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Prof J Rittscher, Prof Xin Lu
No more applications being accepted
Funded PhD Project (European/UK Students Only)
About the Project
The development of advanced machine learning and statistical analysis techniques has revolutionized our way of life, from handwriting recognition, image retrieval, weather forecasting and GPS route planning to online search engines and movie recommendation systems. It is now time to capitalize on successes in machine learning for biological discovery to benefit human health. Taking advantage of recent progress in machine learning and human genomics, this multidisciplinary project aims to combine deep learning architectures from machine learning and clinical medical images with the wealth of genetic information. The goal is to develop robust, general approaches for medical image analysis with an emphasis on capturing the architecture of the normal tissues in development and their changes in diseases, particularly cancer. The quantitative information extracted from the images will be used to assist pathologists in their decision-making and to analyse patient responses to therapy.
The candidate should be comfortable with programming, in particular in the C++, Python and Matlab languages, and be familiar with concepts in computer vision. Ideally he/she should possess a strong mathematics background and be motivated to work with biologists and clinicians to answer biological and clinical questions.
This is a high impact, unique PhD opportunity in which the candidate will receive exposure to and training in state-of-the-art techniques for machine learning and computer vision with opportunities to extend the algorithms for real-time applications. He/she will also work very closely with clinicians, pathologists and biologists within a highly interdisciplinary, collaborative, world-leading environment.
Ludwig Cancer Research is an international non-profit research organisation committed dedicated to preventing and controlling cancer. The Ludwig Cancer Research Oxford Branch, is based within the Nuffield Department of Clinical Medicine at the University of Oxford The overall aim of the Oxford branch is to translate basic discoveries into the clinic for the benefit of patients, with their research helping to aid in the future diagnosis of cancer and the design of more effective, individualised treatments.
The candidate should be comfortable with programming, in particular in the C++, Python and Matlab languages, and be familiar with concepts in computer vision. Ideally he/she should possess a strong mathematics background and be motivated to work with biologists and clinicians to answer biological and clinical questions.
This is a high impact, unique PhD opportunity in which the candidate will receive exposure to and training in state-of-the-art techniques for machine learning and computer vision with opportunities to extend the algorithms for real-time applications. He/she will also work very closely with clinicians, pathologists and biologists within a highly interdisciplinary, collaborative, world-leading environment.
Ludwig Cancer Research is an international non-profit research organisation committed dedicated to preventing and controlling cancer. The Ludwig Cancer Research Oxford Branch, is based within the Nuffield Department of Clinical Medicine at the University of Oxford The overall aim of the Oxford branch is to translate basic discoveries into the clinic for the benefit of patients, with their research helping to aid in the future diagnosis of cancer and the design of more effective, individualised treatments.
Funding Notes
Funding: A tax free stipend of £18,000 pa for 4 years. University & college fees at home / EU rates. Provided by Ludwig Cancer Research
Entry requirements:
A minimum of an upper second class undergraduate degree in a relevant subject. (For non-British qualifications see http://ecctis.co.uk/naric/)
Applicants whose first language is not English will be required to provide evidence of proficiency as required by the University of Oxford.
All applications will be made via the University of Oxford online admissions system. For further details on how to apply visit: http://www.ludwig.ox.ac.uk/studying-at-ludwig-cancer-research-oxford-branch
Entry requirements:
A minimum of an upper second class undergraduate degree in a relevant subject. (For non-British qualifications see http://ecctis.co.uk/naric/)
Applicants whose first language is not English will be required to provide evidence of proficiency as required by the University of Oxford.
All applications will be made via the University of Oxford online admissions system. For further details on how to apply visit: http://www.ludwig.ox.ac.uk/studying-at-ludwig-cancer-research-oxford-branch
References
1. Schmidhuber, Jürgen. "Deep learning in neural networks: An overview." Neural Networks 61 (2015): 85-117.
2. Razavian, Ali Sharif, et al. "CNN Features off-the-shelf: an Astounding Baseline for Recognition." Computer Vision and Pattern Recognition Workshops (CVPRW), 2014 IEEE Conference on. IEEE, 2014.
3. Zeiler, Matthew D., and Rob Fergus. "Visualizing and understanding convolutional networks." Computer Vision–ECCV 2014. Springer International Publishing, 2014. 818-833.
4. Fuchs, T. J., & Buhmann, J. M. (n.d.). Computational pathology: challenges and promises for tissue analysis. Computerized Medical Imaging and Graphics : The Official Journal of the Computerized Medical Imaging Society, 35(7-8), 515–30.
2. Razavian, Ali Sharif, et al. "CNN Features off-the-shelf: an Astounding Baseline for Recognition." Computer Vision and Pattern Recognition Workshops (CVPRW), 2014 IEEE Conference on. IEEE, 2014.
3. Zeiler, Matthew D., and Rob Fergus. "Visualizing and understanding convolutional networks." Computer Vision–ECCV 2014. Springer International Publishing, 2014. 818-833.
4. Fuchs, T. J., & Buhmann, J. M. (n.d.). Computational pathology: challenges and promises for tissue analysis. Computerized Medical Imaging and Graphics : The Official Journal of the Computerized Medical Imaging Society, 35(7-8), 515–30.
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