Your search keyword '"Muhammad Yunis Daha"' showing total 5 results

1. A Comparative Analysis of DNN and Conventional Signal Detection Techniques in SISO and MIMO Communication Systems

Author

Hamna Shoukat, Abdul Ahad Khurshid, Muhammad Yunis Daha, Kamal Shahid, and Muhammad Usman Hadi

Subjects

5G, DNN, signal detection, MIMO, wireless communication, machine learning, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95

Abstract

This paper investigates the performance of deep neural network (DNN)-based signal detection in multiple input, multiple output (MIMO), communication systems. MIMO technology plays a critical role in achieving high data rates and improved capacity in modern wireless communication standards like 5G. However, signal detection in MIMO systems presents significant challenges due to channel complexities. This study conducts a comparative analysis of signal detection techniques within both the single input, single output (SISO), and MIMO frameworks. The analysis focuses on the entire transmission chain, encompassing transmitters, channels, and receivers. The effectiveness of three traditional methods—maximum likelihood detection (MLD), minimum mean square error (MMSE), and zero-forcing (ZF)—is meticulously evaluated alongside a novel DNN-based approach. The proposed study presents a novel DNN-based signal detection model. While this model demonstrates superior computational efficiency and symbol error rate (SER) performance compared to more conventional techniques like MLD, MMSE, and ZF in the context of a SISO system, MIMO systems face some challenges in outperforming the conventional techniques specifically in terms of computation times. This complexity of MIMO systems presents challenges that the current DNN design has yet to fully address, indicating the need for further developments in wireless communication technology. The observed performance difference between SISO and MIMO systems underscores the need for further research on the adaptability and limitations of DNN architectures in MIMO contexts. These findings pave the way for future explorations of advanced neural network architectures and algorithms specifically designed for MIMO signal-processing tasks. By overcoming the performance gap observed in this work, such advancements hold significant promise for enhancing the effectiveness of DNN-based signal detection in MIMO communication systems.

Published

2024

2. A Survey of Low Rate DDoS Detection Techniques Based on Machine Learning in Software-Defined Networks

Author

Abdussalam Ahmed Alashhab, Mohd Soperi Mohd Zahid, Mohamed A. Azim, Muhammad Yunis Daha, Babangida Isyaku, and Shimhaz Ali

Subjects

network security, SDN, OpenFlow, DDoS attacks, low-rate DDoS attacks, machine learning, Mathematics, QA1-939

Abstract

Software-defined networking (SDN) is a new networking paradigm that provides centralized control, programmability, and a global view of topology in the controller. SDN is becoming more popular due to its high audibility, which also raises security and privacy concerns. SDN must be outfitted with the best security scheme to counter the evolving security attacks. A Distributed Denial-of-Service (DDoS) attack is a network attack that floods network links with illegitimate data using high-rate packet transmission. Illegitimate data traffic can overload network links, causing legitimate data to be dropped and network services to be unavailable. Low-rate Distributed Denial-of-Service (LDDoS) is a recent evolution of DDoS attack that has been emerged as one of the most serious vulnerabilities for the Internet, cloud computing platforms, the Internet of Things (IoT), and large data centers. Moreover, LDDoS attacks are more challenging to detect because this attack sends a large amount of illegitimate data that are disguised as legitimate traffic. Thus, traditional security mechanisms such as symmetric/asymmetric detection schemes that have been proposed to protect SDN from DDoS attacks may not be suitable or inefficient for detecting LDDoS attacks. Therefore, more research studies are needed in this domain. There are several survey papers addressing the detection mechanisms of DDoS attacks in SDN, but these studies have focused mainly on high-rate DDoS attacks. Alternatively, in this paper, we present an extensive survey of different detection mechanisms proposed to protect the SDN from LDDoS attacks using machine learning approaches. Our survey describes vulnerability issues in all layers of the SDN architecture that LDDoS attacks can exploit. Current challenges and future directions are also discussed. The survey can be used by researchers to explore and develop innovative and efficient techniques to enhance SDN’s protection against LDDoS attacks.

Published

2022

3. Comparative Analysis of Community Detection Methods for Link Failure Recovery in Software Defined Networks

Author

Muhammad Yunis Daha, Mohd Soperi Mohd Zahid, Abdussalam Alashhab, and Shahab Ul Hassan

Published

2021

4. Performance Evaluation of Software Defined Networks with Single and Multiple Link Failure Scenario under Floodlight Controller

Author

Mohd Soperi Mohd Zahid, Firas Ousta, Muhammad Yunis Daha, and Khaleel Husain

Subjects

Network congestion, OpenFlow, Network packet, business.industry, Computer science, Network service, Forwarding plane, Throughput, Software-defined networking, business, Network topology, Computer network

Abstract

Software-Defined Networking (SDN) breaks the barrier of traditional networks and upgrades the current network infrastructures. SDN eliminates the vertical bonding between the control plane from the data plane which forwards the data traffic. Moreover, SDN translates the traditional IP networks into programmable IP networks. However, one of the key research challenges in SDN is link failure that may lead to the disruption of network service and its performance. Link failure issues in SDN further lead toward data packet loss, recovery time delay, message overhead, backup resource consumption, and network congestion problems. This paper investigates single and multiple link failure recovery scenarios in SDN and reflects the SDN performance in reacting with such conditions. To monitor and control the behavior of the network traffic, Dijkstra based rerouting algorithm of the Floodlight controller will be used during the occurrence of single and multiple link failures. The Mininet tool along with the Java-based SDN Floodlight controller to analyze the single and multiple link failure scenarios for OpenFlow-based custom network topology. This work also measures and analyzes the performance of SDN without link failure scenarios in single, linear, and tree topologies. The performance of SDN for basic network topologies and OpenFlow based custom network topology is measured in terms of the average round-trip and the average throughput

Published

2021

5. CDRA: A Community Detection based Routing Algorithm for Link Failure Recovery in Software Defined Networks

Author

Muhammad Yunis Daha, Mohd Soperi Mohd Zahid, Babangida Isyaku, and Abdussalam Ahmed Alashhab

Subjects

General Computer Science

Published

2021