Nettsider med emneord «Python»
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Python is a widely-used programming language for scientific data analysis, visualisation, and general programming. This article details how to use Python at ITA, how to install additional packages, and where to get more information.
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At the nanoelectronics group we have recently produced an integrated CMOS chip with a micro-electrode array (MEA) on it's surface for the purpose of measuring bio-impedance of biological cell cultures. The principle of measuring bio-impedance is to measure detailed electrical properties of biological samples. The presence of certain molecules has an influence on these electrical properties and one can thus for instance indirectly detect blood glucose or other substances. Even more suited are structural and physiological changes in the cell cultures. It's for example possible to distinguish a healthy cell culture from one that is straining, or to simply monitor the growth of a cell culture.
![](https://www.mn.uio.no/fysikk/studier/master/masteroppgaver/Electronics/Microelectronics%2520and%2520sensor%2520technology/pictures/iscas_chippaper.bmp?alt=listing)
At the nanoelectronics group we have recently produced an integrated CMOS chip with a micro-electrode array (MEA) on it's surface for the purpose of measuring bio-impedance of biological cell cultures. The principle of measuring bio-impedance is to measure detailed electrical properties of biological samples. The presence of certain molecules has an influence on these electrical properties and one can thus for instance indirectly detect blood glucose or other substances. Even more suited are structural and physiological changes in the cell cultures. It's for example possible to distinguish a healthy cell culture from one that is straining, or to simply monitor the growth of a cell culture.
![Map of Euro-Mediterranean water use regions in LISFLOOD.](https://www.mn.uio.no/geo/english/research/groups/latice/models/lisflood/lisflood_wur_crop.jpg?alt=listing)
LISFLOOD is a distributed hydrologic and water resources model that has been developed by the Joint Research Centre (JRC) of the European Commission. It is used by the Copernicus Emergency Management Service for operational flood forecasting and drought monitoring. LISFLOOD has also been applied for integrated water resources assessments.