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Ala'a Al-Habashna
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2020 – today
- 2024
- [j11]Muhammad Sheraz
, Teong Chee Chuah
A Comprehensive Survey on Revolutionizing Connectivity Through Artificial Intelligence-Enabled Digital Twin Network in 6G. IEEE Access 12: 49184-49215 (2024) - [j10]Ala'a Al-Habashna, Ryan Murdoch:
Building height estimation from street-view imagery using deep learning, image processing and automated geospatial analysis. Multim. Tools Appl. 83(17): 53065-53093 (2024) - [j9]Ryan Murdoch, Ala'a Al-Habashna
Residential building type classification from street-view imagery with convolutional neural networks. Signal Image Video Process. 18(2): 1949-1958 (2024) - [j8]Mohammad Reza Amini
DQ-Based Random Access NOMA for Massive Critical IoT Scenarios in 5G Networks. IEEE Trans. Mob. Comput. 23(5): 6363-6376 (2024) - 2023
- [j7]Amjad Iqbal
Empowering Non-Terrestrial Networks With Artificial Intelligence: A Survey. IEEE Access 11: 100986-101006 (2023) - [j6]Mohammad Reza Amini
Performance Analysis of Random Access NOMA for Critical mIoT With Timer-Power Back-Off Strategy. IEEE Trans. Veh. Technol. 72(8): 10754-10769 (2023) - [c19]Ben Earle, Ala'a Al-Habashna, Gabriel A. Wainer, Xingliang Li, Guoqiang Xue:
Machine Learning Models for Channel Status Classification in M-Mimo Systems Using Limited CSI Feedback. ANNSIM 2023: 645-656 - [c18]Amjad Iqbal
Deep Reinforcement Learning-Based Resource Allocation for Secure RIS-aided UAV Communication. VTC Fall 2023: 1-6 - 2022
- [j5]Ala'a Al-Habashna
Machine learning-based indoor localization and occupancy estimation using 5G ultra-dense networks. Simul. Model. Pract. Theory 118: 102543 (2022) - [c17]Jon Menard, Ala'a Al-Habashna
Distributed Resource Allocation In 5g Networks With Multi-Agent Reinforcement Learning. ANNSIM 2022: 802-813 - [c16]Ala'a Al-Habashna
Application of Device-to-Device Communication in Video Streaming for 5G Wireless Networks. Honoring Professor Mohammad S. Obaidat 2022: 345-371 - 2021
- [c15]Ben Earle, Ala'a Al-Habashna
Prediction of 5G New Radio Wireless Channel Path Gains and Delays Using Machine Learning and CSI Feedback. ANNSIM 2021: 1-11 - [c14]Ala'a Al-Habashna
Building Height Estimation using Street-View Images, Deep-Learning, Contour Processing, and Geospatial Data. CRV 2021: 103-110 - 2020
- [j4]Ala'a Al-Habashna
QoE awareness in progressive caching and DASH-based D2D video streaming in cellular networks. Wirel. Networks 26(3): 2051-2073 (2020) - [c13]Ala'a Al-Habashna, Gabriel A. Wainer:
RSSI-based Indoor Localization with LTE-A Ultra-Dense Networks. SPECTS 2020: 1-7 - [c12]Ala'a Al-Habashna
Studying Malware Propagation in Wireless Sensor Networks with Cell-DEVS. SpringSim 2020: 1-11
2010 – 2019
- 2019
- [c11]Ala'a Al-Habashna
Analyzing the Impact of Quantum Size on the Accuracy and Performance of Cell-Devs Fire Models. SpringSim 2019: 1-12 - [c10]Cristina Ruiz Martin
Control of a Quadcopter Application With Devs. SpringSim 2019: 1-12 - 2018
- [j3]Ala'a Al-Habashna
Improving Video Transmission in Cellular Networks with Cached and Segmented Video Download Algorithms. Mob. Networks Appl. 23(3): 543-559 (2018) - [c9]Ala'a Al-Habashna
Dash-Based Device-to-Device Video Streaming for Cellular Networks with High User Density. SPECTS 2018: 1-12 - [c8]Ala'a Al-Habashna, Stenio Fernandes, Gabriel A. Wainer:
Analyzing the effect of LTE-A transmission parameters on video streaming quality of experience. SpringSim (CNS) 2018: 3:1-3:12 - 2017
- [c7]Ala'a Al-Habashna, Gabriel A. Wainer
Improving video streaming over cellular networks with DASH-based device-to-device streaming. SPECTS 2017: 1-8 - 2016
- [j2]Ala'a Al-Habashna
Modeling pedestrian behavior with Cell-DEVS: theory and applications. Simul. 92(2): 117-139 (2016) - [c6]Ala'a Al-Habashna
DASH-based peer-to-peer video streaming in cellular networks. SPECTS 2016: 1-8 - [c5]Ala'a Al-Habashna
Distributed cached and segmented video download for video transmission in cellular networks. SPECTS 2016: 1-8 - [c4]Ala'a Al-Habashna, Gabriel A. Wainer, Gary Boudreau, Ronald Casselman:
Cached and segmented video download for wireless video transmission. SpringSim (ANSS) 2016: 15 - 2012
- [j1]Ala'a Al-Habashna
Second-Order Cyclostationarity of Mobile WiMAX and LTE OFDM Signals and Application to Spectrum Awareness in Cognitive Radio Systems. IEEE J. Sel. Top. Signal Process. 6(1): 26-42 (2012) - 2011
- [c3]Ala'a Al-Habashna
Joint Cyclostationarity-Based Detection and Classification of Mobile WiMAX and LTE OFDM Signals. ICC 2011: 1-6 - 2010
- [c2]Ala'a Al-Habashna
WiMAX Signal Detection Algorithm Based on Preamble-Induced Second-Order Cyclostationarity. GLOBECOM 2010: 1-5 - [c1]Ala'a Al-Habashna
Cyclostationarity-Based Detection of LTE OFDM Signals for Cognitive Radio Systems. GLOBECOM 2010: 1-6
Coauthor Index
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