxiv.org/abs/2504.20246