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Main Authors: Chou, Shih-Kai, Costa, Maice, Mohorčič, Mihael, Hribar, Jernej
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.11946
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author Chou, Shih-Kai
Costa, Maice
Mohorčič, Mihael
Hribar, Jernej
author_facet Chou, Shih-Kai
Costa, Maice
Mohorčič, Mihael
Hribar, Jernej
contents The timeliness of collected information is essential for monitoring and control in data-driven intelligent infrastructures. It is typically quantified using the Age of Information (AoI) metric, which has been widely adopted to capture the freshness of information received in the form of status updates. While AoI-based metrics quantify how timely the collected information is, they largely overlook the environmental impact associated with frequent transmissions, specifically, the resulting Carbon Footprint (CF). To address this gap, we introduce a carbon-aware AoI framework. We first derive closed-form expressions for the average AoI under constrained CF budgets for the baseline $M/M/1$ and $M/M/1^*$ queuing models, assuming fixed Carbon Intensity (CI). We then extend the analysis by treating CI as a dynamic, time-varying parameter and solve the AoI minimization problem. Our results show that minimizing AoI does not inherently minimize CF, highlighting a clear trade-off between information freshness and environmental impact. CI variability further affects achievable AoI, indicating that sustainable operation requires joint optimization of CF budgets, Signal-to-noise Ratio (SNR), and transmission scheduling. This work lays the foundation for carbon-aware information freshness optimization in next-generation networks.
format Preprint
id arxiv_https___arxiv_org_abs_2602_11946
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Towards a Sustainable Age of Information Metric: Carbon Footprint of Real-Time Status Updates
Chou, Shih-Kai
Costa, Maice
Mohorčič, Mihael
Hribar, Jernej
Information Theory
The timeliness of collected information is essential for monitoring and control in data-driven intelligent infrastructures. It is typically quantified using the Age of Information (AoI) metric, which has been widely adopted to capture the freshness of information received in the form of status updates. While AoI-based metrics quantify how timely the collected information is, they largely overlook the environmental impact associated with frequent transmissions, specifically, the resulting Carbon Footprint (CF). To address this gap, we introduce a carbon-aware AoI framework. We first derive closed-form expressions for the average AoI under constrained CF budgets for the baseline $M/M/1$ and $M/M/1^*$ queuing models, assuming fixed Carbon Intensity (CI). We then extend the analysis by treating CI as a dynamic, time-varying parameter and solve the AoI minimization problem. Our results show that minimizing AoI does not inherently minimize CF, highlighting a clear trade-off between information freshness and environmental impact. CI variability further affects achievable AoI, indicating that sustainable operation requires joint optimization of CF budgets, Signal-to-noise Ratio (SNR), and transmission scheduling. This work lays the foundation for carbon-aware information freshness optimization in next-generation networks.
title Towards a Sustainable Age of Information Metric: Carbon Footprint of Real-Time Status Updates
topic Information Theory
url https://arxiv.org/abs/2602.11946