Walker completed both his undergraduate and doctoral studies at the University of Newcastle and has engaged in full-time research since being awarded his PhD in 2006. On a fundamental level, his research looks at the role of microglia cells, a key part of the immune defence of the central nervous system, and how those cells can be manipulated to mediate the effects of chronic stress, mood disorders and the recovery processes after brain injury. His research activities span across a wide range of pre-clinical and human research projects, continuously striving towards implementing cutting edge technology and highly translatable therapeutic avenues, such as high altitude training and growth hormone use in stroke recovery. His research team investigates brain cell inflammation as a primary cause of psychological disorders and homeostatic changes after injury, particularly stroke. Neuroscience ResearchĪs a leading neuroscientist in the field of neuro-inflammation and neurobiological mechanisms, Walker and his team are at the forefront of biomedical research relating to how the environment shapes the brain during both wellness and disease.
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Walker has brought together physiologists, neuroscientists, leading clinical and research psychologists, ADF personnel at multiple levels, hardware specialists and software developers as a team to drive this project towards success. This project strongly reflects the collaborative and multi-disciplinary space University of Newcastle Biometrics is working in. The use of virtual reality allows the mobile and immersive delivery of specifically designed content to a large number of ADF personnel any time and any place. This approach combines an objective evaluation of resilience-based psychometrics and biometrics with immersive education, training and skill consolidation. UON Biometrics uses innovative simulation technologies, such as virtual reality, augmented reality or 360 video to generate immersive training tools and solutions for focused training and monitoring.įunded by, and in collaboration with, the Australian Defence Force (ADF), Walker and his team are currently developing a Biometric Assessment Platform and Cognitive Resilience Training tool using virtual reality. Since establishing the centre of University of Newcastle Biometrics, Walker and his team have embarked upon several major projects with the Department of Defence, the Meat and Livestock Industry and Hunter New England Health within the University of Newcastle, as well as a number of other industry partners.
“Biometric assessments are so important because they allow us access to our emotional states, with this in hand we can begin the process of training emotional resilience” The University of Newcastle Biometrics team now partners widely across academia and industry to develop, optimise, and support integration of biometric signals collection and analysis. Positioned at this intersection, Walker and his team strive towards translating the newest developments in science and technology into real world applications and solutions.
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His professional activity has been directed towards understanding the effects of stress on the brain, on a basic functional and molecular level, as well as how to monitor and control the effects that stress has on the body and brain. Currently, he is the Director of University of Newcastle Biometrics, a centre utilising biometric and endocrine signalling to deliver improved performance in the workplace, better health outcomes and animal welfare. Walker believes in the value of building multi-disciplinary teams, and holds several leadership roles. Understanding how emotions impact workplace decision making and how we can train emotional resilienceĪssociate Professor Rohan Walker sits at the cross roads of neuroscience and psychology and is focused on developing and delivering innovative strategies to improve emotional resilience and decision making in the workplaceĪssociate Professor Rohan Walker is a multidimensional scientist who is linking cutting edge neuroscience with over-the-horizon solutions for clinical applications, as well as the industry sector.
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