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Field
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oxide materials, with the aim of accelerating the discovery of materials for smart windows, smart sensors, low power lighting and electronic systems. In this context, CALPHAD method appears to be a
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Early integration of sensors for efficient SHM of aerostructure during their service. Using a mix of reactive machines and limited memory this project develops new fuzzy logic based artificial
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. The successful applicants will develop automated techniques to analyse multi-sensor data (video, acceleration, audio, etc) of human social behavior. Successful candidates will work in a team of 6 on
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Sensor Network with relevant research skills and experience to work under the supervision of Dr Edmond Nurellari, Associate Professor/ Programme Leader in Electronic Engineering. You will primarily work
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individually adressable capacitive microsensors (Pixelated Capacitive Sensor: PCS). You will extend prior PCS chip designs with exciting new functionalities (multi-mode). The chips will be used in the Dutch
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Push the boundaries by designing a first-of-a-kind multi-mode CMOS Pixelated Capacitive Sensor chip. You will design a Next-generation mixed-signal CMOS integrated circuit (IC) consisting of a dense
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- Center for Sensors and System Integration (CSSI) Job ID #2129 Apply Now Share this job on: Job Information Positions Available 1 Closing Date 2 Dec 2024 Type Casual Location Edmonton AB Remote Option None
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Job Description To design, develop and evaluate a wearable soft robot Qualifications Possess a bachelor’s degree in related field. Soft actuator/sensor fabrication Pneumatic control setup Wearable
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Job Description To design, develop and evaluate a wearable soft robot Qualifications Possess a bachelor’s degree in related field. Soft actuator/sensor fabrication Pneumatic control setup Wearable
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Job Description The candidate will be involved in performing micro/nanofabrication, developing flexible/wearable electrochemical sensors for wound diagnosis and monitoring. The successful candidate