ARTEMIS: A Collaborative Mixed-Reality System for Immersive Surgical Telementoring

Gasques, Danilo; Johnson, Janet; Sharkey, Thomas J.; Feng, Yuanyuan; Ru, Wang; Xu, Zhuoqun Robin; Zavala, Enrique; Zhang, Yifei; Xie, Wanze; Zhang, Xinming; Davis, Konrad; Yip, Michael C.; Weibel, Nadir

doi:10.1145/3411764.3445576

Cited by 83 publications

(44 citation statements)

References 35 publications

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“…Google Glass launched in 2013 and demonstrated a viable use of OST HMDs through various situated applications in information visualization and augmented reality using images and instructions. Since then, commercial smartglasses from Microsoft [13][14][15][16][17][18][19][20][21], Google [22,23], HTC [7,8], Vuzix [24], Epson [25,26] and Brother [27] have integrated a wearable display with a computationally sufficient computing unit that provides connectivity and a multi-modal user interface. For example, the latest OST HMDs such as HoloLens 2 and MagicLeap One provide high-resolution displays (i.e., up to 2048 × 1080), a wide FoV (i.e., 52 and 50 degrees), and tracking and control capabilities.…”

Section: Wearable Displaysmentioning

confidence: 99%

“…Kim et al [33] No No Nursing Education Klinker et al [13] No No Medical Kopetz et al [22] No No Nursing Education Rochlen et al [25] No No Medical Huang et al [27] No No Medical Aebersold et al [34] No No Medical Hanna et al [14] Yes Yes Medical Yoon et al [23] Yes Yes Medical Lacy et al [35] Yes Yes Medical Rio et al [26] Yes Yes Medical Greenberg et al [32] Yes Yes Medical Liu et al [15] Yes Yes Medical Meijer et al [36] Yes Yes Medical Andersen et al [37,38] Yes Yes Medical STAR [16][17][18][19] Yes Yes Medical Mitsuno et al [20] Yes Yes Medical Mentis et al [39] Yes Yes Medical, Industrial Lin et al [40] Yes Yes Medical Gasques et al [21] Yes Yes Medical Hassan et al [41] Yes Yes Medical Giuseppe et al [42] Yes Yes Industrial Semsar et al [31] Yes Yes Medical Wang et al [7] Yes Yes Industrial Wang et al [8] Yes Yes Physical Task…”

Section: Remoteness Mentoring Domainmentioning

confidence: 99%

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Opportunities and Challenges of Smartglass-Assisted Interactive Telementoring

Yoon

2021

ASI

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The widespread adoption of wearables, extended reality, and metaverses has accelerated the diverse configurations of remote collaboration and telementoring systems. This paper explores the opportunities and challenges of interactive telementoring, especially for wearers of smartglasses. In particular, recent relevant studies are reviewed to derive the needs and trends of telementoring technology. Based on this analysis, we define what can be integrated into smartglass-enabled interactive telementoring. To further illustrate this type of special use case for telementoring, we present five illustrative and descriptive scenarios. We expect our specialized use case to support various telementoring applications beyond medical and surgical telementoring, while harmoniously fostering cooperation using the smart devices of mentors and mentees at different scales for collocated, distributed, and remote collaboration.

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Section: Wearable Displaysmentioning

confidence: 99%

Section: Remoteness Mentoring Domainmentioning

confidence: 99%

Opportunities and Challenges of Smartglass-Assisted Interactive Telementoring

Yoon

2021

ASI

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“…Such systems (e.g., [16,17,26,27]) present a realtime panoramic view of the local space, but often do not provide depth for virtual objects to interact with. Another approach is to recreate the local space as a pre-created 3D model (e.g., [25]) or realtime captured point cloud or 3D model (e.g., [8,28,31,32]). This method can add benefit by providing depth for the VR user to view the space from different angles.…”

Section: Background 21 Augmented Virtual Teleportation (Avt)mentioning

confidence: 99%

“…Manipulating virtual objects is also achieved by many AVT systems, including via spawning, moving, and deleting virtual objects (e.g., [28,29]) and annotating in the air (e.g., [8,28,31]). However, only a few systems enable smart virtual objects that understand the physical environment (e.g., [29]).…”

Section: Remote User's Agency Level In the Local Spacementioning

confidence: 99%

“…First, since AVT systems provide a remote-collaboration solution for activities that are conducted in a local space (e.g., remote surgery [8]), one of the main challenges is to increase the remote user's agency to manipulate and influence the local space. To fully explore such systems' advantage of letting the remote and local users feel they are in the same space, both local and remote users should be able to manipulate virtual and physical objects, and virtual objects should understand the physical environment instead of being isolated.…”

Section: Introductionmentioning

confidence: 99%

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XRmas: Extended Reality Multi-Agency Spaces for a Magical Remote Christmas

Zhang

Jones

Rintel

et al. 2021

Companion Publication of the 2021 Conference on Computer Supported Cooperative Work and Social Computing

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The COVID-19 pandemic has raised attention toward remote and hybrid communications. Currently, one highly-studied solution lets a remote user use virtual reality (VR) to enter an immersive view of a local space, and local users use augmented reality (AR) to see the remote user's representation and digital contents. Such systems give the remote user a sense of 'being there', but we identify two more challenges to address. First, current systems provide remote users with limited agency to control objects and influence the local space. It is necessary to further explore the relationship between users, virtual objects, and physical objects, and how they can play a role in providing richer agency. Second, current systems often try to replicate in-person experiences, but hardly surpass them. We propose XRmas: an AR/VR telepresence system that (1) provides a multi-agency space that allows a remote user to manipulate both virtual and physical objects in a local space, and (2) introduces three family activities in a Christmas context that adopt holographic animation effects to create a 'magical' experience that takes users beyond merely the feeling of 'being there'. We report on preliminary insights from the use of such a system in a remote family communication context.

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Evaluation of user‐interfaces for controlling movements of virtual minimally invasive surgical instruments

Shabir

Anbatawi

Padhan

et al. 2022

Robotics Computer Surgery

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Background: Recent tele-mentoring technologies for minimally invasive surgery (MIS) augments the operative field with movements of virtual surgical instruments as visual cues. The objective of this work is to assess different user-interfaces that effectively transfer mentor's hand gestures to the movements of virtual surgical instruments.Methods: A user study was conducted to assess three different user-interface devices (Oculus-Rift, SpaceMouse, Touch Haptic device) under various scenarios. The devices were integrated with a MIS tele-mentoring framework for control of both manual and robotic virtual surgical instruments. Results:The user study revealed that Oculus Rift is preferred during robotic scenarios, whereas the touch haptic device is more suitable during manual scenarios for tele-mentoring. Conclusion:A user-interface device in the form of a stylus controlled by fingers for pointing in 3D space is more suitable for manual MIS, whereas a user-interface that can be moved and oriented easily in 3D space by wrist motion is more suitable for robotic MIS.

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ARTEMIS: A Collaborative Mixed-Reality System for Immersive Surgical Telementoring

Cited by 83 publications

References 35 publications

Opportunities and Challenges of Smartglass-Assisted Interactive Telementoring

Opportunities and Challenges of Smartglass-Assisted Interactive Telementoring

XRmas: Extended Reality Multi-Agency Spaces for a Magical Remote Christmas

Evaluation of user‐interfaces for controlling movements of virtual minimally invasive surgical instruments

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