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mobility required: no Website for additional job details https://www.tesaf.unipd.it/ Work Location(s) Number of offers available1Company/InstituteUniversità degli Studi di PadovaCountryItalyGeofield Contact
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uploaded using the dedicated electronic form. helpdesk: petra.koudelova@fsv.cvut.cz Magnetic sensors and actuators Description: Example of project is the development of novel position sensor or actuator
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Eberhard Karls University Tübingen | Bingen am Rhein, Rheinland Pfalz | Germany | about 21 hours ago
-ON-BRAIN (https://cordis.europa.eu/project/id/101227124 ) Project Reference: 101227124 Application deadline: 15/05/2026 Position Overview One PhD position is available in the µOrganoLab at the Institute
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of these reusable packaging using IoT sensors and deep learning techniques embedded in the sensors. During the preliminary work, neural network models were developed to perform simple tasks using accelerometer data
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magnetometers. We work with a variety of international partners, including industrial leaders in biomagnetic instrumentation, in vapor cell miniaturization, and in laser development for atomic sensors. We also
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. Description: An array of emerging quantum instruments uses laser-cooled atoms as precision sensors. The potential impact of these technologies, such as atom interferometer gravimeters and Rydberg-atom RF
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biomarkers and their integration with nanoplasmonic sensors to develop next-generation, non-invasive platforms for disease detection and longitudinal monitoring. The Role Led by Prof. Dan Lambert and a
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multidisciplinary team to lead a field-based study characterizing volatile organic compound (VOC) exposure across diverse real-world indoor environments. This role offers the opportunity to conduct mobile sensor
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programme including 16 PhD students trained in several European countries (https://cordis.europa.eu/project/id/101227338 ). You will be appointed for three years, during which time you will study for a fee
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mobility and vulnerability to falls. The project will combine physiological sensory biomarkers with postural control, gait analysis and real-life mobility measurements obtained using wearable sensors and