Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera

Jenny Green; Raj Kundu; Angel V. Peterchev; J. Matias Di Martino

doi:10.1109/URUCON63440.2024.10850257

Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera

Jenny Green
, Raj Kundu
, Angel V. Peterchev
, J. Matias Di Martino

Department of Computer Science

Duke University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Computer-aided neuronavigation systems are a key component of several modern medical procedures, including transcranial magnetic stimulation (TMS). Existing offerings require expensive, often proprietary hardware and software, limiting the widespread adoption of neuronavigation. We propose a novel setup which employs a single consumer-grade depth camera paired with a custom algorithm to track retroreflective infrared (IR) markers. We validated the proposed framework by comparing it to the NDI Polaris Vicra camera, a common component in many commercially available neuronavigation systems. Our empirical results indicate that the proposed tracking method operated with < 1% displacement error, suggesting that consumer-grade cameras are a feasible alternative to the expensive, industry-standard IR cameras currently used for neuronavigation. The code is available at github.com/rajkundu/ir-tracking-urucon-2024.

Original language	American English
Title of host publication	Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1-5
Number of pages	5
ISBN (Electronic)	9798350355383
DOIs	https://doi.org/10.1109/URUCON63440.2024.10850257
State	Published - 2024
Event	2024 IEEE URUCON, URUCON 2024 - Montevideo, Uruguay Duration: 18 Nov 2024 → 20 Nov 2024

Publication series

Name	2024 IEEE URUCON, URUCON 2024

Conference

Conference	2024 IEEE URUCON, URUCON 2024
Country/Territory	Uruguay
City	Montevideo
Period	18/11/24 → 20/11/24

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Access to Document

10.1109/URUCON63440.2024.10850257

Cite this

Green, J., Kundu, R., Peterchev, A. V., & Di Martino, J. M. (2024). Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. In Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera (pp. 1-5). (2024 IEEE URUCON, URUCON 2024). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/URUCON63440.2024.10850257

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title = "Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera",

abstract = "Computer-aided neuronavigation systems are a key component of several modern medical procedures, including transcranial magnetic stimulation (TMS). Existing offerings require expensive, often proprietary hardware and software, limiting the widespread adoption of neuronavigation. We propose a novel setup which employs a single consumer-grade depth camera paired with a custom algorithm to track retroreflective infrared (IR) markers. We validated the proposed framework by comparing it to the NDI Polaris Vicra camera, a common component in many commercially available neuronavigation systems. Our empirical results indicate that the proposed tracking method operated with < 1\% displacement error, suggesting that consumer-grade cameras are a feasible alternative to the expensive, industry-standard IR cameras currently used for neuronavigation. The code is available at github.com/rajkundu/ir-tracking-urucon-2024.",

author = "Jenny Green and Raj Kundu and Peterchev, \{Angel V.\} and \{Di Martino\}, \{J. Matias\}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 2024 IEEE URUCON, URUCON 2024 ; Conference date: 18-11-2024 Through 20-11-2024",

year = "2024",

doi = "10.1109/URUCON63440.2024.10850257",

language = "American English",

series = "2024 IEEE URUCON, URUCON 2024",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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booktitle = "Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera",

address = "United States",

}

Green, J, Kundu, R, Peterchev, AV & Di Martino, JM 2024, Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. in Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. 2024 IEEE URUCON, URUCON 2024, Institute of Electrical and Electronics Engineers Inc., pp. 1-5, 2024 IEEE URUCON, URUCON 2024, Montevideo, Uruguay, 18/11/24. https://doi.org/10.1109/URUCON63440.2024.10850257

Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. / Green, Jenny; Kundu, Raj; Peterchev, Angel V. et al.
Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. Institute of Electrical and Electronics Engineers Inc., 2024. p. 1-5 (2024 IEEE URUCON, URUCON 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Toward Accessible Neuronavigation

T2 - 2024 IEEE URUCON, URUCON 2024

AU - Green, Jenny

AU - Kundu, Raj

AU - Peterchev, Angel V.

AU - Di Martino, J. Matias

PY - 2024

Y1 - 2024

N2 - Computer-aided neuronavigation systems are a key component of several modern medical procedures, including transcranial magnetic stimulation (TMS). Existing offerings require expensive, often proprietary hardware and software, limiting the widespread adoption of neuronavigation. We propose a novel setup which employs a single consumer-grade depth camera paired with a custom algorithm to track retroreflective infrared (IR) markers. We validated the proposed framework by comparing it to the NDI Polaris Vicra camera, a common component in many commercially available neuronavigation systems. Our empirical results indicate that the proposed tracking method operated with < 1% displacement error, suggesting that consumer-grade cameras are a feasible alternative to the expensive, industry-standard IR cameras currently used for neuronavigation. The code is available at github.com/rajkundu/ir-tracking-urucon-2024.

AB - Computer-aided neuronavigation systems are a key component of several modern medical procedures, including transcranial magnetic stimulation (TMS). Existing offerings require expensive, often proprietary hardware and software, limiting the widespread adoption of neuronavigation. We propose a novel setup which employs a single consumer-grade depth camera paired with a custom algorithm to track retroreflective infrared (IR) markers. We validated the proposed framework by comparing it to the NDI Polaris Vicra camera, a common component in many commercially available neuronavigation systems. Our empirical results indicate that the proposed tracking method operated with < 1% displacement error, suggesting that consumer-grade cameras are a feasible alternative to the expensive, industry-standard IR cameras currently used for neuronavigation. The code is available at github.com/rajkundu/ir-tracking-urucon-2024.

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U2 - 10.1109/URUCON63440.2024.10850257

DO - 10.1109/URUCON63440.2024.10850257

M3 - Conference contribution

T3 - 2024 IEEE URUCON, URUCON 2024

SP - 1

EP - 5

BT - Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera

PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 18 November 2024 through 20 November 2024

ER -

Green J, Kundu R, Peterchev AV, Di Martino JM. Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. In Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera. Institute of Electrical and Electronics Engineers Inc. 2024. p. 1-5. (2024 IEEE URUCON, URUCON 2024). doi: 10.1109/URUCON63440.2024.10850257

Toward Accessible Neuronavigation: Tracking Retroreflective Markers with a Consumer-Grade Depth Camera

Abstract

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UN SDGs

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