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Autori principali: Cheraghinia, Mohammad, De Poorter, Eli, Fontaine, Jaron, Kim, Kwang Soon, Debbah, Merouane, Shahid, Adnan
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2511.14895
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author Cheraghinia, Mohammad
De Poorter, Eli
Fontaine, Jaron
Kim, Kwang Soon
Debbah, Merouane
Shahid, Adnan
author_facet Cheraghinia, Mohammad
De Poorter, Eli
Fontaine, Jaron
Kim, Kwang Soon
Debbah, Merouane
Shahid, Adnan
contents While machine learning is widely used to optimize wireless networks, training a separate model for each task in communication and localization is becoming increasingly unsustainable due to the significant costs associated with training and deployment. Foundation models offer a more scalable alternative by enabling a single model to be adapted across multiple tasks through fine-tuning with limited samples. However, current foundation models mostly rely on large-scale Transformer architectures, resulting in computationally intensive models unsuitable for deployment on typical edge devices. This paper presents a lightweight foundation model based on simple Multi-Layer-Perceptron (MLP) encoders that independently process input patches. Our model supports 4 types of downstream tasks (long-range technology recognition, short-range technology recognition, modulation recognition and line-of-sight-detection) from multiple input types (IQ and CIR) and different sampling rates. We show that, unlike Transformers, which can exhibit performance drops as downstream tasks are added, our MLP model maintains robust generalization performance, achieving over 97% accurate fine-tuning results for previously unseen data classes. These results are achieved despite having only 21K trainable parameters, allowing an inference time of 0.33 ms on common edge devices, making the model suitable for constrained real-time deployments.
format Preprint
id arxiv_https___arxiv_org_abs_2511_14895
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Lightweight Foundation Model for Wireless Time Series Downstream Tasks on Edge Devices
Cheraghinia, Mohammad
De Poorter, Eli
Fontaine, Jaron
Kim, Kwang Soon
Debbah, Merouane
Shahid, Adnan
Signal Processing
While machine learning is widely used to optimize wireless networks, training a separate model for each task in communication and localization is becoming increasingly unsustainable due to the significant costs associated with training and deployment. Foundation models offer a more scalable alternative by enabling a single model to be adapted across multiple tasks through fine-tuning with limited samples. However, current foundation models mostly rely on large-scale Transformer architectures, resulting in computationally intensive models unsuitable for deployment on typical edge devices. This paper presents a lightweight foundation model based on simple Multi-Layer-Perceptron (MLP) encoders that independently process input patches. Our model supports 4 types of downstream tasks (long-range technology recognition, short-range technology recognition, modulation recognition and line-of-sight-detection) from multiple input types (IQ and CIR) and different sampling rates. We show that, unlike Transformers, which can exhibit performance drops as downstream tasks are added, our MLP model maintains robust generalization performance, achieving over 97% accurate fine-tuning results for previously unseen data classes. These results are achieved despite having only 21K trainable parameters, allowing an inference time of 0.33 ms on common edge devices, making the model suitable for constrained real-time deployments.
title Lightweight Foundation Model for Wireless Time Series Downstream Tasks on Edge Devices
topic Signal Processing
url https://arxiv.org/abs/2511.14895