JOHAN WINGES

Doktor at Department of Signals and Systems, Signal Processing

Johan Winges is a Doctor in the Signal processing research group, specializing on analyzing the possibilities of using near-field microwaves for non-intrusive measurements for various applications. His research is in the field of computational electromagnetics, such as creating higher-order finite element codes for simulating electromagnetic field propagation. The research aim is to find robust methods for solving inverse problems found in microwave scattering applications. Johan is also a teaching assistant for an Electromagnetic Field Theory course.

Source: chalmers.se

Projects

2014–2017

Safe inductive energy transfer for electric vehicles

Tomas McKelvey Department of Signals and Systems, Signal Processing
Thomas Rylander Department of Signals and Systems, Signal Processing
JOHAN WINGES Department of Signals and Systems, Signal Processing
Swedish Energy Agency

There might be more projects where JOHAN WINGES participates, but you have to be logged in as a Chalmers employee to see them.

Publications

2016

Microwave technology for detecting traumatic intracranial bleedings: tests on phantom of subdural hematoma and numerical simulations

Stefan Candefjord, Johan Winges, A.A. Malik et al
Medical and Biological Engineering and Computing, p. 1-12
Scientific journal article - peer reviewed
2016

Higher-order brick-tetrahedron hybrid method for Maxwell's equations in time domain

Johan Winges, Thomas Rylander,
Journal of Computational Physics. Vol. 321, p. 698-707
Scientific journal article - peer reviewed
2016

Estimating Scatterer Positions using Sparse Approximation

Johan Winges, Thomas Rylander,
Swedish Microwave Days, March 15-16, Linköping. Vol. 2016, p. 120
Conference paper - non peer reviewed
2015

Higher-order hybrid method for curl-conforming elements on tetrahedrons and bricks

Johan Winges, Thomas Rylander,
Electromagnetics in Advanced Applications (ICEAA), 2015 International Conference on (7-11 Sept. 2015), p. 1016 - 1019
Conference paper - peer reviewed
2014

Global monitoring of fluidized-bed processes by means of microwave cavity resonances

Johan Nohlert, Livia Cerullo, Johan Winges et al
Measurement: Journal of the International Measurement Confederation. Vol. 55, p. 520-535
Scientific journal article - peer reviewed
2014

A Microwave Measurement System for Measurement of Dielectric Properties

Johan Winges, Livia Cerullo, Thomas Rylander et al
AntennEMB, 11-12 March, Göteborg
Conference poster
2014

Higher-Order Finite Element Solver for Maxwell’s Equations

Johan Winges, Thomas Rylander,
AntennEMB, 11-12 March, Göteborg
Conference poster
2013

Microwave technology for localization of traumatic intracranial bleedings—a numerical simulation study

Stefan Candefjord, Johan Winges, Yinan Yu et al
35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBC 2013; Osaka; Japan; 3 July 2013 through 7 July 2013, p. 1948-1951
Conference paper - peer reviewed
2013

Microwave Measurements for Metal Vessels

Livia Cerullo, Johan Nohlert, Johan Winges et al
7th European Conference on Antennas and Propagation, EuCAP 2013, Gothenburg, Sweden, 8-12 April 2013, p. 3869 - 3873
Conference paper - peer reviewed
2012

Inverse scattering for a closed cavity equipped with microwave antenna sensors

Livia Cerullo, Johan Winges, Thomas Rylander et al
AntennEMB, 5-8 March, Stockholm
Conference poster
2012

Model reduction for inverse scattering problems

Yinan Yu, Johan Winges, Tomas McKelvey et al
AntennEMB, 5-8 March, Stockholm
Conference poster
2011

Transport effects at control rod tips

Johan Winges,
Master's Thesis
2009

FEM-simulering av en anisotrop diffusionsmodell för fukttransport i trä

Karl Gustafsson, Christoffer Strömberg, Johan Winges et al
Bachelor Thesis (Kandidatexamen)