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| ''Authors: Yash Shashanka Vakilna, Wayne Mead, Anand Joshi, Chinmay Chinara, Takfarinas Medani, Raymundo Cassani'' | ''Authors: Yash Shashanka Vakilna, Wayne Mead, Anand Joshi, Chinmay Chinara, Raymundo Cassani, Takfarinas Medani, John Mosher and Richard Leahy'' |
Digitize EEG sensor locations and head shape using 3D Scanners (UNDER CONSTRUCTION)
Authors: Yash Shashanka Vakilna, Wayne Mead, Anand Joshi, Chinmay Chinara, Raymundo Cassani, Takfarinas Medani, John Mosher and Richard Leahy
Contents
Background
EEG allows the monitoring and recording of electrical brain activity from multiple electrodes placed on the scalp. EEG-based cortical current density mapping requires accurate knowledge of the locations of the electrodes on the scalp. The number and placement of electrodes vary from a few to high-density models with hundreds of electrodes. Researchers and clinicians have developed some solutions for precise electrode localization. The most common approach uses an electromagnetic digitizer (e.g. Polhemus). However, these methods are typically not easy to use, require skilled technicians, and the procedures are time-consuming and subject to errors.
This study presents Revopoint Range 2, an affordable and advanced 3D scanner that uses structured light approach for mapping the scalp surface and automatically identifying each electrode's 3D location and label.
The Hardware
Revopoint hardware package comes with the 3D Scanner with tripod and a USB to USB-C cable.
<TODO: more about the hardware>
System requirements
- Windows: Windows 10/11 (64-bit)
- RAM: 8 GB or better
- Processor: Intel Core i5 10th Generation or better
- Mac OS X: 10.7+
Prepare the EEG cap
- The EEG cap can be made of shiny materials and these can lead to bad scanning. To reduce the effect of shine make sure to spray it with any commercially available dry shampoo.
Prepare the subject
- Make sure the subject has no glasses on. Since the scanning involves use of flashing white light, the reflections from the glasses could lead to bad scanning.
- Scanning needs to be done with just the user wearing the cap without any electrodes.
- While the scanning is on, make sure the subject sits as steady as possible.
Revo Scan software
Revopoint uses the Revo Scan software to do the scanning of a subject wearing EEG cap and generate a 3D mesh. This mesh can then be imported into Brainstorm to automatically detect and label the electrodes in it.
Installation
Download the software from their webpage based on your Operating System (OS).
Install it by keeping the defaults. After it has finished installing click on Complete.
![[ATTACH]](/moin_static198/brainstorm1/img/attach.png "[ATTACH]")
![[ATTACH]](/brainstorm/Tutorials/TutDigitize3dScanner?action=AttachFile&do=upload_form&ticket=0067eec18d.6fe23a8d3497ee84d74dca3c6a19cecf19447312&target=revoscan2.png "[ATTACH]"){kind=small}
Start new project
Connect the 3D scanner to your PC and launch the RevoScan software. It will take few seconds to initialize and show Scanner Connected as under.
- If you are connecting it for the first time, it might ask for calibration of the device which is a very essential step. Calibrating a Revopoint 3D scanner resets its internal parameters to ensure accurate scanning data and alignment. Follow the onscreen steps and prompts to complete the calibration.
Click on New Project and give it a File Name and Location. Click New. Make sure to start a new project per subject.
This should now take you to the scanning window.
Pre-scanning setup (Scan Mode)
Depth Camera exposure (top left section): Use the plus/minus buttons behind the scanner to increase/decrease the exposure. Blue/Red artefacts in this window indicate under/over exposed camera. Use the buttons to adjust the exposure so that there are minimal/no artefacts. For e.g. in the scan below, the exposure of 1 was gave underexposed artefacts and increasing it to 2 gave good results. This exposure depends largely on the environment your scanning is done in and can vary from case to case.
Scan Settings (right section):
- Accuracy: High Accuracy
- Tracking Mode: Feature Tracking
- Object Type: Body
- Color Scanning: On
- Base Removal: Default (90%)
Scanning Distance: ~ 400 mm to 900 mm
Get a good scanning distance: Pointing the camera to the subject, move close and away from them. You can see the range meter on the right just to the left of the Scan Settings going from Too Near to Too Far. You want to be in the Excellent range to get the best results. Note/mark this distance.
Scanning
From the marked position above, click on the Play button on the back of the Revopoint to start the scanning. Now move slowly in either direction maintaining that marked distance along with eyeballing that it is in Excellent range. The green color on the scanning mesh being generated indicate that the scan is going correctly. If otherwise, then pause the scanning at that instant by pressing the Play button again. There are 2 things that can be done from here:
If you want to resume over the same scan, pressing Play again will resume the scan and automatically start aligning to the already generated scan. This is not recommended as the result might contain a lot of over scanning artefacts.
The other option is to click on Complete and start a new scan and then later you can choose to merge multiple scans together. This is recommended as this reduces the creation of artefacts.
Processing (Basic)
Processing (Advanced)
Saving and exporting
Digitize using Revopoint GUI in Brainstorm
<TODO>
Automated process
<TODO>