The magnetic navigation system (MNS) with gradient and uniform saddle coils is an effective system for manipulating various medical magnetic robots because of its compact structure and the uniformity of its magnetic field and field gradient. Since each coil of the MNS was geometrically optimized to generate strong uniform magnetic field or field gradient, it is considered that no special optimization is required for the MNS. However, its electrical characteristics can be still optimized to utilize the maximum power of a power supply unit with improved operating time and a stronger time-varying magnetic field. Furthermore, the conventional arrangement of the coils limits the maximum three-dimensional (3D) rotating magnetic field. In this pap...
A new approach has been presented in the paper to optimize the longitudinal gradient coil performanc...
International audienceWe propose an optimization method to design an elongated three-axes magnetic f...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...
A magnetic navigation system (MNS) for the wireless manipulation of micro-robots in human blood vess...
Automation of flexible surgical instruments requires the development of robotic technologies capable...
Automation of flexible surgical instruments requires development of robotic technologies capable of ...
Automation of flexible surgical instruments requires the development of robotic technologies capable...
An important requirement for a gradient coil is that the uniformity of the generated magnetic field ...
The human brain can be stimulated noninvasively by strong pulses of magnetic field that induce a flo...
A new method is described for the design of gradient coils for magnetic resonance imaging systems. T...
Miniaturizing magnetic surgical tools for minimally invasive surgical procedures requires stronger m...
Gradient coils are essential components of magnetic resonance imaging (MRI) systems. In this paper, ...
Purpose – The paper aims at optimizing magnetic thrusts in the framework of the design of high-dynam...
Significant high magnetic gradient field strength is essential to obtaining high-resolution images i...
Dans ces travaux, nous présentons des méthodes d'optimisation théoriques et numériques pour la conce...
A new approach has been presented in the paper to optimize the longitudinal gradient coil performanc...
International audienceWe propose an optimization method to design an elongated three-axes magnetic f...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...
A magnetic navigation system (MNS) for the wireless manipulation of micro-robots in human blood vess...
Automation of flexible surgical instruments requires the development of robotic technologies capable...
Automation of flexible surgical instruments requires development of robotic technologies capable of ...
Automation of flexible surgical instruments requires the development of robotic technologies capable...
An important requirement for a gradient coil is that the uniformity of the generated magnetic field ...
The human brain can be stimulated noninvasively by strong pulses of magnetic field that induce a flo...
A new method is described for the design of gradient coils for magnetic resonance imaging systems. T...
Miniaturizing magnetic surgical tools for minimally invasive surgical procedures requires stronger m...
Gradient coils are essential components of magnetic resonance imaging (MRI) systems. In this paper, ...
Purpose – The paper aims at optimizing magnetic thrusts in the framework of the design of high-dynam...
Significant high magnetic gradient field strength is essential to obtaining high-resolution images i...
Dans ces travaux, nous présentons des méthodes d'optimisation théoriques et numériques pour la conce...
A new approach has been presented in the paper to optimize the longitudinal gradient coil performanc...
International audienceWe propose an optimization method to design an elongated three-axes magnetic f...
When applied to the topology optimization of electromagnetic devices, gradient-based algorithms suff...