Search

Your search keyword '"Feriani, Amal"' showing total 22 results
Start Over Author "Feriani, Amal"

Refine your results

more »

22 results on '"Feriani, Amal"'

1. Device-Free Human State Estimation using UWB Multi-Static Radios

Author

Laham, Saria Al, Baghi, Bobak H., Lajoie, Pierre-Yves, Feriani, Amal, Herath, Sachini, Liu, Steve, and Dudek, Gregory

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Computers and Society, Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

We present a human state estimation framework that allows us to estimate the location, and even the activities, of people in an indoor environment without the requirement that they carry a specific devices with them. To achieve this "device free" localization we use a small number of low-cost Ultra-Wide Band (UWB) sensors distributed across the environment of interest. To achieve high quality estimation from the UWB signals merely reflected of people in the environment, we exploit a deep network that can learn to make inferences. The hardware setup consists of commercial off-the-shelf (COTS) single antenna UWB modules for sensing, paired with Raspberry PI units for computational processing and data transfer. We make use of the channel impulse response (CIR) measurements from the UWB sensors to estimate the human state - comprised of location and activity - in a given area. Additionally, we can also estimate the number of humans that occupy this region of interest. In our approach, first, we pre-process the CIR data which involves meticulous aggregation of measurements and extraction of key statistics. Afterwards, we leverage a convolutional deep neural network to map the CIRs into precise location estimates with sub-30 cm accuracy. Similarly, we achieve accurate human activity recognition and occupancy counting results. We show that we can quickly fine-tune our model for new out-of-distribution users, a process that requires only a few minutes of data and a few epochs of training. Our results show that UWB is a promising solution for adaptable smart-home localization and activity recognition problems.

Published
2023

2. SAGE: Smart home Agent with Grounded Execution

Author

Rivkin, Dmitriy, Hogan, Francois, Feriani, Amal, Konar, Abhisek, Sigal, Adam, Liu, Steve, and Dudek, Greg

Subjects
Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction, Computer Science - Robotics
Abstract

The common sense reasoning abilities and vast general knowledge of Large Language Models (LLMs) make them a natural fit for interpreting user requests in a Smart Home assistant context. LLMs, however, lack specific knowledge about the user and their home limit their potential impact. SAGE (Smart Home Agent with Grounded Execution), overcomes these and other limitations by using a scheme in which a user request triggers an LLM-controlled sequence of discrete actions. These actions can be used to retrieve information, interact with the user, or manipulate device states. SAGE controls this process through a dynamically constructed tree of LLM prompts, which help it decide which action to take next, whether an action was successful, and when to terminate the process. The SAGE action set augments an LLM's capabilities to support some of the most critical requirements for a Smart Home assistant. These include: flexible and scalable user preference management ("is my team playing tonight?"), access to any smart device's full functionality without device-specific code via API reading "turn down the screen brightness on my dryer", persistent device state monitoring ("remind me to throw out the milk when I open the fridge"), natural device references using only a photo of the room ("turn on the light on the dresser"), and more. We introduce a benchmark of 50 new and challenging smart home tasks where SAGE achieves a 75% success rate, significantly outperforming existing LLM-enabled baselines (30% success rate).

Published
2023

3. Channel Estimation in RIS-Enabled mmWave Wireless Systems: A Variational Inference Approach

Author

Fredj, Firas, Feriani, Amal, Mezghani, Amine, and Hossain, Ekram

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning
Abstract

Channel estimation in reconfigurable intelligent surfaces (RIS)-aided systems is crucial for optimal configuration of the RIS and various downstream tasks such as user localization. In RIS-aided systems, channel estimation involves estimating two channels for the user-RIS (UE-RIS) and RIS-base station (RIS-BS) links. In the literature, two approaches are proposed: (i) cascaded channel estimation where the two channels are collapsed into a single one and estimated using training signals at the BS, and (ii) separate channel estimation that estimates each channel separately either in a passive or semi-passive RIS setting. In this work, we study the separate channel estimation problem in a fully passive RIS-aided millimeter-wave (mmWave) single-user single-input multiple-output (SIMO) communication system. First, we adopt a variational-inference (VI) approach to jointly estimate the UE-RIS and RIS-BS instantaneous channel state information (I-CSI). In particular, auxiliary posterior distributions of the I-CSI are learned through the maximization of the evidence lower bound. However, estimating the I-CSI for both links in every coherence block results in a high signaling overhead to control the RIS in scenarios with highly mobile users. Thus, we extend our first approach to estimate the slow-varying statistical CSI of the UE-RIS link overcoming the highly variant I-CSI. Precisely, our second method estimates the I-CSI of RIS-BS channel and the UE-RIS channel covariance matrix (CCM) directly from the uplink training signals in a fully passive RIS-aided system. The simulation results demonstrate that using maximum a posteriori channel estimation using the auxiliary posteriors can provide a capacity that approaches the capacity with perfect CSI.

Published
2023

4. CeBed: A Benchmark for Deep Data-Driven OFDM Channel Estimation

Author

Feriani, Amal, Wu, Di, Liu, Steve, and Dudek, Greg

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Deep learning has been extensively used in wireless communication problems, including channel estimation. Although several data-driven approaches exist, a fair and realistic comparison between them is difficult due to inconsistencies in the experimental conditions and the lack of a standardized experimental design. In addition, the performance of data-driven approaches is often compared based on empirical analysis. The lack of reproducibility and availability of standardized evaluation tools (e.g., datasets, codebases) hinder the development and progress of data-driven methods for channel estimation and wireless communication in general. In this work, we introduce an initiative to build benchmarks that unify several data-driven OFDM channel estimation approaches. Specifically, we present CeBed (a testbed for channel estimation) including different datasets covering various systems models and propagation conditions along with the implementation of ten deep and traditional baselines. This benchmark considers different practical aspects such as the robustness of the data-driven models, the number and the arrangement of pilots, and the number of receive antennas. This work offers a comprehensive and unified framework to help researchers evaluate and design data-driven channel estimation algorithms.

Published
2023

5. Mixed-Variable PSO with Fairness on Multi-Objective Field Data Replication in Wireless Networks

Author

Yuan, Dun, Nam, Yujin, Feriani, Amal, Konar, Abhisek, Wu, Di, Jang, Seowoo, Liu, Xue, and Dudek, Greg

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

Digital twins have shown a great potential in supporting the development of wireless networks. They are virtual representations of 5G/6G systems enabling the design of machine learning and optimization-based techniques. Field data replication is one of the critical aspects of building a simulation-based twin, where the objective is to calibrate the simulation to match field performance measurements. Since wireless networks involve a variety of key performance indicators (KPIs), the replication process becomes a multi-objective optimization problem in which the purpose is to minimize the error between the simulated and field data KPIs. Unlike previous works, we focus on designing a data-driven search method to calibrate the simulator and achieve accurate and reliable reproduction of field performance. This work proposes a search-based algorithm based on mixedvariable particle swarm optimization (PSO) to find the optimal simulation parameters. Furthermore, we extend this solution to account for potential conflicts between the KPIs using {\alpha}-fairness concept to adjust the importance attributed to each KPI during the search. Experiments on field data showcase the effectiveness of our approach to (i) improve the accuracy of the replication, (ii) enhance the fairness between the different KPIs, and (iii) guarantee faster convergence compared to other methods., Comment: Accepted in International Conference on Communications (ICC) 2023

Published
2023

6. Domain Generalization in Machine Learning Models for Wireless Communications: Concepts, State-of-the-Art, and Open Issues

Author

Akrout, Mohamed, Feriani, Amal, Bellili, Faouzi, Mezghani, Amine, and Hossain, Ekram

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Data-driven machine learning (ML) is promoted as one potential technology to be used in next-generations wireless systems. This led to a large body of research work that applies ML techniques to solve problems in different layers of the wireless transmission link. However, most of these applications rely on supervised learning which assumes that the source (training) and target (test) data are independent and identically distributed (i.i.d). This assumption is often violated in the real world due to domain or distribution shifts between the source and the target data. Thus, it is important to ensure that these algorithms generalize to out-of-distribution (OOD) data. In this context, domain generalization (DG) tackles the OOD-related issues by learning models on different and distinct source domains/datasets with generalization capabilities to unseen new domains without additional finetuning. Motivated by the importance of DG requirements for wireless applications, we present a comprehensive overview of the recent developments in DG and the different sources of domain shift. We also summarize the existing DG methods and review their applications in selected wireless communication problems, and conclude with insights and open questions.

Published
2023

7. Continual Learning-Based MIMO Channel Estimation: A Benchmarking Study

Author

Akrout, Mohamed, Feriani, Amal, Bellili, Faouzi, Mezghani, Amine, and Hossain, Ekram

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

With the proliferation of deep learning techniques for wireless communication, several works have adopted learning-based approaches to solve the channel estimation problem. While these methods are usually promoted for their computational efficiency at inference time, their use is restricted to specific stationary training settings in terms of communication system parameters, e.g., signal-to-noise ratio (SNR) and coherence time. Therefore, the performance of these learning-based solutions will degrade when the models are tested on different settings than the ones used for training. This motivates our work in which we investigate continual supervised learning (CL) to mitigate the shortcomings of the current approaches. In particular, we design a set of channel estimation tasks wherein we vary different parameters of the channel model. We focus on Gauss-Markov Rayleigh fading channel estimation to assess the impact of non-stationarity on performance in terms of the mean square error (MSE) criterion. We study a selection of state-of-the-art CL methods and we showcase empirically the importance of catastrophic forgetting in continuously evolving channel settings. Our results demonstrate that the CL algorithms can improve the interference performance in two channel estimation tasks governed by changes in the SNR level and coherence time.

Published
2022

8. A 35-Year Longitudinal Analysis of Dermatology Patient Behavior across Economic & Cultural Manifestations in Tunisia, and the Impact of Digital Tools

Author

Akrout, Mohamed, Amdouni, Hayet, Feriani, Amal, Kourda, Monia, and Abid, Latif

Subjects
Computer Science - Computers and Society
Abstract

The evolution of behavior of dermatology patients has seen significantly accelerated change over the past decade, driven by surging availability and adoption of digital tools and platforms. Through our longitudinal analysis of this behavior within Tunisia over a 35-year time frame, we identify behavioral patterns across economic and cultural dimensions and how digital tools have impacted those patterns in preceding years. Throughout this work, we highlight the witnessed effects of available digital tools as experienced by patients, and conclude by presenting a vision for how future tools can help address the issues identified across economic and cultural manifestations. Our analysis is further framed around three types of digital tools: "Dr. Google", social media, and artificial intelligence (AI) tools, and across three stages of clinical care: pre-visit, in-visit, and post-visit., Comment: Accepted to the Ethical and Philosophical Issues in Medical Imaging (EPIMI) Workshop at MICCAI 2022

Published
2022

9. Dynamic Noises of Multi-Agent Environments Can Improve Generalization: Agent-based Models meets Reinforcement Learning

Author

Akrout, Mohamed, Feriani, Amal, and McLeod, Bob

Subjects
Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

We study the benefits of reinforcement learning (RL) environments based on agent-based models (ABM). While ABMs are known to offer microfoundational simulations at the cost of computational complexity, we empirically show in this work that their non-deterministic dynamics can improve the generalization of RL agents. To this end, we examine the control of an epidemic SIR environments based on either differential equations or ABMs. Numerical simulations demonstrate that the intrinsic noise in the ABM-based dynamics of the SIR model not only improve the average reward but also allow the RL agent to generalize on a wider ranges of epidemic parameters., Comment: Accepted to the Gamification and Multiagent Solutions Workshop at ICLR 2022

Published
2022

10. On the Robustness of Deep Reinforcement Learning in IRS-Aided Wireless Communications Systems

Author

Feriani, Amal, Mezghani, Amine, and Hossain, Ekram

Subjects
Computer Science - Machine Learning, Computer Science - Information Theory
Abstract

We consider an Intelligent Reflecting Surface (IRS)-aided multiple-input single-output (MISO) system for downlink transmission. We compare the performance of Deep Reinforcement Learning (DRL) and conventional optimization methods in finding optimal phase shifts of the IRS elements to maximize the user signal-to-noise (SNR) ratio. Furthermore, we evaluate the robustness of these methods to channel impairments and changes in the system. We demonstrate numerically that DRL solutions show more robustness to noisy channels and user mobility.

Published
2021

11. Decentralized Multi-Agent Reinforcement Learning for Task Offloading Under Uncertainty

Author

Xu, Yuanchao, Feriani, Amal, and Hossain, Ekram

Subjects
Computer Science - Machine Learning, Computer Science - Multiagent Systems
Abstract

Multi-Agent Reinforcement Learning (MARL) is a challenging subarea of Reinforcement Learning due to the non-stationarity of the environments and the large dimensionality of the combined action space. Deep MARL algorithms have been applied to solve different task offloading problems. However, in real-world applications, information required by the agents (i.e. rewards and states) are subject to noise and alterations. The stability and the robustness of deep MARL to practical challenges is still an open research problem. In this work, we apply state-of-the art MARL algorithms to solve task offloading with reward uncertainty. We show that perturbations in the reward signal can induce decrease in the performance compared to learning with perfect rewards. We expect this paper to stimulate more research in studying and addressing the practical challenges of deploying deep MARL solutions in wireless communications systems.

Published
2021

12. Single and Multi-Agent Deep Reinforcement Learning for AI-Enabled Wireless Networks: A Tutorial

Author

Feriani, Amal and Hossain, Ekram

Subjects
Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

Deep Reinforcement Learning (DRL) has recently witnessed significant advances that have led to multiple successes in solving sequential decision-making problems in various domains, particularly in wireless communications. The future sixth-generation (6G) networks are expected to provide scalable, low-latency, ultra-reliable services empowered by the application of data-driven Artificial Intelligence (AI). The key enabling technologies of future 6G networks, such as intelligent meta-surfaces, aerial networks, and AI at the edge, involve more than one agent which motivates the importance of multi-agent learning techniques. Furthermore, cooperation is central to establishing self-organizing, self-sustaining, and decentralized networks. In this context, this tutorial focuses on the role of DRL with an emphasis on deep Multi-Agent Reinforcement Learning (MARL) for AI-enabled 6G networks. The first part of this paper will present a clear overview of the mathematical frameworks for single-agent RL and MARL. The main idea of this work is to motivate the application of RL beyond the model-free perspective which was extensively adopted in recent years. Thus, we provide a selective description of RL algorithms such as Model-Based RL (MBRL) and cooperative MARL and we highlight their potential applications in 6G wireless networks. Finally, we overview the state-of-the-art of MARL in fields such as Mobile Edge Computing (MEC), Unmanned Aerial Vehicles (UAV) networks, and cell-free massive MIMO, and identify promising future research directions. We expect this tutorial to stimulate more research endeavors to build scalable and decentralized systems based on MARL.

Published
2020

13. Hacking Google reCAPTCHA v3 using Reinforcement Learning

Author

Akrout, Ismail, Feriani, Amal, and Akrout, Mohamed

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

We present a Reinforcement Learning (RL) methodology to bypass Google reCAPTCHA v3. We formulate the problem as a grid world where the agent learns how to move the mouse and click on the reCAPTCHA button to receive a high score. We study the performance of the agent when we vary the cell size of the grid world and show that the performance drops when the agent takes big steps toward the goal. Finally, we used a divide and conquer strategy to defeat the reCAPTCHA system for any grid resolution. Our proposed method achieves a success rate of 97.4% on a 100x100 grid and 96.7% on a 1000x1000 screen resolution., Comment: Accepted for the Conference on Reinforcement Learning and Decision Making (RLDM) 2019

Published
2019

14. DVOLVER: Efficient Pareto-Optimal Neural Network Architecture Search

Author

Michel, Guillaume, Alaoui, Mohammed Amine, Lebois, Alice, Feriani, Amal, and Felhi, Mehdi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Automatic search of neural network architectures is a standing research topic. In addition to the fact that it presents a faster alternative to hand-designed architectures, it can improve their efficiency and for instance generate Convolutional Neural Networks (CNN) adapted for mobile devices. In this paper, we present a multi-objective neural architecture search method to find a family of CNN models with the best accuracy and computational resources tradeoffs, in a search space inspired by the state-of-the-art findings in neural search. Our work, called Dvolver, evolves a population of architectures and iteratively improves an approximation of the optimal Pareto front. Applying Dvolver on the model accuracy and on the number of floating points operations as objective functions, we are able to find, in only 2.5 days, a set of competitive mobile models on ImageNet. Amongst these models one architecture has the same Top-1 accuracy on ImageNet as NASNet-A mobile with 8% less floating point operations and another one has a Top-1 accuracy of 75.28% on ImageNet exceeding by 0.28% the best MobileNetV2 model for the same computational resources.

Published
2019

15. A 35-Year Longitudinal Analysis of Dermatology Patient Behavior Across Economic and Cultural Manifestations in Tunisia, and the Impact of Digital Tools

Author

Akrout, Mohamed, Amdouni, Hayet, Feriani, Amal, Kourda, Monia, Abid, Latif, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Baxter, John S. H., editor, Rekik, Islem, editor, Eagleson, Roy, editor, Zhou, Luping, editor, Syeda-Mahmood, Tanveer, editor, Wang, Hongzhi, editor, and Hajij, Mustafa, editor

Published
2022
Full Text
View/download PDF

20. Meta multi-objective reinforcement learning for communication load balancing

Author

Ashraf, Ahmed (Electrical and Computer Engineering) Mezghani, Amine (Electrical and Computer Engineering), Hossain, Ekram (Electrical and Computer Engineering), Feriani, Amal, Ashraf, Ahmed (Electrical and Computer Engineering) Mezghani, Amine (Electrical and Computer Engineering), Hossain, Ekram (Electrical and Computer Engineering), and Feriani, Amal

Abstract

With the rapid adoption of fifth-generation (5G) communication systems and the increasing data demand per device, communication traffic is soaring to reach unprecedented numbers in the upcoming years. Moreover, the traffic is often unevenly distributed across frequency bands and base stations, thereby resulting in a degradation of the network throughput and user experience. Thus, load balancing has become a key technique to adjust the traffic load by offloading users from overloaded cells to less crowded neighboring ones. In this thesis, we study multi-objective reinforcement learning (MORL) and meta reinforcement learning (meta-RL) for load balancing to learn highly customized policies for different trade-offs between network performance metrics. We begin with a thorough review of existing load balancing literature to motivate the need for better algorithms that can further improve the network performance and the user's quality of service (QoS). Specifically, we emphasize the importance of a multi-objective approach to solve the load balancing problem since network providers aim to simultaneously optimize multiple conflicting objectives by adjusting the load balancing parameters. Using MORL, we formulate communication load balancing as a multi-objective control problem where the agent seeks to find optimal policies depending on possible trade-offs between the network performance indicators. Motivated by the dynamic nature of wireless networks, we propose a practical algorithm based on meta-RL concepts to compute a general load balancing policy capable of rapidly adjusting to new trade-offs. Indeed, the learned meta-policy can be fine-tuned for given preferences using fewer samples and gradient steps. We further enhance the generalization and adaptation of our proposed meta-RL solution using policy distillation techniques. To showcase the effectiveness of our framework, experiments are conducted based on real-world traffic scenarios. Our results show that our load b

Published
2021

Catalog

Books, media, physical & digital resources
See catalog results