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QM/BUPT Joint Programme Final Year Projects

This research covers a wide range of topics including video compression, multimedia communication, network protocols, software-defined networking, and wireless sensor networks. Expertise includes ICT, wireless networks, mobile networks, computer applications, and embedded systems.

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QM/BUPT Joint Programme Final Year Projects

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  1. QM/BUPT Joint Programme Final Year Projects Jonathan Loo j.loo@qmul.ac.uk

  2. My Research Coverage Map(not limited to) • Video compression and transmission • Perceptual video coding • Video transmission with error resilience scheme • Multimedia Communication • Video compression • Video transmission Cross-layer protocol • New development • Software Defined Networking (SDN) • Information Centric Networking (ICN) • Network Communication • Mobile ad hoc network • Wireless sensor network • Vehicular area Network • Network QoS analysis • Network topology • Intrusion detection system based on • network QoS • Mobile Network (LTE, 5G) • Throughput, e2e delay, packet • loss, fairness • Resource allocation • Admission control • Packet scheduling Cross-layer protocol • Medium Access • Wireless sensor network • Vehicular area Network • LTE • Wireless sensor network • Throughput, e2e delay, packet • loss • Energy saving • Vehicular area network • Throughput, e2e delay, packet • loss, access time, reliability • Interference • Physical Layer • Wireless signal processing • Software Defined Radio

  3. My Expertise (1/2) Broad knowledge and research expertise in wide-spectrum of topics from both Computer Science and Engineering perspectives, which covers multi-disciplinary topics (to name a few): • Information and Communication Technology (ICT): Virtualisation, Cloud computing, Computer Application, Information Centric Networking, Software-Defined Networking, Network QoS and Security; • Wireless Networks, Protocols and Security: Internet of Things (IoT) / Machine-to-Machine (M2M), Wireless Sensor Network (WSN) / 6LoWPAN/RPL, Vehicular Area Network (VANET), Mobile Adhoc Network (MANET), Opportunistic Network, Wireless proximity data mining, QoS Security; My publication list: https://www.researchgate.net/profile/Jonathan_Loo https://scholar.google.co.uk/citations?user=HZ10QK4AAAAJ&hl=en http://dblp.uni-trier.de/pers/hd/l/Loo:Jonathan

  4. My Expertise (2/2) • Mobile Networks: Packet scheduling, Resource Allocation Management LTE/Femtocell; • Wireless communication systems: Channel coding, Modulation, Cognitive Radio; • Computer Applications: Video coding and transmission, Semantic multimedia data annotation, search and retrieval, Voice-over-IP, User behaviour analysis (with wireless proximity data); • Embedded Systems: Embedded Linux, System-on-Chip architecture (ARM, OMAP), DSP (Texas Instrument, Analog Devices), FPGA (Xilinx); • Applied Soft Computing and Computational Intelligence: Genetic Algorithm, Evolutionary Strategy, Bayesian Inference, Particle Swam Optimisation, deep learning framework/architecture

  5. Last Year Project Example - 2015-2016 (1/2) • Network • Design and evaluate the impact of internal attack on RPL/6LoWPAN based Wireless Sensor Network • Detection of internal attack on RPL/6LoWPAN based Wireless Sensor Network using Bayesian Network • Design and Evaluate Software-Defined VANET Architecture using OMNET++ • Design and evaluate dynamic network load balancing based on SDN/Openflow • Wireless • Design and evaluate an energy-aware downlink packet scheduling mechanism in LTE network

  6. Last Year Project Example - 2015-2016 (2/2) • Hardware • Implement and evaluate software-defined network testbed using Raspberry Pi as OpenFlow Switches • Intelligent Remote Door Answering System using Raspberry Pi • Software (suitable for e-commerce students) • Emergence alert geo-location mapping using social network data (Weibo/Tweeters) • Online Food Takeaway Ordering Service • Phone App for Part-time job brokerage service

  7. Last Year Project Example • Emergence alert geo-location mapping using social network data (Weibo) • Implement and evaluate software-defined network testbed using Raspberry Pi as OpenFlow Switches • Design and evaluate an energy-aware downlink packet scheduling mechanism in LTE network • Intelligent Remote Door Answering System using Raspberry Pi

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