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Main Authors: Shakya, Dipankar, Abbasi, Naveed A., Ying, Mingjun, Jariwala, Isha, Qin, Jason J., Gupte, Ishaan S., Meier, Bridget, Qian, Guanyue, Abraham, Daniel, Rappaport, Theodore S., Molisch, Andreas F.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.00141
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author Shakya, Dipankar
Abbasi, Naveed A.
Ying, Mingjun
Jariwala, Isha
Qin, Jason J.
Gupte, Ishaan S.
Meier, Bridget
Qian, Guanyue
Abraham, Daniel
Rappaport, Theodore S.
Molisch, Andreas F.
author_facet Shakya, Dipankar
Abbasi, Naveed A.
Ying, Mingjun
Jariwala, Isha
Qin, Jason J.
Gupte, Ishaan S.
Meier, Bridget
Qian, Guanyue
Abraham, Daniel
Rappaport, Theodore S.
Molisch, Andreas F.
contents The necessity of new spectrum for 6G has intensified global interest in radio propagation measurements across emerging frequency bands, use cases, and antenna types. These measurements are vital for understanding radio channel properties in diverse environments, and involve time-consuming and expensive campaigns. A major challenge for the effective utilization of propagation measurement data has been the lack of a standardized format for reporting and archiving results. Although organizations such as NIST, NGA, and 3GPP have made commendable efforts for data pooling, a unified machine-readable data format for consolidating measurements across different institutions and frequencies remains a missing piece in advancing global standardization efforts. This paper introduces a standardized point-data format for radio propagation measurements and demonstrates how institutions may merge disparate campaigns into a common format. This data format, alongside an environmental map and a measurement summary metadata table, enables integration of data from disparate sources by using a structured representation of key parameters. Here, we show the efficacy of the point-data format standard using data gathered from two independent sub-THz urban microcell (UMi) campaigns: 142 GHz measurements at New York University (NYU) and 145 GHz measurements at the University of Southern California (USC). A joint path loss analysis using the close-in path loss model (1 m ref. distance) yields a refined estimate of the path loss exponent (PLE) employing the proposed standard to pool measurements. Other statistics such as RMS delay spread and angular spread are also determined using a joint point-data table. Adopting this simple, unified format will accelerate channel model development, build multi-institutional datasets, and feed AI/ML applications with reliable training data in a common format from many sources.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00141
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Standardized Machine-Readable Point-Data Format for Consolidating Wireless Propagation Across Environments, Frequencies, and Institutions
Shakya, Dipankar
Abbasi, Naveed A.
Ying, Mingjun
Jariwala, Isha
Qin, Jason J.
Gupte, Ishaan S.
Meier, Bridget
Qian, Guanyue
Abraham, Daniel
Rappaport, Theodore S.
Molisch, Andreas F.
Signal Processing
The necessity of new spectrum for 6G has intensified global interest in radio propagation measurements across emerging frequency bands, use cases, and antenna types. These measurements are vital for understanding radio channel properties in diverse environments, and involve time-consuming and expensive campaigns. A major challenge for the effective utilization of propagation measurement data has been the lack of a standardized format for reporting and archiving results. Although organizations such as NIST, NGA, and 3GPP have made commendable efforts for data pooling, a unified machine-readable data format for consolidating measurements across different institutions and frequencies remains a missing piece in advancing global standardization efforts. This paper introduces a standardized point-data format for radio propagation measurements and demonstrates how institutions may merge disparate campaigns into a common format. This data format, alongside an environmental map and a measurement summary metadata table, enables integration of data from disparate sources by using a structured representation of key parameters. Here, we show the efficacy of the point-data format standard using data gathered from two independent sub-THz urban microcell (UMi) campaigns: 142 GHz measurements at New York University (NYU) and 145 GHz measurements at the University of Southern California (USC). A joint path loss analysis using the close-in path loss model (1 m ref. distance) yields a refined estimate of the path loss exponent (PLE) employing the proposed standard to pool measurements. Other statistics such as RMS delay spread and angular spread are also determined using a joint point-data table. Adopting this simple, unified format will accelerate channel model development, build multi-institutional datasets, and feed AI/ML applications with reliable training data in a common format from many sources.
title Standardized Machine-Readable Point-Data Format for Consolidating Wireless Propagation Across Environments, Frequencies, and Institutions
topic Signal Processing
url https://arxiv.org/abs/2510.00141