EEG measures electrical activity in the brain using small, metal discs (electrodes) attached to the scalp. Brain cells communicate via electrical impulses and are active all the time, even during sleep. The electrodes analyze the electrical impulses in your brain and send signals to a computer that records the results. The electrical impulses in an EEG recording look like wavy lines with peaks and valleys.
Functional near-infrared spectroscopy (fNIRS) is an optical brain monitoring technique which uses near-infrared spectroscopy for the purpose of functional neuroimaging. Using fNIRS, brain activity is measured by using near-infrared light to estimate cortical hemodynamic activity which occurs in response to neural activity. fNIRS estimates the concentration of hemoglobin from changes in absorption of near infrared light. As light moves or propagates through the head, it is alternately scattered or absorbed by the tissue through which it travels.
Eye tracking glasses feature cameras and sensors that track the wearer's eye movements and record the point of gaze on the environment or specific stimuli, such as screens, objects, or other people. The data captured by these glasses can provide valuable insights into visual attention patterns, user experiences, and decision-making processes.
TOBII PRO X3-120 is a type of eye tracking system that can track a person gaze behavior while they are looking at a computer screen or other digital display. This is used in usability studies, and human-computer interaction research to understand how individuals interact with digital content and interfaces.
Full body motion capture can record movements of the entire body, capturing the positions and orientations of various body segments and joints in three-dimensional space. This technology uses specialized sensors or markers placed on the body to track its movements accurately.
FULL BODY MOTION
FULL BODY MOTION
The Artec Spider can capture small and intricate objects with exceptional detail and accuracy. Spider uses structured light scanning technology, which involves projecting patterns of light onto the object's surface and capturing the reflections with high-definition cameras. By analyzing these reflections, the scanner can create a 3D model of the object with precise measurements and intricate surface details.
Artec Spider 3-D Scan System
The Artec EVA is designed to capture high-resolution 3D models of various objects, artifacts, and even human subjects. EVA utilizes structured light scanning technology, where patterns of light are projected onto the object's surface, and the reflections are captured by two high-definition cameras. By analyzing these reflections, the scanner creates a 3D model of the object with exceptional precision and detail.
Artec EVA 3-D Scan System
1. Registration process (One Time): New Registration for external users.User Verification: Upload photo of Front side and back side of valid Identity card issued by the organization (only .jpeg format, file Size less than 1 Mb, height less than 1000 pixels, width less than 800 pixels). Undertaking: Download the undertaking template ( Download Link ). Duly filled, signed and stamped form should be uploaded in .pdf format. Confirmation: An email will be sent to the user after verification of the documents.
2.Before planning to avail the Instrument facility of CRF IIT Delhi: user must visit https://crf.iitd.ac.in -> Facility -> select the desired facility from left side navigation list. Read carefully all the relevant information such as required sample type, testing charges and instrument location. Be prepared with details of the samples.
3.Log in and Click on Booking Appointment Tab: All the information relevant to testing must be filled in instrument booking form. In case user does not provide the required information the booking is liable to be rejected. User can upload the relevant existing data of their samples that might help in the measurements.
4.Sample submission & Payment Process: Once the application is submitted, the in-charge will verify the details and approve the request.External users must wait for the approval before making the payment and submitting the samples to concerned lab. After approval the payment should be made by the user. The payment transaction details need to be submitted online before appointment date time.
5.CRF Users can pay amount online using following details:
Beneficiary/Customer's Name: IRD ACCOUNT IITD
Bank Account Number: 10773572600
Bank Name: State Bank of India Branch Name: IIT Branch
Branch Code: 01077
NEFT IFSC CODE / RTGS: SBIN0001077
please write "CRF _Instrument Name" in the Remarks section while paying. Save the receipt file and upload in the crfbooking system online against your application.Payment can also made in form of demand draft in favour of " IRD ACCOUNT IITD " Payable at New Delhi.6.IIT Delhi
GST Number : 07AAATI0393L1ZI
PAN Number : AAATI0393L
1 Registration process (One Time): New Registration for internal users.
Fill in all the details in Personal Information, Supervisor Information and User Login Credentionals.
Once submitted, an email to supervisor is sent for activation of account. Once activated by supervisor, you can do the instrument bookings.
2 Before planning to avail the Instrument facility of CRF IIT Delhi: user must visit https://crf.iitd.ac.in > Facilities > select the desired facility from left side navigation list. Read ca 
refully all the relevant information such as required sample type, testing charges and instrument location. Be prepared with details of the samples.
3. Log in on CRF Booking System and Click on Booking Appointment Tab: All the information relevant to testing must be filled in instrument booking form. In case user does not provide the required information the booking is liable to be rejected. User can upload the relevant existing data of their samples that might help in the measurements.
4 Sample submission & Payment Process: Once the application is submitted, the in-charge will verify the details and approve the request.
