Electrical and computer systems engineering is an extremely diverse field, taking in biomedical, computer systems, electronics, electrical power engineering, robotics and telecommunications. By continuing you agree to the use of cookies, Office of the Provost and Senior Vice-President, A hands-free human-computer-interface platform for paralyzed patients using a teng-based eyelash motion sensor, IEEE, Institute of Electrical and Electronics Engineers, Chapter in Book/Report/Conference proceeding, A low complexity decoding algorithm for NB-LDPC codes over quadratic extension fields, A UWB antenna for chipless RFID tag detection, Centralized scheduling with sum-rate optimization in flexible half-duplex networks, Chemical reactions-based detection mechanism for molecular communications, Geometry based stochastic channel modeling using ambit processes, Investigation of chipless RFID tag performance in coal mining conveyor belt, LDPC-staircase codes for soft decision decoding, Low complexity iterative rake detector for orthogonal time frequency space modulation, Low-cost chipless RFID reader for polarizer tags, Menelik: a detailed anatomical human head model for electromagnetic computations, Online caching and coding at the WiFi edge: gains and tradeoffs, Overcoming low-power limitations on optical frequency combs using a micro-ring resonator, Recursive formulations for n input asynchronous First Come First Served arbiters, 18-20 GHz compact passive 4-bit GaAs MMIC phase shifter with low insertion loss, A cross-polar orientation insensitive chipless RFID tag, Adversarial pulmonary pathology translation for pairwise chest x-ray data augmentation, A folded monopole shaped novel soil moisture and salinity sensor for precision agriculture based chipless RFID applications, Aging effects of twice line frequency ripple on lithium iron phosphate (LiFePO, An automatic navigation and pressure monitoring for guided insertion procedure, A performance comparison between synchronous and asynchronous electrostatic harvesters, A portable continuous wave radar system to detect elderly fall, A review on the application of the time reversal theory to wire network and power system diagnosis, A semi-deterministic approach for clipping noise mitigation in DCO-OFDM systems, A wearable, low-power, real-time ECG monitor for smart t-shirt and IoT healthcare applications, A wearable multi-sensor IoT network system for environmental monitoring, A wireless wearable sensor patch for the real-time estimation of continuous beat-to-beat blood pressure, Chipless RFID: a low-cost consumer electronics in the retail marketplace for moving item detection. Learn more about the expertise we put at your fingertips. Clipping-enhanced Kramers-Kronig receivers, Closed-chain pose estimation from wearable sensors, Comparison of the permittivity sensing capabilities of graphene-based nanohybrids and metal nanoparticle-based nanohybrids, Coset probability based majority-logic decoding for non-binary LDPC codes, Decentralized secondary controller in islanded DC microgrids to enhance voltage regulation and load sharing accuracy, Design and implementation of a wearable sensor network system for iot-connected safety and health applications, Deterioration of frequency response in low inertia networks due to governor dead-bands, Devon: deformable volume network for learning optical flow, Effects of various factors on RSSI from positioning point of view with wearables, Electromagnetic characterization of a food safe, organic smart material for customizable temperature threshold sensing in cold chain applications, Embedded delay-doppler channel estimation for orthogonal time frequency space modulation, EMPNet: neural localisation and mapping using embedded memory points, ENG: end-to-end neural geometry for robust depth and pose estimation using CNNs, Error performance of orthogonal time frequency space (OTFS) modulation, Estimation of backscattered signals of frequency-coded chipless RFID tag, Evaluation of a minimally invasive endovascular neural interface for decoding motor activity, Event-based motion segmentation by motion compensation, Event cameras, contrast maximization and reward functions: an analysis. Whether you’re just starting or in your final semester, there's lots to think about. Chipless RFID tags: co-or cross-polar tag? Find out everything from how to apply to research degrees and overseas study. Our current students page covers the journey from orientation to research.

Visit us to share your story, find out what our engineering alumni are up to, or make a donation. MVG's primary goal is to develop a clinically viable cortical vision prosthesis - known as the Gennaris bionic vision system or ‘Gennaris’. Master’s by coursework – Mechanical Engineering at Monash, Postgraduate research degrees – Mechanical and Aerospace Engineering at Monash, Postgraduate research degree - course requirements.

We acknowledge and pay respects to the Elders and Traditional Owners of the land on which our four Australian campuses stand. Why study mechanical, aerospace and mechatronics engineering? You'll use these facilities while completing your studies, working with our academics to contribute to the latest breakthroughs in engineering research. From your first day to your final lecture, we make sure you get everything you need. Get in touch to see how our researchers and students can be game-changers for your organisation: Professor Tom DrummondHead of DepartmentE: Tom.Drummond@monash.eduT: +61 3 9905 5682, Professor Malin PremaratneDirector of ResearchE: Malin.Premaratne@monash.eduT: +61 3 9905 5382, Geoff BinnsDepartment ManagerE: Geoff.Binns@monash.eduT: +61 3 9905 3498. Experimental measurements of harmonic currents produced by diode rectifier with various inout filter alternatives for CEA Technologies Holmes, D. G. & McIver, A., 1997, Clayton Vic Australia: Centre for Electric Power Engineering, Monash University. Discover what we're working on, and how you can make the move from expert to specialist. Authorised by: Chief Marketing Officer, Strategic Marketing and Communications. Smart Electrical Engineering - Electrical Power, Power Electronics and systems. The Department of Electrical and Computer Systems Engineering is at the centre of ECSE research. If unwell, get tested and do not come to campus.View our latest COVID-19 updates. Powered by Pure, Scopus & Elsevier Fingerprint Engine™ © 2020 Elsevier B.V. We use cookies to help provide and enhance our service and tailor content. Why Monash Engineering for graduate research? • It has been a major contributor to both Teaching and Research. Maintained by: Engineering Webmaster Team. The Department of Electrical and Computer Systems Engineering is at the centre of ECSE research. From tiny electronics to gigantic structures, we're having an impact. Last updated: Feb 2020. Power electronics research is supported by the Power Electronics Group, which investigates both the theoretical and practical aspects of power electronic converters and their associated controls.

Our researchers are working on a comprehensive range of innovative projects including bionic vision, augmented reality, medical diagnostics, optical communications, wireless communications, sensor systems and high-voltage engineering. Electrical Power Power at Monash Engineering • Electrical Power has been a part of Monash Electrical Engineering since department was established. ABN 12 377 614 012 Accessibility - Disclaimer and copyright - Website terms and conditions - Data Protection and Privacy Procedure - Data Consent Settings, Monash University CRICOS Provider Number: 00008C, Monash College CRICOS Provider Number: 01857J.