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31 results on '"Al-Habob, Ahmed A."'

1. Dynamic Unicast-Multicast Scheduling for Age-Optimal Information Dissemination in Vehicular Networks

Author

Al-Habob, Ahmed, Tabassum, Hina, and Waqar, Omer

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

This paper investigates the problem of minimizing the age-of-information (AoI) and transmit power consumption in a vehicular network, where a roadside unit (RSU) provides timely updates about a set of physical processes to vehicles. Each vehicle is interested in maintaining the freshness of its information status about one or more physical processes. A framework is proposed to optimize the decisions to unicast, multicast, broadcast, or not transmit updates to vehicles as well as power allocations to minimize the AoI and the RSU's power consumption over a time horizon. The formulated problem is a mixed-integer nonlinear programming problem (MINLP), thus a global optimal solution is difficult to achieve. In this context, we first develop an ant colony optimization (ACO) solution which provides near-optimal performance and thus serves as an efficient benchmark. Then, for real-time implementation, we develop a deep reinforcement learning (DRL) framework that captures the vehicles' demands and channel conditions in the state space and assigns processes to vehicles through dynamic unicast-multicast scheduling actions. Complexity analysis of the proposed algorithms is presented. Simulation results depict interesting trade-offs between AoI and power consumption as a function of the network parameters., Comment: Accepted in IEEE Globecom Workshop (6GComm), 2022

Published
2022

2. Mobile Edge Computing and Artificial Intelligence: A Mutually-Beneficial Relationship

Author

Al-habob, Ahmed A. and Dobre, Octavia A.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This article provides an overview of mobile edge computing (MEC) and artificial intelligence (AI) and discusses the mutually-beneficial relationship between them. AI provides revolutionary solutions in nearly every important aspect of the MEC offloading process, such as resource management and scheduling. On the other hand, MEC servers are utilized to avail a distributed and parallelized learning framework, namely mobile edge learning., Comment: 6 pages, 2 figures, IEEE ComSoc Technical Committees Newsletter

Published
2020

3. Non-Orthogonal Age-Optimal Information Dissemination in Vehicular Networks: A Meta Multi-Objective Reinforcement Learning Approach

Author

Al-Habob, Ahmed A., Tabassum, Hina, and Waqar, Omer

Abstract

This article considers minimizing the age-of-information (AoI) and transmit power consumption in a vehicular network, where a roadside unit (RSU) provides timely updates about a set of physical processes to vehicles. We consider non-orthogonal multi-modal information dissemination, which is based on superposed message transmission from RSU and successive interference cancellation (SIC) at vehicles. The formulated problem is a multi-objective mixed-integer nonlinear programming problem; thus, a Pareto-optimal front is very challenging to obtain. First, we leverage the weighted-sum approach to decompose the multi-objective problem into a set of multiple single-objective sub-problems corresponding to each predefined objective preference weight. Then, we develop a hybrid deep Q-network (DQN)-deep deterministic policy gradient (DDPG) model to solve each optimization sub-problem respective to predefined objective-preference weight. The DQN optimizes the decoding order, while the DDPG solves the continuous power allocation. The model needs to be retrained for each sub-problem. We then present a two-stage meta-multi-objective reinforcement learning solution to estimate the Pareto front with a few fine-tuning update steps without retraining the model for each sub-problem. Simulation results illustrate the efficacy of the proposed solutions compared to the existing benchmarks and that the meta-multi-objective reinforcement learning model estimates a high-quality Pareto frontier with reduced training time.

Published
2024
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11. Data aggregation and dissemination in emerging communication networks

Author

Al-habob, Ahmed A.

Abstract

The emerging communication networks generate a huge amount of data that need to be aggregated/disseminated, processed, and responded to in a very short time. Major challenges associate with the need to handle such tremendous amount of data, including high energy consumption, larger delay, and constrained computation capabilities. Consequently, more efficient frameworks could be exploited for data aggregation, dissemination, and processing. This work aims to design energy-efficient and age-optimum frameworks for data aggregation/dissemination. Moreover, reliable and low latency offloading frameworks for sequential and parallel mobile edge computing (MEC) offloading are also developed. A device-role assignment framework is designed to optimize the role of each device in the network and enable in-network data processing. More sophisticated scenarios with mobile data aggregator/disseminator are explored as well. Mobile data aggregator(s)/disseminator(s) for terrestrial and underwater scenarios are considered. Different metrics are studied including the overall energy consumption in the data aggregation/ dissemination systems, age-of-information (AoI) in the data aggregation systems, and the latency and offloading error in the MEC systems. A novel metric referred to as the correlation-aware AoI is also proposed to captures both the freshness and diversity in the aggregated data. Computationally efficient solution approaches are developed to find solutions for the proposed frameworks, including genetic algorithms, ant colony optimization, conflict graphs, and deep reinforcement learning agents. To show the effectiveness of the developed solution approaches, their performance is compared to baseline approaches. Extensive simulations show that the proposed solution approaches provide performance close to the optimal solutions, which are obtained through exhaustive search or computationally intensive methods.

Published
2022
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23. Multi-Client File Download Time Reduction from Cloud/Fog Storage Servers

Author

Al-habob, Ahmed Abdullah, Shnaiwer, Yousef, Sorour, Sameh, Aboutorab, Neda, Sadeghi, Parastoo, Al-habob, Ahmed Abdullah, Shnaiwer, Yousef, Sorour, Sameh, Aboutorab, Neda, and Sadeghi, Parastoo

Abstract

We study the problem of reducing the download time of multiple files requested by multiple clients from multiple cloud/fog storage servers. Given possible previous file downloads by the clients, network coding can be efficiently exploited to expedite the download process. Since each client can tune to only one server at a time, the sets of clients served by the different servers must be disjoint in order to guarantee a maximum reduction in download time. To accomplish disjoint download mechanisms, a dual conflict network coding graph is proposed. Given the intractability of the long-term optimal solution, we propose an online algorithm using the designed dual conflict graph. For the case of one file request per client, both asymptotic lower and upper bounds of the performance of the proposed conflict-free algorithm are derived. Simulation results show that this proposed algorithm exhibits near optimum performance compared to the optimum solution, and a significant reduction in download time as compared to the per-server network coding scheme. Furthermore, imperfect feedback environment scenarios are investigated. A maximum likelihood approach is employed at the server to estimate the network state, which is then incorporated in our proposed algorithm to reduce the download time in such scenarios.

Published
2018

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