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Radio Frequency Numerical Simulation Techniques Based on Multirate Runge-Kutta Schemes

Electronic circuit simulation, especially for radio frequency (RF) and microwave telecommunications, is being challenged by increasingly complex applications presenting signals of very different nature and evolving on widely separated time scales. In this paper, we will briefly review some recently...

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Published in:Journal of Applied Mathematics 2012-01, Vol.2012 (2012), p.77-97-405
Main Authors: Oliveira, Jorge F., Pedro, José C.
Format: Article
Language:English
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cited_by cdi_FETCH-LOGICAL-a521t-dc905d58ef970ae6c05bbb767039eaabb6105eb922a23e71c66f4d52e8d0e5dc3
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container_title Journal of Applied Mathematics
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creator Oliveira, Jorge F.
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description Electronic circuit simulation, especially for radio frequency (RF) and microwave telecommunications, is being challenged by increasingly complex applications presenting signals of very different nature and evolving on widely separated time scales. In this paper, we will briefly review some recently developed ways to address these challenges, by describing some advanced numerical simulation techniques based on multirate Runge-Kutta schemes, which operate in the one-dimensional time and also within multidimensional frameworks.
doi_str_mv 10.1155/2012/528045
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title Radio Frequency Numerical Simulation Techniques Based on Multirate Runge-Kutta Schemes
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