Your search keyword '"de Vos, B. (author)"' showing total 8 results

1. Segmented RF shield design to minimize eddy currents for low-field Halbach MRI systems

Author

de Vos, B. (author), Remis, R.F. (author), Webb, A. (author), de Vos, B. (author), Remis, R.F. (author), and Webb, A. (author)

Abstract

MRI systems have a thin conducting layer placed between the gradient and RF coils, this acts as a shield at the RF-frequency, minimizing noise coupled into the experiment, and decreasing the coupling between the RF and gradient coils. Ideally, this layer should be transparent to the gradient fields to reduce eddy currents. In this work the design of such a shield, specifically for low-field point-of-care Halbach based MRI devices, is discussed. A segmented double layer shield is designed and constructed based on eddy current simulations. Subsequently, the performance of the improved shield is compared to a reference shield by measuring the eddy current decay times as well as using noise measurements. A maximum reduction factor of 2.9 in the eddy current decay time is observed. The segmented shield couples in an equivalent amount of noise when compared to the unsegmented reference shield. Turbo spin echo images of a phantom and the brain of a healthy volunteer show improvements in terms of blurring using the segmented shield., Tera-Hertz Sensing

Published

2024

2. Characterization of concomitant gradient fields and their effects on image distortions using a low-field point-of-care Halbach-based MRI system

Author

de Vos, B. (author), Remis, R.F. (author), Webb, A. (author), de Vos, B. (author), Remis, R.F. (author), and Webb, A. (author)

Abstract

Purpose: Concomitant gradient fields have been extensively studied at clinical field strengths. However, their effects have not yet been modeled for low-field point-of-care (POC) systems. The purpose of this work is to characterize the effects associated with concomitant fields for POC Halbach-array-based systems. Methods: The concomitant fields associated with a cylindrical gradient coils designed for a transverse (Formula presented.) and a signal model including the tilting effect of the effective magnetic field are derived. The formalism is used to simulate and predict concomitant field related distortions. A 46-mT Halbach-array-based system with a maximum gradient strength of 15 mT/m is used to verify the model using two-dimensional spin-echo sequences. Results: The simulations and experimental results are in good agreement with the derived equations. The fundamental characteristics of the concomitant field equations are different to conventional MRI systems: Image distortions occur primarily in the transverse directions and a cross-term only exists when applying transverse gradient pulses simultaneously. Conclusion: The level of image warping in the frequency encoding direction is insignificant for the POC systems discussed here. However, when trying to achieve short echo-times by using strong phase encoding and readout-dephasing gradients, the combination can result in image warping and blurring which should be accounted for in image interpretation., Tera-Hertz Sensing

Published

2023

3. An integrated target field framework for point-of-care halbach array low-field MRI system design

Author

de Vos, B. (author), Remis, R.F. (author), Webb, A. (author), de Vos, B. (author), Remis, R.F. (author), and Webb, A. (author)

Abstract

Objective: Low-cost low-field point-of-care MRI systems are used in many different applications. System design has correspondingly different requirements in terms of imaging field-of-view, spatial resolution and magnetic field strength. In this work an iterative framework has been created to design a cylindrical Halbach-based magnet along with integrated gradient and RF coils that most efficiently fulfil a set of user-specified imaging requirements. Methods: For efficient integration, target field methods are used for each of the main hardware components. These have not been used previously in magnet design, and a new mathematical model was derived accordingly. These methods result in a framework which can design an entire low-field MRI system within minutes using standard computing hardware. Results: Two distinct point-of-care systems are designed using the described framework, one for neuroimaging and the other for extremity imaging. Input parameters are taken from literature and the resulting systems are discussed in detail. Discussion: The framework allows the designer to optimize the different hardware components with respect to the desired imaging parameters taking into account the interdependencies between these components and thus give insight into the influence of the design choices., Signal Processing Systems

Published

2023

4. Design, Characterisation and Performance of an Improved Portable and Sustainable Low-Field MRI System

Author

de Vos, B. (author), Parsa, Javad (author), Abdulrazaq, Zaynab (author), Teeuwisse, Wouter M. (author), Van Speybroeck, Camille D.E. (author), de Gans, D.H. (author), Remis, R.F. (author), O’Reilly, Tom (author), Webb, A. (author), de Vos, B. (author), Parsa, Javad (author), Abdulrazaq, Zaynab (author), Teeuwisse, Wouter M. (author), Van Speybroeck, Camille D.E. (author), de Gans, D.H. (author), Remis, R.F. (author), O’Reilly, Tom (author), and Webb, A. (author)

Abstract

Low-field permanent magnet-based MRI systems are finding increasing use in portable, sustainable and point-of-care applications. In order to maximize performance while minimizing cost many components of such a system should ideally be designed specifically for low frequency operation. In this paper we describe recent developments in constructing and characterising a low-field portable MRI system for in vivo imaging at 50 mT. These developments include the design of i) high-linearity gradient coils using a modified volume-based target field approach, ii) phased-array receive coils, and iii) a battery-operated three-axis gradient amplifier for improved portability and sustainability. In addition, we report performance characterisation of the RF amplifier, the gradient amplifier, eddy currents from the gradient coils, and describe a quality control protocol for the overall system., EMSD EEMCS Project engineers, Circuits and Systems

Published

2021

5. Design, Characterisation and Performance of an Improved Portable and Sustainable Low-Field MRI System

Author

de Vos, B. (author), Parsa, Javad (author), Abdulrazaq, Zaynab (author), Teeuwisse, Wouter M. (author), Van Speybroeck, Camille D.E. (author), de Gans, D.H. (author), Remis, R.F. (author), O’Reilly, Tom (author), Webb, A. (author), de Vos, B. (author), Parsa, Javad (author), Abdulrazaq, Zaynab (author), Teeuwisse, Wouter M. (author), Van Speybroeck, Camille D.E. (author), de Gans, D.H. (author), Remis, R.F. (author), O’Reilly, Tom (author), and Webb, A. (author)

Abstract

Low-field permanent magnet-based MRI systems are finding increasing use in portable, sustainable and point-of-care applications. In order to maximize performance while minimizing cost many components of such a system should ideally be designed specifically for low frequency operation. In this paper we describe recent developments in constructing and characterising a low-field portable MRI system for in vivo imaging at 50 mT. These developments include the design of i) high-linearity gradient coils using a modified volume-based target field approach, ii) phased-array receive coils, and iii) a battery-operated three-axis gradient amplifier for improved portability and sustainability. In addition, we report performance characterisation of the RF amplifier, the gradient amplifier, eddy currents from the gradient coils, and describe a quality control protocol for the overall system., EMSD EEMCS Project engineers, Signal Processing Systems

Published

2021

6. EpiSpin: An Eclipse Plug-in for Promela and Spin

Author

De Vos, B. (author) and De Vos, B. (author)

Abstract

Software Engineering Research Group, Software Technology, Electrical Engineering, Mathematics and Computer Science

Published

2011

7. EpiSpin: An Eclipse Plug-in for Promela and Spin

Author

De Vos, B. (author) and De Vos, B. (author)

Abstract

Software Engineering Research Group, Software Technology, Electrical Engineering, Mathematics and Computer Science

Published

2011

8. Eigendomsgegevens voor de cultuurtechnische inventarisatie

Author

De Vos, B. (author) and De Vos, B. (author)

Abstract

De cultuurtechnische inventarisatie is een vastgoedsysteem in een landinrichtingsgebied. Het systeem wordt beheerd door het Instituut voor Cultuurtechniek en Waterhuishouding in Wageningen. Hier worden gegevens van digitale topografische kaarten(Digtop), distriktsbureauhouders(DBH) en landbouwtellingen bewaard. De cultuurtechnische inventarisatie wordt gebruikt in de voorbereidingsfase van een landinrichtingsprojekt. In de uitvoeringsfase heeft het Kadaster de zorg voor het planmatig wijzigen van de rechtstoestand van de grond. Hiervoor dient een ruilverkavelingsadministratie opgezet te worden (ARAK). Er worden rechthebbenden geregistreerd, die hun wensen kenbaar maken aan de landinrichtingscommissie. De uiteindelijke toedeling van de percelen geschied op basis van een bijgewerkte kadastrale kaart. Voor het Kadaster is het interessant te bekijken of gegevens van de geautomatiseerde kadastrale registratie (AKR) en van het landmeetkundig en kartografisch informatiesysteem (LKI) al gebruikt kunnen worden in de voorbereidingsfase van de landinrichting., Civil Engineering and Geosciences

Published

1988