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PhD Studentship: Deep Learning for Audio-Visual Scene Analysis 🎯پوزیشن:بینایی، گفتار و پردازش سیگنال 💼دانشگاه: University of Surrey, United Kingdom🇬🇧 ⏰مهلت: 1 جولای 2024 🎖حوزه تحقیقاتی: The University of Surrey is offering a fully funded PhD studentship on the topics of Deep Learning for Audio-Visual Scene Analysis, with industrial partner Bang & Olufsen. This project aims to develop new deep learning methods for audio-visual scene analysis in a smart home environment. This will involve the use of heterogeneous sensors, e.g. microphones and cameras, for analysing various sources and events present in the acoustic environment. Tasks to be considered include audio-visual source separation, localization/tracking, and audio-visual event detection/recognition.Successful candidates will be supervised by Professor Wenwu Wang  and Professor Philip Jackson in the Centre for Vision, Speech and Signal Processing (CVSSP) and Surrey Institute for People Centred Artificial Intelligence, at the University of Surrey.  The PhD student will be based at the CVSSP. They will benefit from resources from CVSSP, the Surrey Institute for People-Centred AI, and potential secondment opportunities at Bang & Olufsen. 👀اطلاعات بیشتر   #University_Surrey #United_Kingdom #PhD

PhD position on "On-Chip Separation of Proteins for Single-Cell Proteome Profiling" 🎯پوزیشن:تشخیص تولید و ترشح پروتئین در تک سلولی 💼دانشگاه: ETH Zurich, Switzerland🇨🇭 ⏰مهلت: unspecified 🎖حوزه تحقیقاتی: The focus of BMC group is developing technologies that enable single-cell studies down to single-molecule level. In our research, nanotechnology and biophysics meet to answer important biological questions. We're curious about things like how cells release proteins and how immune cells in our body fight against disease using their protein repertoire. Our work has important applications, especially in understanding immune cells better and finding new ways to treat diseases using cells. Our research is focused on making sensors that can be used for monitoring process in living cells, and we're especially interested in using nanopore sensors for this purpose. These sensors help us see what's happening both inside and outside the cells. For example, we can observe how immune cells fight against cancer cells or how cells react to external physical or chemicals cues. We work closely with scientists from other disciplines such as biology and immunology, to implement our knowledge in emerging applications such as cell-based therapies to fight against cancer and other infectious diseases. 👀اطلاعات بیشتر   #ETH_Zurich #Switzerland #PhD @Iran @Iran @Iran

Establishing the potential for improved management of intermittent sewage discharges with nature-based solutions - PhD 🎯پوزیشن:محیط زیست، اکولوژیکی یا مهندسی عمران، علوم محیطی، هیدرولوژی، اکولوژی، مدیریت منابع آب و جغرافیا 💼دانشگاه: Cranfield University, United Kingdom🇬🇧 ⏰مهلت: 17 جولای 2024 🎖حوزه تحقیقاتی: Water infrastructure in the UK relies on combined conveyance of sewage, surface runoff, and pre-treated industrial wastewater. Emergency overflows divert excess flows to receiving water courses or attenuation facilities to prevent sewage backing up. Initially designed for intermittent discharges, these overflows now routinely operate due to population growth, increased paved areas, infrastructure ageing, and water ingress, with only 40% of SO spilling less than the target 10 spills per year in 2023. Climate change impacts will exacerbate this issue, as more periods of drought (where pollutants settle in the bottom of the pipes) followed by flash floods (high flows in paved areas that feed the sewers and push settled pollutants out of the pipes) are expected to be the norm. Negative public perception and regulatory response have led to targets for reducing overflow frequency, ecological harm, visual impacts, and protecting bathing water.   This PhD project has been co-developed with three water companies and the Environment Agency to address crucial gaps in knowledge needed to make nature-based solutions a central strategy for reducing occurrence and impact of SO spills. The objectives of the project include mapping land availability for nature-based solutions around SO; assessing expected SO contaminant loads; quantifying pollution, water volume attenuation and co-benefits provided by different nature-based solutions; and developing a prioritised portfolio of effective nature-based solutions for managing SO in selected catchments . This comprehensive research approach combines fieldwork, pilot experiments, and modelling to provide a robust framework for integrating nature-based solutions into SO management. This can alleviate the pressure on treatment infrastructure and reduce dependence on grey infrastructure, building resilience and long-term sustainability. 👀اطلاعات بیشتر   #Cranfield_University #United_Kingdom #PhD

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PhD student in Molecular Biosciences 🎯پوزیشن: زیست شناسی مولکولی 💼دانشگاه: Stockholm University, Sweden🇸🇪 ⏰مهلت: 7 اکتبر 2024 🎖حوزه تحقیقاتی: This PhD student position is available in the laboratory headed by Professor Martin Jastroch.The project addresses molecular mechanisms coupled to energy metabolism, in particular related to obesity, metabolic diseaes or evolution. We use animal (mice, zebrafish, opossums) and cellular (adipocytes) models to understand the underlying mechanisms in the development of metabolic function and dysfunction, assessed with mouse metabolic phenotyping, bioenergetic and molecular analyses. 👀اطلاعات بیشتر   #Stockholm_University #Sweden #PhD 🆔 @free_academic_p0siti0ns

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PhD position: self-emerging architected materials 🎯پوزیشن: مکانیک، فیزیک، (عمران، مکانیک، هوافضا، یا زیست) مهندسی، علم مواد یا یک رشته مرتبط 💼دانشگاه: ETH Zurich, Switzerland🇨🇭 ⏰مهلت: Unspecified   🎖حوزه تحقیقاتی: The Chair of Computational Mechanics of Building Materials (CMBM) aims to understand and predict mechanical failure in materials and structures. By combining numerical modeling tools with tailored laboratory experiments and theoretical models, we create a holistic perspective on mechanical failure, bridging the gap between material behavior at the small scale and principles governing catastrophic failure at the system level. CMBM is a highly interdisciplinary and international research team. The topics of current research projects at CMBM include uncovering the mechanisms of earthquake nucleation and arrest, building structures with topologically interlocked materials, revealing the processes governing the structural build-up of cement in additive manufacturing, determining the nano- and micro-scale processes that control cracking of concrete due to corrosion, uncovering the fundamental laws governing granular materials, and revealing the damage and fracture mechanisms in soft materials. This position is part of a project funded by the Swiss National Science Foundation, which will support multiple researchers, and focuses on the development of interfaces with unconventional mechanical properties. Meta-materials, which are materials with properties resulting from their meso-structure, are commonly manufacture via 3D-printing processes. While this provides great flexibility in the design of the meta-material, it is also a relatively slow process. To overcome this limitation, this project explores an alternative approach inspired by nature, namely emerging microstructures, and aims to link the properties of the building blocks with interfacial properties of the self-assembled material structure. Through this approach, this project establishes the necessary understanding to design manufacturing processes that lead directly to the desired tailored (and potentially unconventional) material properties (e.g. fracture toughness and stickiness). 👀اطلاعات بیشتر   #ETH_Zurich #Switzerland #PhD

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