Localization error vs. number of coils.

Small magnetometer array.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Example of a small array of on-scalp magnetometers (red) that are fit as a group with a 32-coil l...

A Rogowski-Chattock coil for local magnetic field measurements: sources of error

Mohamed Abouelyazied Abdallh, Ahmed
Dupré, Luc

January 2010

A magnetic field can be measured on a space scale of a few millimeters by means of magnetic sensors,...

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).</p

Localization error vs. number of magnetometers.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (blue) and on-scalp (red) systems for diffe...

Localization error vs. SNR.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (solid blue) and on-scalp (solid red) syste...

Localization error vs. a priori errors.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (blue) and on-scalp (red) systems for diffe...

Localization error vs. SNR for different measurement time.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (solid) and on-scalp (dashed) systems for d...

Local localization coil arrays.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Placement of localization coils (green) in a small (here: 7-coil) array around an on-scalp magnet...

Head localization vs. sensor localization.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Left: classical head localization where a large array of sensors (blue; here: the low-T<su...

Low-Tc vs. on-scalp magnetometer positions.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Left: Magnetometer positions used for the low-Tc system (blue; based on the Ele...

Full-head localization coil arrays.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Localization coil placement in 10- (top-left), 12- (top-right), 21- (bottom-left) and 32- (bottom...

Error bounds for EEG and MEG dipole source localization *

John C. Mosher A
Michael E. Spencer A
Richard M. Leahy A
Paul S. Lewis B

January 1992

Summary General formulas are presented for computing a lower bound on localization and moment error ...

EFFECTS OF PLACEMENT ERRORS ON PERFORMANCE OF VLF METAL DETECTOR HEADS

Lawrence J. Carter
Zhuoran Tang

October 2015

Abstract- Metal-detector performance depends heavily on the sensor head. Errors in coil placement wi...

Requirements for Coregistration Accuracy in On-Scalp MEG

Zetter, Rasmus
Iivanainen, Joonas
Stenroos, Matti
Parkkonen, Lauri

November 2018

| openaire: EC/H2020/678578/EU//HRMEGRecent advances in magnetic sensing has made on-scalp magnetoen...

Localization performance.

Niclas Schult (3901402)
Thomas Reineking (753224)
Thorsten Kluss (753225)
Christoph Zetzsche (753226)

September 2015

The result show a significantly lower number of actions required to reach a criterion RMS error <...

Small magnetometer array.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Example of a small array of on-scalp magnetometers (red) that are fit as a group with a 32-coil l...

A Rogowski-Chattock coil for local magnetic field measurements: sources of error

Mohamed Abouelyazied Abdallh, Ahmed
Dupré, Luc

January 2010

A magnetic field can be measured on a space scale of a few millimeters by means of magnetic sensors,...

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).</p

Localization error vs. number of magnetometers.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (blue) and on-scalp (red) systems for diffe...

Localization error vs. SNR.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (solid blue) and on-scalp (solid red) syste...

Localization error vs. a priori errors.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (blue) and on-scalp (red) systems for diffe...

Localization error vs. SNR for different measurement time.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Mean localization error with low-Tc (solid) and on-scalp (dashed) systems for d...

Local localization coil arrays.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Placement of localization coils (green) in a small (here: 7-coil) array around an on-scalp magnet...

Head localization vs. sensor localization.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Left: classical head localization where a large array of sensors (blue; here: the low-T<su...

Low-Tc vs. on-scalp magnetometer positions.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Left: Magnetometer positions used for the low-Tc system (blue; based on the Ele...

Full-head localization coil arrays.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Localization coil placement in 10- (top-left), 12- (top-right), 21- (bottom-left) and 32- (bottom...

Error bounds for EEG and MEG dipole source localization *

John C. Mosher A
Michael E. Spencer A
Richard M. Leahy A
Paul S. Lewis B

January 1992

Summary General formulas are presented for computing a lower bound on localization and moment error ...

EFFECTS OF PLACEMENT ERRORS ON PERFORMANCE OF VLF METAL DETECTOR HEADS

Lawrence J. Carter
Zhuoran Tang

October 2015

Abstract- Metal-detector performance depends heavily on the sensor head. Errors in coil placement wi...

Requirements for Coregistration Accuracy in On-Scalp MEG

Zetter, Rasmus
Iivanainen, Joonas
Stenroos, Matti
Parkkonen, Lauri

November 2018

| openaire: EC/H2020/678578/EU//HRMEGRecent advances in magnetic sensing has made on-scalp magnetoen...

Localization performance.

Niclas Schult (3901402)
Thomas Reineking (753224)
Thorsten Kluss (753225)
Christoph Zetzsche (753226)

September 2015

The result show a significantly lower number of actions required to reach a criterion RMS error <...

Small magnetometer array.

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

Example of a small array of on-scalp magnetometers (red) that are fit as a group with a 32-coil l...

A Rogowski-Chattock coil for local magnetic field measurements: sources of error

Mohamed Abouelyazied Abdallh, Ahmed
Dupré, Luc

January 2010

A magnetic field can be measured on a space scale of a few millimeters by means of magnetic sensors,...

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).

Christoph Pfeiffer (4268647)
Lau M. Andersen (4268644)
Daniel Lundqvist (4268635)
Matti Hämäläinen (320267)
Justin F. Schneiderman (4268638)
Robert Oostenveld (234135)

May 2018

A localization coil used in the Elekta Neuromag TRIUX system (ruler scale is in cm).</p

Localization error vs. number of coils.

Abstract

Extracted data

Localization error vs. number of coils.

Abstract

Extracted data

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