The production of electric energy from wind technology has experience great advances in the later years. It is estimated that the potential of wind energy in the world is between 20.000 x 106 and 50.000 x 106 MWh/year, whereas the energy consumption is about 15.000 x 106 MWh/year. Read more
Beating-heart procedures represent a less invasive alternative to standard open-heart surgery with fewer perioperative complications, and shorter recovery time. Read more
Skilled movements require learning to perceive task demands, and organising your actions to meet those demands. I use coordinated rhythmic movements as a model task in the lab to study the processes of skill acquisition and performance. Read more
The Ultrafast Spectroscopy and Chiral Molecular Dynamics Laboratory led by Prof. Malte Oppermann studies the molecular transformations that drive biological and chemical processes on the nanoscale. Read more
Duration of study: Full time - four years fixed term. Starting date: Flexible, to start by September 2023. Application deadline: Monday 24th April 2023 (or until filled). Read more
The Ultrafast Spectroscopy and Chiral Molecular Dynamics Laboratory led by Prof. Malte Oppermann studies the molecular transformations that drive biological and chemical processes on the nanoscale. Read more
Excessive clotting (thrombosis) leads to the cardiovascular diseases such as heart attack and stroke—the No.1 world-wide killer, killing one Australian every 12 minutes. Read more
The mechanical stimuli generated by body exercise can be transmitted from cortical bone into the deep bone marrow. A mechanosensitive perivascular stem cell niche is recently identified within the bone marrow for osteogenesis and lymphopoiesis. Read more
Spiking Neural Networks (SNNs) represent the so called ‘third generation’ of artificial neural network models, that bridge the gap between neuroscience and artificial intelligence by relying on biologically realistic models of neurons and network architectures to carry out computations. Read more
Orthogonal Frequency Division Multiplexing (OFDM) is a technique that exploits orthogonal carriers to transmit information and enhance received signal diversity and consequently increase received signal-to-noise ratio (SNR). Read more
The goal of this project is to build a new model of muscle contraction called the Active Spring Muscle Model (ASMM) and to verify the model in human gait mechanics. Read more
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