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Your search keyword '"Al-Shawabka, Amani"' showing total 13 results
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13 results on '"Al-Shawabka, Amani"'

1. SignCRF: Scalable Channel-agnostic Data-driven Radio Authentication System

Author

Al-shawabka, Amani, Pietraski, Philip, Pattar, Sudhir B, Johari, Pedram, and Melodia, Tommaso

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

Radio Frequency Fingerprinting through Deep Learning (RFFDL) is a data-driven IoT authentication technique that leverages the unique hardware-level manufacturing imperfections associated with a particular device to recognize (fingerprint) the device based on variations introduced in the transmitted waveform. The proposed SignCRF is a scalable, channel-agnostic, data-driven radio authentication platform with unmatched precision in fingerprinting wireless devices based on their unique manufacturing impairments and independent of the dynamic channel irregularities caused by mobility. SignCRF consists of (i) a baseline classifier finely trained to authenticate devices with high accuracy and at scale; (ii) an environment translator carefully designed and trained to remove the dynamic channel impact from RF signals while maintaining the radio's specific signature; (iii) a Max-Rule module that selects the highest precision authentication technique between the baseline classifier and the environment translator per radio. We design, train, and validate the performance of SignCRF for multiple technologies in dynamic environments and at scale (100 LoRa and 20 WiFi devices). We demonstrate that SignCRF significantly improves the RFFDL performance by achieving as high as 5x and 8x improvement in correct authentication of WiFi and LoRa devices when compared to the state-of-the-art, respectively., Comment: 11 pages, 13 figures, 3 tables

Published
2023

2. DeepFIR: Addressing the Wireless Channel Action in Physical-Layer Deep Learning

Author

Restuccia, Francesco, D'Oro, Salvatore, Al-Shawabka, Amani, Rendon, Bruno Costa, Ioannidis, Stratis, and Melodia, Tommaso

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

Deep learning can be used to classify waveform characteristics (e.g., modulation) with accuracy levels that are hardly attainable with traditional techniques. Recent research has demonstrated that one of the most crucial challenges in wireless deep learning is to counteract the channel action, which may significantly alter the waveform features. The problem is further exacerbated by the fact that deep learning algorithms are hardly re-trainable in real time due to their sheer size. This paper proposes DeepFIR, a framework to counteract the channel action in wireless deep learning algorithms without retraining the underlying deep learning model. The key intuition is that through the application of a carefully-optimized digital finite input response filter (FIR) at the transmitter's side, we can apply tiny modifications to the waveform to strengthen its features according to the current channel conditions. We mathematically formulate the Waveform Optimization Problem (WOP) as the problem of finding the optimum FIR to be used on a waveform to improve the classifier's accuracy. We also propose a data-driven methodology to train the FIRs directly with dataset inputs. We extensively evaluate DeepFIR on a experimental testbed of 20 software-defined radios, as well as on two datasets made up by 500 ADS-B devices and by 500 WiFi devices and a 24-class modulation dataset. Experimental results show that our approach (i) increases the accuracy of the radio fingerprinting models by about 35%, 50% and 58%; (ii) decreases an adversary's accuracy by about 54% when trying to imitate other device's fingerprints by using their filters; (iii) achieves 27% improvement over the state of the art on a 100-device dataset; (iv) increases by 2x the accuracy of the modulation dataset., Comment: submitted to IEEE Transactions on Wireless Communications. arXiv admin note: substantial text overlap with arXiv:1904.07623

Published
2020

3. Hacking the Waveform: Generalized Wireless Adversarial Deep Learning

Author

Restuccia, Francesco, D'Oro, Salvatore, Al-Shawabka, Amani, Rendon, Bruno Costa, Chowdhury, Kaushik, Ioannidis, Stratis, and Melodia, Tommaso

Subjects
Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper advances the state of the art by proposing the first comprehensive analysis and experimental evaluation of adversarial learning attacks to wireless deep learning systems. We postulate a series of adversarial attacks, and formulate a Generalized Wireless Adversarial Machine Learning Problem (GWAP) where we analyze the combined effect of the wireless channel and the adversarial waveform on the efficacy of the attacks. We propose a new neural network architecture called FIRNet, which can be trained to "hack" a classifier based only on its output. We extensively evaluate the performance on (i) a 1,000-device radio fingerprinting dataset, and (ii) a 24-class modulation dataset. Results obtained with several channel conditions show that our algorithms can decrease the classifier accuracy up to 3x. We also experimentally evaluate FIRNet on a radio testbed, and show that our data-driven blackbox approach can confuse the classifier up to 97% while keeping the waveform distortion to a minimum., Comment: submitted for publication, IEEE Transactions on Wireless Communications

Published
2020

4. DeepRadioID: Real-Time Channel-Resilient Optimization of Deep Learning-based Radio Fingerprinting Algorithms

Author

Restuccia, Francesco, D'Oro, Salvatore, Al-Shawabka, Amani, Belgiovine, Mauro, Angioloni, Luca, Ioannidis, Stratis, Chowdhury, Kaushik, and Melodia, Tommaso

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Radio fingerprinting provides a reliable and energy-efficient IoT authentication strategy. By mapping inputs onto a very large feature space, deep learning algorithms can be trained to fingerprint large populations of devices operating under any wireless standard. One of the most crucial challenges in radio fingerprinting is to counteract the action of the wireless channel, which decreases fingerprinting accuracy significantly by disrupting hardware impairments. On the other hand, due to their sheer size, deep learning algorithms are hardly re-trainable in real-time. Another aspect that is yet to be investigated is whether an adversary can successfully impersonate another device fingerprint. To address these key issues, this paper proposes DeepRadioID, a system to optimize the accuracy of deep-learning-based radio fingerprinting algorithms without retraining the underlying deep learning model. We extensively evaluate DeepRadioID on a experimental testbed of 20 nominally-identical software-defined radios, as well as on two datasets made up by 500 ADS-B devices and by 500 WiFi devices provided by the DARPA RFMLS program. Experimental results show that DeepRadioID (i) increases fingerprinting accuracy by about 35%, 50% and 58% on the three scenarios considered; (ii) decreases an adversary's accuracy by about 54% when trying to imitate other device fingerprints by using their filters; (iii) achieves 27% improvement over the state of the art on a 100-device dataset., Comment: To appear in ACM MobiHoc 2019, Catania, Italy

Published
2019

6. Generalized Wireless Adversarial Deep Learning

Author

Restuccia, Francesco, primary, D’Oro, Salvatore, additional, Al-Shawabka, Amani, additional, Costa Rendon, Bruno, additional, Chowdhury, Kaushik, additional, Ioannidis, Stratis, additional, and Melodia, Tommaso, additional

Published
2022
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8. DeepLoRa

Author

Al-Shawabka, Amani, primary, Pietraski, Philip, additional, Pattar, Sudhir B., additional, Restuccia, Francesco, additional, and Melodia, Tommaso, additional

Published
2021
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10. Generalized wireless adversarial deep learning

Author

Restuccia, Francesco, primary, D'Oro, Salvatore, additional, Al-Shawabka, Amani, additional, Rendon, Bruno Costa, additional, Chowdhury, Kaushik, additional, Ioannidis, Stratis, additional, and Melodia, Tommaso, additional

Published
2020
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13. DeepRadioID

Author

Restuccia, Francesco, primary, D'Oro, Salvatore, additional, Al-Shawabka, Amani, additional, Belgiovine, Mauro, additional, Angioloni, Luca, additional, Ioannidis, Stratis, additional, Chowdhury, Kaushik, additional, and Melodia, Tommaso, additional

Published
2019
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