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Marius Portmann
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2020 – today
- 2025
- [j44]Gayan K. Kulatilleke
, Marius Portmann, Shekhar S. Chandra:
SCGC : Self-supervised contrastive graph clustering. Neurocomputing 611: 128629 (2025) - 2024
- [j43]Liam Daly Manocchio, Siamak Layeghy
A configurable anonymisation approach for network flow data: Balancing utility and privacy. Comput. Electr. Eng. 118: 109465 (2024) - [j42]Mohanad Sarhan
Feature extraction for machine learning-based intrusion detection in IoT networks. Digit. Commun. Networks 10(1): 205-216 (2024) - [j41]Liam Daly Manocchio, Siamak Layeghy
FlowTransformer: A transformer framework for flow-based network intrusion detection systems. Expert Syst. Appl. 241: 122564 (2024) - [j40]Siamak Layeghy
Benchmarking the benchmark - Comparing synthetic and real-world Network IDS datasets. J. Inf. Secur. Appl. 80: 103689 (2024) - [j39]Liam Daly Manocchio, Siamak Layeghy
FlowTransformer: A flexible python framework for flow-based network data analysis. Softw. Impacts 22: 100702 (2024) - [i40]Paul R. B. Houssel, Priyanka Singh, Siamak Layeghy, Marius Portmann:
Towards Explainable Network Intrusion Detection using Large Language Models. CoRR abs/2408.04342 (2024) - 2023
- [j38]Wai Weng Lo
Inspection-L: self-supervised GNN node embeddings for money laundering detection in bitcoin. Appl. Intell. 53(16): 19406-19417 (2023) - [j37]Siamak Layeghy
Explainable Cross-domain Evaluation of ML-based Network Intrusion Detection Systems. Comput. Electr. Eng. 108: 108692 (2023) - [j36]Sushmita Ghosh, Akash Kumar Mandal, Swades De, Shouri Chatterjee, Marius Portmann
Light-Weight ML Aided Autonomous IoT Networks. IEEE Commun. Mag. 61(6): 51-57 (2023) - [j35]Mohanad Sarhan, Siamak Layeghy
From zero-shot machine learning to zero-day attack detection. Int. J. Inf. Sec. 22(4): 947-959 (2023) - [j34]Gayan K. Kulatilleke
Efficient block contrastive learning via parameter-free meta-node approximation. Neurocomputing 561: 126850 (2023) - [j33]Wai Weng Lo
XG-BoT: An explainable deep graph neural network for botnet detection and forensics. Internet Things 22: 100747 (2023) - [j32]Seyedehfaezeh Hosseininoorbin
Exploring Edge TPU for deep feed-forward neural networks. Internet Things 22: 100749 (2023) - [j31]Seyedehfaezeh Hosseininoorbin
HARBIC: Human activity recognition using bi-stream convolutional neural network with dual joint time-frequency representation. Internet Things 22: 100816 (2023) - [j30]Mohanad Sarhan, Siamak Layeghy
Cyber Threat Intelligence Sharing Scheme Based on Federated Learning for Network Intrusion Detection. J. Netw. Syst. Manag. 31(1): 3 (2023) - [j29]Seyedehfaezeh Hosseininoorbin
Exploring edge TPU for network intrusion detection in IoT. J. Parallel Distributed Comput. 179: 104712 (2023) - [j28]Siamak Layeghy
DI-NIDS: Domain invariant network intrusion detection system. Knowl. Based Syst. 273: 110626 (2023) - [c75]Mohanad Sarhan, Gayan K. Kulatilleke, Wai Weng Lo, Siamak Layeghy
DOC-NAD: A Hybrid Deep One-class Classifier for Network Anomaly Detection. CCGridW 2023: 1-7 - [c74]Sushmita Ghosh, Payali Das, Shakthipriya Murugesh, Swades De, Shouri Chatterjee, Marius Portmann
Energy Aware Smart Sensing and Implementation in Green Air Pollution Monitoring System. ICC 2023: 2153-2158 - [i39]Liam Daly Manocchio, Siamak Layeghy, Wai Weng Lo, Gayan K. Kulatilleke, Mohanad Sarhan, Marius Portmann:
FlowTransformer: A Transformer Framework for Flow-based Network Intrusion Detection Systems. CoRR abs/2304.14746 (2023) - 2022
- [j27]Mohanad Sarhan
Evaluating Standard Feature Sets Towards Increased Generalisability and Explainability of ML-Based Network Intrusion Detection. Big Data Res. 30: 100359 (2022) - [j26]Mohanad Sarhan
HBFL: A hierarchical blockchain-based federated learning framework for collaborative IoT intrusion detection. Comput. Electr. Eng. 103: 108379 (2022) - [j25]Evan Caville, Wai Weng Lo
Anomal-E: A self-supervised network intrusion detection system based on graph neural networks. Knowl. Based Syst. 258: 110030 (2022) - [j24]Mohanad Sarhan
Towards a Standard Feature Set for Network Intrusion Detection System Datasets. Mob. Networks Appl. 27(1): 357-370 (2022) - [j23]Sushmita Ghosh
Edge Intelligence Framework for Data-Driven Dynamic Priority Sensing and Transmission. IEEE Trans. Green Commun. Netw. 6(1): 376-390 (2022) - [j22]Sushmita Ghosh
Local Reference-Free In-Field Calibration of Low-Cost Air Pollution Monitoring Sensors. IEEE Trans. Instrum. Meas. 71: 1-13 (2022) - [c73]Gayan K. Kulatilleke, Marius Portmann
FDGATII: Fast Dynamic Graph Attention with Initial Residual and Identity. AI 2022: 73-86 - [c72]Wai Weng Lo
Graph Neural Network-based Android Malware Classification with Jumping Knowledge. DSC 2022: 1-9 - [c71]Liam Daly Manocchio, Siamak Layeghy
Network Intrusion Detection System in a Light Bulb. ITNAC 2022: 1-8 - [c70]Wai Weng Lo
E-GraphSAGE: A Graph Neural Network based Intrusion Detection System for IoT. NOMS 2022: 1-9 - [i38]Wai Weng Lo, Siamak Layeghy, Mohanad Sarhan, Marcus Gallagher, Marius Portmann:
Graph Neural Network-based Android Malware Classification with Jumping Knowledge. CoRR abs/2201.07537 (2022) - [i37]Wai Weng Lo, Siamak Layeghy, Marius Portmann:
Inspection-L: Practical GNN-Based Money Laundering Detection System for Bitcoin. CoRR abs/2203.10465 (2022) - [i36]Mohanad Sarhan, Wai Weng Lo, Siamak Layeghy, Marius Portmann:
HBFL: A Hierarchical Blockchain-based Federated Learning Framework for a Collaborative IoT Intrusion Detection. CoRR abs/2204.04254 (2022) - [i35]Gayan K. Kulatilleke, Marius Portmann, Shekhar S. Chandra:
SCGC : Self-Supervised Contrastive Graph Clustering. CoRR abs/2204.12656 (2022) - [i34]Siamak Layeghy, Marius Portmann:
On Generalisability of Machine Learning-based Network Intrusion Detection Systems. CoRR abs/2205.04112 (2022) - [i33]Evan Caville, Wai Weng Lo, Siamak Layeghy, Marius Portmann:
Anomal-E: A Self-Supervised Network Intrusion Detection System based on Graph Neural Networks. CoRR abs/2207.06819 (2022) - [i32]Wai Weng Lo, Siamak Layeghy, Mohanad Sarhan, Marius Portmann:
XG-BoT: An Explainable Deep Graph Neural Network for Botnet Detection and Forensics. CoRR abs/2207.09088 (2022) - [i31]Gayan K. Kulatilleke
Efficient block contrastive learning via parameter-free meta-node approximation. CoRR abs/2209.14067 (2022) - [i30]Liam Daly Manocchio, Siamak Layeghy, Marius Portmann:
Network Intrusion Detection System in a Light Bulb. CoRR abs/2210.03254 (2022) - [i29]Siamak Layeghy, Mahsa Baktashmotlagh
DI-NIDS: Domain Invariant Network Intrusion Detection System. CoRR abs/2210.08252 (2022) - [i28]Mohanad Sarhan, Gayan K. Kulatilleke, Wai Weng Lo, Siamak Layeghy, Marius Portmann:
DOC-NAD: A Hybrid Deep One-class Classifier for Network Anomaly Detection. CoRR abs/2212.07558 (2022) - [i27]Gayan K. Kulatilleke, Shekhar S. Chandra, Marius Portmann:
NBC-Softmax : Darkweb Author fingerprinting and migration tracking. CoRR abs/2212.08184 (2022) - 2021
- [j21]Seyedehfaezeh Hosseininoorbin
Deep learning-based cattle behaviour classification using joint time-frequency data representation. Comput. Electron. Agric. 187: 106241 (2021) - [j20]Muhammad Moid Sandhu
Task Scheduling for Energy-Harvesting-Based IoT: A Survey and Critical Analysis. IEEE Internet Things J. 8(18): 13825-13848 (2021) - [j19]Andrea Melis
P-SCOR: Integration of Constraint Programming Orchestration and Programmable Data Plane. IEEE Trans. Netw. Serv. Manag. 18(1): 402-414 (2021) - [c69]Liam Daly Manocchio
FlowGAN - Synthetic Network Flow Generation using Generative Adversarial Networks. CSE 2021: 168-176 - [c68]Sushmita Ghosh, Swades De, Shouri Chatterjee, Marius Portmann:
Learning-based Smart Sensing for Energy-Sustainable WSN. ICC 2021: 1-6 - [c67]Muhammad Moid Sandhu, Sara Khalifa, Kai Geissdoerfer, Raja Jurdak
SolAR: Energy Positive Human Activity Recognition using Solar Cells. PerCom 2021: 1-10 - [c66]Seyedehfaezeh Hosseininoorbin
Scaling Spectrogram Data Representation for Deep Learning on Edge TPU. PerCom Workshops 2021: 572-578 - [i26]Mohanad Sarhan, Siamak Layeghy, Nour Moustafa, Marius Portmann:
Towards a Standard Feature Set of NIDS Datasets. CoRR abs/2101.11315 (2021) - [i25]Seyedehfaezeh Hosseininoorbin
Exploring Edge TPU for Network Intrusion Detection in IoT. CoRR abs/2103.16295 (2021) - [i24]Wai Weng Lo, Siamak Layeghy, Mohanad Sarhan, Marcus Gallagher, Marius Portmann:
E-GraphSAGE: A Graph Neural Network based Intrusion Detection System. CoRR abs/2103.16329 (2021) - [i23]Mohanad Sarhan, Siamak Layeghy, Marius Portmann:
An Explainable Machine Learning-based Network Intrusion Detection System for Enabling Generalisability in Securing IoT Networks. CoRR abs/2104.07183 (2021) - [i22]Siamak Layeghy, Marcus Gallagher, Marius Portmann:
Benchmarking the Benchmark - Analysis of Synthetic NIDS Datasets. CoRR abs/2104.09029 (2021) - [i21]Mohanad Sarhan, Siamak Layeghy, Nour Moustafa, Marcus Gallagher, Marius Portmann:
Feature Extraction for Machine Learning-based Intrusion Detection in IoT Networks. CoRR abs/2108.12722 (2021) - [i20]Mohanad Sarhan, Siamak Layeghy, Marius Portmann:
Feature Analysis for ML-based IIoT Intrusion Detection. CoRR abs/2108.12732 (2021) - [i19]Mohanad Sarhan, Siamak Layeghy, Marcus Gallagher, Marius Portmann:
From Zero-Shot Machine Learning to Zero-Day Attack Detection. CoRR abs/2109.14868 (2021) - [i18]Seyedehfaezeh Hosseininoorbin
Exploring Deep Neural Networks on Edge TPU. CoRR abs/2110.08826 (2021) - [i17]Gayan K. Kulatilleke, Marius Portmann, Ryan K. L. Ko, Shekhar S. Chandra
FDGATII : Fast Dynamic Graph Attention with Initial Residual and Identity Mapping. CoRR abs/2110.11464 (2021) - [i16]Mohanad Sarhan, Siamak Layeghy, Nour Moustafa, Marius Portmann:
A Cyber Threat Intelligence Sharing Scheme based on Federated Learning for Network Intrusion Detection. CoRR abs/2111.02791 (2021) - 2020
- [j18]Anees Al-Najjar, Furqan Hameed Khan, Marius Portmann
Network traffic control for multi-homed end-hosts via SDN. IET Commun. 14(19): 3312-3323 (2020) - [j17]Furqan Hameed Khan, Marius Portmann
Joint QoS-control and handover optimization in backhaul aware SDN-based LTE networks. Wirel. Networks 26(4): 2707-2729 (2020) - [j16]Wei Yin
MAC-layer rate control for 802.11 networks: a survey. Wirel. Networks 26(5): 3793-3830 (2020) - [c65]Muhammad Moid Sandhu, Kai Geissdoerfer, Sara Khalifa, Raja Jurdak
Towards Energy Positive Sensing using Kinetic Energy Harvesters. PerCom 2020: 1-10 - [c64]Muhammad Moid Sandhu, Kai Geissdoerfer, Sara Khalifa, Raja Jurdak
Towards Optimal Kinetic Energy Harvesting for the Batteryless IoT. PerCom Workshops 2020: 1-6 - [c63]Mohanad Sarhan
NetFlow Datasets for Machine Learning-Based Network Intrusion Detection Systems. BDTA/WiCON 2020: 117-135 - [i15]Furqan Hameed Khan, Raja Jurdak, Marius Portmann:
A Model for Reliable Uplink Transmissions in LoRaWAN. CoRR abs/2009.09397 (2020) - [i14]Furqan Hameed Khan, Marius Portmann:
Experimental Evaluation of LoRaWAN in NS-3. CoRR abs/2009.09503 (2020) - [i13]Seyedeh Fa'ezeh Hosseini Noorbin, Siamak Layeghy, Brano Kusy, Raja Jurdak, Greg Bishop-Hurley, Marius Portmann:
Deep Learning-based Cattle Activity Classification Using Joint Time-frequency Data Representation. CoRR abs/2011.03381 (2020) - [i12]Mohanad Sarhan, Siamak Layeghy, Nour Moustafa, Marius Portmann:
NetFlow Datasets for Machine Learning-based Network Intrusion Detection Systems. CoRR abs/2011.09144 (2020) - [i11]Anees Al-Najjar, Furqan Hameed Khan, Marius Portmann:
Network Traffic Control for Multi-homed End-hosts via SDN. CoRR abs/2012.06989 (2020)
2010 – 2019
- 2019
- [j15]Talal Alharbi
The (In)Security of Virtualization in Software Defined Networks. IEEE Access 7: 66584-66594 (2019) - [c62]Furqan Hameed Khan, Raja Jurdak
A Model for Reliable Uplink Transmissions in LoRaWAN. DCOSS 2019: 147-156 - [i10]Furqan Hameed Khan, Marius Portmann:
Joint QoS-control and Handover Optimization in Backhaul aware SDN-based LTE Networks. CoRR abs/1906.03147 (2019) - 2018
- [c61]Anees Al-Najjar, Siamak Layeghy
Enhancing Quality of Experience of VoIP Traffic in SDN based End-hosts. ITNAC 2018: 1-8 - [c60]Furqan Hameed Khan, Marius Portmann
Experimental Evaluation of LoRaWAN in NS-3. ITNAC 2018: 1-8 - [c59]Farzaneh Pakzad, Marius Portmann
R2Lab Testbed Evaluation for Wireless Mesh Network Experiments. ITNAC 2018: 1-6 - [i9]Wei Yin, Peizhao Hu, Jadwiga Indulska, Marius Portmann, Ying Mao:
MAC-Layer Rate Control for 802.11 Networks: Lesson Learned and Looking Forward. CoRR abs/1807.02827 (2018) - 2017
- [c58]Furqan Hameed Khan, Marius Portmann:
Backhaul, QoS, and channel-aware load balancing optimization in SDN-based LTE networks. ICSPCS 2017: 1-10 - [c57]Furqan Hameed Khan, Marius Portmann
Backhaul, QoS, and channel-aware load balancing optimization in SDN-based LTE networks. ICSPCS 2017: 1-10 - [c56]Anees Al-Najjar, Samuel Teed, Jadwiga Indulska
Flow-based load balancing of web traffic using OpenFlow. ITNAC 2017: 1-6 - [c55]Talal Alharbi, Siamak Layeghy
Experimental evaluation of the impact of DoS attacks in SDN. ITNAC 2017: 1-6 - 2016
- [j14]Farzaneh Pakzad
Efficient topology discovery in OpenFlow-based Software Defined Networks. Comput. Commun. 77: 52-61 (2016) - [j13]Rob J. van Glabbeek, Peter Höfner, Marius Portmann
Modelling and verifying the AODV routing protocol. Distributed Comput. 29(4): 279-315 (2016) - [j12]Saaidal Razalli Azzuhri
An Efficient Hybrid MANET-DTN Routing Scheme for OLSR. Wirel. Pers. Commun. 89(4): 1335-1354 (2016) - [c54]Anees Al-Najjar, Farzaneh Pakzad, Siamak Layeghy
Link capacity estimation in SDN-based end-hosts. ICSPCS 2016: 1-8 - [c53]Furqan Hameed Khan, Marius Portmann
A system-level architecture for software-defined LTE networks. ICSPCS 2016: 1-10 - [c52]Siamak Layeghy
SCOR: Constraint Programming-based Northbound Interface for SDN. ITNAC 2016: 83-88 - [c51]Talal Alharbi, Marius Portmann
SProxy ARP - efficient ARP handling in SDN. ITNAC 2016: 179-184 - [c50]Farzaneh Pakzad, Siamak Layeghy
Evaluation of Mininet-WiFi integration via ns-3. ITNAC 2016: 243-248 - [c49]Talal Alharbi, Dario Durando, Farzaneh Pakzad, Marius Portmann
Securing ARP in Software Defined Networks. LCN 2016: 523-526 - [c48]Anees Al-Najjar, Siamak Layeghy
Pushing SDN to the end-host, network load balancing using OpenFlow. PerCom Workshops 2016: 1-6 - [i8]Siamak Layeghy, Farzaneh Pakzad, Marius Portmann:
SCOR: Software-defined Constrained Optimal Routing Platform for SDN. CoRR abs/1607.03243 (2016) - 2015
- [c47]Farzaneh Pakzad, Marius Portmann
Link capacity estimation in wireless software defined networks. ITNAC 2015: 208-213 - [c46]Talal Alharbi, Marius Portmann
The (in)security of Topology Discovery in Software Defined Networks. LCN 2015: 502-505 - [e2]Sajal K. Das, Dilip Krishnaswamy, Santonu Karkar, Amos Korman, Mohan J. Kumar, Marius Portmann, Srikanth Sastry:
Proceedings of the 2015 International Conference on Distributed Computing and Networking, ICDCN 2015, Goa, India, January 4-7, 2015. ACM 2015, ISBN 978-1-4503-2928-6 [contents] - [i7]Ansgar Fehnker, Rob J. van Glabbeek, Peter Höfner, Annabelle McIver, Marius Portmann, Wee Lum Tan:
Modelling and Analysis of AODV in UPPAAL. CoRR abs/1512.07312 (2015) - [i6]Ansgar Fehnker, Rob J. van Glabbeek, Peter Höfner, Annabelle McIver, Marius Portmann, Wee Lum Tan:
A Process Algebra for Wireless Mesh Networks. CoRR abs/1512.07319 (2015) - [i5]Ansgar Fehnker, Rob J. van Glabbeek, Peter Höfner, Annabelle McIver, Marius Portmann, Wee Lum Tan:
Automated Analysis of AODV using UPPAAL. CoRR abs/1512.07352 (2015) - [i4]Rob J. van Glabbeek, Peter Höfner, Marius Portmann, Wee Lum Tan:
Modelling and Verifying the AODV Routing Protocol. CoRR abs/1512.08867 (2015) - [i3]Peter Höfner, Rob J. van Glabbeek, Wee Lum Tan, Marius Portmann, Annabelle McIver, Ansgar Fehnker:
A Rigorous Analysis of AODV and its Variants. CoRR abs/1512.08873 (2015) - [i2]Rob J. van Glabbeek, Peter Höfner, Wee Lum Tan, Marius Portmann:
Sequence Numbers Do Not Guarantee Loop Freedom; AODV Can Yield Routing Loops. CoRR abs/1512.08891 (2015) - 2014
- [j11]Konglit Hunchangsith, Marek E. Bialkowski, Marius Portmann
Analytical model for approximating node throughputs in wireless mesh networks. Int. J. Commun. Syst. 27(5): 750-762 (2014) - [j10]Claudio Bettini
Editorial. Pervasive Mob. Comput. 10: 1-2 (2014) - [j9]David B. Smith, Marius Portmann
Multi-Source-Destination Distributed Wireless Networks: Pareto-Efficient Dynamic Power Control Game With Rapid Convergence. IEEE Trans. Veh. Technol. 63(6): 2744-2754 (2014) - [c45]Mingyang Zhong, Jadwiga Indulska
Development of Collaborative Video Streaming for Mobile Networks: From Overview to Prototype. UIC/ATC/ScalCom 2014: 372-377 - 2013
- [c44]M. A. Hakim Newton
Stochastic Local Search Based Channel Assignment in Wireless Mesh Networks. CP 2013: 832-847 - [c43]Ranjana Pathak, Peizhao Hu, Jadwiga Indulska
A performance study of hybrid protocols for opportunistic communications. LCN Workshops 2013: 9-16 - [c42]Ranjana Pathak, Peizhao Hu, Jadwiga Indulska
Protocol for efficient opportunistic communication. LCN 2013: 244-247 - [c41]Rob J. van Glabbeek, Peter Höfner, Wee Lum Tan
Sequence numbers do not guarantee loop freedom: AODV can yield routing loops. MSWiM 2013: 91-100 - [c40]Ranjana Pathak, Peizhao Hu, Jadwiga Indulska
Towards efficient opportunistic communications: A hybrid approach. PerCom Workshops 2013: 255-260 - [c39]Saeed Farooq Khan, Marius Portmann
VoIP Spam Prevention. TrustCom/ISPA/IUCC 2013: 1463-1470 - [c38]Steve Glass, Jonathan Guerin, Peizhao Hu, Marius Portmann
Specification versus reality: Experimental evaluation of link capacity estimation in IEEE 802.11. WCNC 2013: 380-385 - [i1]Ansgar Fehnker, Rob J. van Glabbeek, Peter Höfner, Annabelle McIver, Marius Portmann, Wee Lum Tan:
A Process Algebra for Wireless Mesh Networks used for Modelling, Verifying and Analysing AODV. CoRR abs/1312.7645 (2013) - 2012
- [c37]Ansgar Fehnker
A Process Algebra for Wireless Mesh Networks. ESOP 2012: 295-315 - [c36]Jonathan Guerin, Steve Glass, Peizhao Hu, Wee Lum Tan
Time-based and low-cost bandwidth estimation for IEEE 802.11 links. IWCMC 2012: 251-256 - [c35]Wei Yin, Peizhao Hu, Jadwiga Indulska
Robust MAC-layer rate control mechanism for 802.11 wireless networks. LCN 2012: 419-427 - [c34]Peter Höfner, Rob J. van Glabbeek, Wee Lum Tan
A rigorous analysis of AODV and its variants. MSWiM 2012: 203-212 - [c33]Peizhao Hu, Nick Symons, Jadwiga Indulska
Share your view: Wireless multi-hop video streaming using Android phones. PerCom Workshops 2012: 782-787 - [c32]Ansgar Fehnker
Automated Analysis of AODV Using UPPAAL. TACAS 2012: 173-187 - [c31]Wee Lum Tan
SNR-Based Link Quality Estimation. VTC Spring 2012: 1-5 - [c30]Wee Lum Tan
Experimental evaluation of measurement-based SINR interference models. WOWMOM 2012: 1-9 - 2011
- [c29]Wee Lum Tan
A Systematic Evaluation of Interference Characteristics in 802.11-Based Wireless Networks. AINA 2011: 646-652 - [c28]Zainab R. Zaidi, Marius Portmann
Analysis of link break detection using HELLO messages. MSWiM 2011: 143-150 - [c27]Stephen Mark Glass, Vallipuram Muthukkumarasamy, Marius Portmann
Insecurity in Public-Safety Communications: APCO Project 25. SecureComm 2011: 116-133 - 2010
- [j8]Peizhao Hu, Wee Lum Tan
MeshVision: an adaptive wireless mesh network video surveillance system. Multim. Syst. 16(4-5): 243-254 (2010) - [c26]Steve Glass, Vallipuram Muthukkumarasamy, Marius Portmann
The Insecurity of Time-of-Arrival Distance-Ranging in IEEE 802.11 Wireless Networks. ICDCS Workshops 2010: 227-233 - [c25]Peizhao Hu, Konstanty Bialkowski
Evaluation of commercial wireless mesh technologies in a public safety context: Methodology, analysis and experience. MASS 2010: 606-611 - [c24]Saaidal Razalli Azzuhri
Adaptive Wireless Mesh Networks Routing Protocols. UIC/ATC Workshops 2010: 142-147 - [c23]Wee Lum Tan
Evaluating Adjacent Channel Interference in IEEE 802.11 Networks. VTC Spring 2010: 1-5
2000 – 2009
- 2009
- [j7]Asad Amir Pirzada, Marius Portmann, Jadwiga Indulska:
AODV-HM: A Hybrid Mesh Ad-hoc On-demand Distance Vector Routing Protocol. J. Res. Pract. Inf. Technol. 41(1): 65-84 (2009) - [j6]Asad Amir Pirzada, Marius Portmann
SafeMesh: A wireless mesh network routing protocol for incident area communications. Pervasive Mob. Comput. 5(2): 201-221 (2009) - [c22]Asad Amir Pirzada, Ryan Wishart, Marius Portmann, Jadwiga Indulska:
ALARM: An Adaptive Load-Aware Routing Metric for Hybrid Wireless Mesh Networks. ACSC 2009: 25-34 - [c21]Stephen Mark Glass, Vallipuram Muthukkumarasamy, Marius Portmann
Detecting Man-in-the-Middle and Wormhole Attacks in Wireless Mesh Networks. AINA 2009: 530-538 - [c20]Steve Glass, Vallipuram Muthukkumarasamy, Marius Portmann
A software-defined radio receiver for APCO project 25 signals. IWCMC 2009: 67-72 - [c19]Peizhao Hu, Ryan Wishart, Jimmy Ti, Marius Portmann
MeshVision: An Adaptive Wireless Mesh Network Video Surveillance System. UIC 2009: 193-207 - [e1]Daqing Zhang, Marius Portmann, Ah-Hwee Tan, Jadwiga Indulska:
Ubiquitous Intelligence and Computing, 6th International Conference, UIC 2009, Brisbane, Australia, July 7-9, 2009. Proceedings. Lecture Notes in Computer Science 5585, Springer 2009, ISBN 978-3-642-02829-8 [contents] - 2008
- [j5]Asad Amir Pirzada, Marius Portmann
Performance analysis of multi-radio AODV in hybrid wireless mesh networks. Comput. Commun. 31(5): 885-895 (2008) - [j4]Marius Portmann
Wireless Mesh Networks for Public Safety and Crisis Management Applications. IEEE Internet Comput. 12(1): 18-25 (2008) - [j3]Steve Glass, Marius Portmann
Securing Wireless Mesh Networks. IEEE Internet Comput. 12(4): 30-36 (2008) - [c18]Shivanajay Marwaha, Jadwiga Indulska
Challenges and recent advances in QoS provisioning in wireless mesh networks. CIT 2008: 618-623 - [c17]Stephan Mir, Asad Amir Pirzada, Marius Portmann:
HOVER: hybrid on-demand distance vector routing for wireless mesh networks. ACSC 2008: 63-71 - [c16]Peizhao Hu, Marius Portmann
Context-aware routing in wireless mesh networks. CASEMANS 2008: 16-23 - [c15]Ryan Wishart, Asad Amir Pirzada, Marius Portmann
A light-weight internet gateway discovery scheme for infrastructure mesh networks. WiOpt 2008: 301-306 - 2007
- [c14]Asad Amir Pirzada, Marius Portmann, Jadwiga Indulska:
Hybrid Mesh Ad-Hoc On-Demand Distance Vector Routing Protocol. ACSC 2007: 49-58 - [c13]Asad Amir Pirzada, Ryan Wishart, Marius Portmann
Multi-Linked AODV Routing Protocol for Wireless Mesh Networks. GLOBECOM 2007: 4925-4930 - [c12]Ryan Wishart, Asad Amir Pirzada, Marius Portmann
A Light-Weight Client Mobility Approach for Infrastructure Mesh Networks. ICON 2007: 252-258 - [c11]Asad Amir Pirzada, Ryan Wishart, Marius Portmann
Congestion Aware Routing in Hybrid Wireless Mesh Networks. ICON 2007: 513-518 - [c10]Asad Amir Pirzada, Marius Portmann
High Performance AODV Routing Protocol for Hybrid Wireless Mesh Networks. MobiQuitous 2007: 1-5 - 2006
- [c9]Asad Amir Pirzada, Marius Portmann
Performance Comparison of Multi-Path AODV and DSR Protocols in Hybrid Mesh Networks. ICON 2006: 1-6 - [c8]Asad Amir Pirzada, Marius Portmann, Jadwiga Indulska
Evaluation of multi-radio extensions to AODV for wireless mesh networks. MOBIWAC 2006: 45-51 - [c7]Ryan Wishart, Jadwiga Indulska
Context-Enhanced Authentication for Infrastructureless Network Environments. UIC 2006: 924-935 - 2005
- [c6]Marius Portmann
A Programmable Structured Peer-to-Peer Overlay. IWAN 2005: 145-155 - 2004
- [c5]Marius Portmann
PROST: A Programmable Structured Peer-to-Peer Overlay Network. Peer-to-Peer Computing 2004: 280-281 - [c4]Marius Portmann
Mitigating Routing Misbehav. SAINT Workshops 2004: 541-545 - 2003
- [j2]Marius Portmann
Cost-effective broadcast for fully decentralized peer-to-peer networks. Comput. Commun. 26(11): 1159-1167 (2003) - [j1]Sebastien Ardon, Per Gunningberg, Björn Landfeldt, Yuri Ismailov, Marius Portmann
MARCH: A distributed content adaptation architecture. Int. J. Commun. Syst. 16(1): 97-115 (2003) - 2002
- [c3]Marius Portmann, Aruna Seneviratne
The cost of application-level broadcast in a fully decentralized peer-to-peer network. ISCC 2002: 941-946 - 2001
- [c2]Marius Portmann, Aruna Seneviratne
Selective security for TLS. ICON 2001: 216-221 - [c1]Marius Portmann, Pipat Sookavatana, Sebastien Ardon, Aruna Seneviratne
The cost of peer discovery and searching in the Gnutella peer-to-peer file sharing protocol. ICON 2001: 263-268
Coauthor Index
Seyedehfaezeh Hosseininoorbin
aka: Seyedeh Fa'ezeh Hosseini Noorbin
aka: Seyedeh Fa'ezeh Hosseini Noorbin
[j43] [j42] [j41] [j40] [j39] [i40] [j38] [j37] [j35] [j33] [j32] [j31] [j30] [j29] [j28] [c75] [i39] [j27] [j26] [j25] [j24] [c72] [c71] [c70] [i38] [i37] [i36] [i34] [i33] [i32] [i30] [i29] [i28] [j21] [j19] [c69] [c66] [i26] [i25] [i24] [i23] [i22] [i21] [i20] [i19] [i18] [i16] [c63] [i13] [i12] [c61] [c55] [c54] [c52] [c50] [c48] [i8]
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