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Hauptverfasser: Bharadwaj, Sagar, Ma, Ziyong, Liang, Ivan, Farb, Michael, Rowe, Anthony, Seshan, Srinivasan
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2411.04271
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author Bharadwaj, Sagar
Ma, Ziyong
Liang, Ivan
Farb, Michael
Rowe, Anthony
Seshan, Srinivasan
author_facet Bharadwaj, Sagar
Ma, Ziyong
Liang, Ivan
Farb, Michael
Rowe, Anthony
Seshan, Srinivasan
contents Spatial applications, i.e., applications that tie digital information with the physical world, have improved many of our daily activities, such as navigation and ride-sharing. This class of applications also holds significant promise of enabling new industries such as augmented reality and robotics. The development of these applications is enabled by a system that can resolve real-world locations to names, or a spatial naming system. Today, mapping platforms provided by organizations like Google and Apple serve as spatial naming systems. These maps are centralized and primarily cover outdoor spaces. We envision that future spatial applications, such as persistent world-scale augmented reality, would require detailed and precise spatial data across indoor and outdoor spaces. The scale of cartography efforts required to survey indoor spaces and their privacy needs inhibit existing centralized maps from incorporating such spaces into their platform. In this paper, we present the design and implementation of OpenFLAME stands for Open Federated Localization and Mapping Engine, a federated spatial naming system, or in other words, a federated mapping infrastructure. It enables independent parties to manage and serve their own maps of physical regions. This unlocks scalability of map management, isolation, and privacy of maps. The discovery system that identifies maps hosted at a given location is a primary component of our system. We implement OpenFLAME on top of the existing Domain Name System (DNS), which enables us to leverage its existing infrastructure. We implement map services such as address-to-location mapping, routing, and localization on top of our federated mapping infrastructure.
format Preprint
id arxiv_https___arxiv_org_abs_2411_04271
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle OpenFLAME: A Federated Spatial Naming Infrastructure
Bharadwaj, Sagar
Ma, Ziyong
Liang, Ivan
Farb, Michael
Rowe, Anthony
Seshan, Srinivasan
Distributed, Parallel, and Cluster Computing
Spatial applications, i.e., applications that tie digital information with the physical world, have improved many of our daily activities, such as navigation and ride-sharing. This class of applications also holds significant promise of enabling new industries such as augmented reality and robotics. The development of these applications is enabled by a system that can resolve real-world locations to names, or a spatial naming system. Today, mapping platforms provided by organizations like Google and Apple serve as spatial naming systems. These maps are centralized and primarily cover outdoor spaces. We envision that future spatial applications, such as persistent world-scale augmented reality, would require detailed and precise spatial data across indoor and outdoor spaces. The scale of cartography efforts required to survey indoor spaces and their privacy needs inhibit existing centralized maps from incorporating such spaces into their platform. In this paper, we present the design and implementation of OpenFLAME stands for Open Federated Localization and Mapping Engine, a federated spatial naming system, or in other words, a federated mapping infrastructure. It enables independent parties to manage and serve their own maps of physical regions. This unlocks scalability of map management, isolation, and privacy of maps. The discovery system that identifies maps hosted at a given location is a primary component of our system. We implement OpenFLAME on top of the existing Domain Name System (DNS), which enables us to leverage its existing infrastructure. We implement map services such as address-to-location mapping, routing, and localization on top of our federated mapping infrastructure.
title OpenFLAME: A Federated Spatial Naming Infrastructure
topic Distributed, Parallel, and Cluster Computing
url https://arxiv.org/abs/2411.04271