Robustness and static-positional accuracy of the SteamVR 1.0 virtual reality tracking system

Sansone, Lucia Grazia; Stanzani, Ronny; Job, Mirko; Battista, Simone; Signori, Alessio; Testa, Marco

doi:10.1007/s10055-021-00584-5

Cited by 10 publications

(8 citation statements)

References 29 publications

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“…We precisely calibrated the location of walls, light fixtures, and floor by capturing the location of three Vive 2.0 Trackers, averaging their x, y, and z coordinates to compare with a reference point, and applying a linear offset to all elements in the virtual scene. The Vive 2.0 Trackers are very accurate, with position errors on the order of only a few centimeters (Sansone et al ., 2021), and by using the average of three trackers we further improve our tracking accuracy. Auditory stimuli were presented with a loudspeaker array.…”

Section: Methodsmentioning

confidence: 99%

Task-uninformative visual stimuli improve auditory spatial discrimination: the ambiguous contribution of relative reliability

Cappelloni

Shivkumar

Haefner

et al. 2022

Preprint

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The brain combines information from multiple sensory modalities to interpret the environment. These processes, collectively known as multisensory integration, have been modeled as ideal Bayesian causal inference, proposing that perception involves the combination of information from different sensory modalities based on their reliability and their likelihood of stemming from the same causes in the outside world. Bayesian causal inference has explained a variety of multisensory effects in simple tasks but is largely untested in complex sensory scenes where multisensory integration can provide the most benefit. Recently, we presented data challenging the ideal Bayesian model from a new auditory spatial discrimination task in which spatially aligned visual stimuli improve performance despite providing no information about the correct response. Here, we present two modifications of our original experiment to explore potential effects of the stimulus duration, and thus relative reliability of the stimuli, on the multisensory effect we previously measured. While our results replicate the original effect, we do not find clear evidence that the reliability of the stimuli impacts effect size within or across subjects.

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Section: Methodsmentioning

confidence: 99%

Task-uninformative visual stimuli improve auditory spatial discrimination: the ambiguous contribution of relative reliability

Cappelloni

Shivkumar

Haefner

et al. 2022

Preprint

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“…The majority of related work is based on the SteamVR Tracking 1.0 and two first generation SteamVR Base Stations (1.0) [ 4 , 21 , 23 , 24 , 25 , 26 , 27 , 28 ]. In these studies, performance of SteamVR Tracking and sometimes other professional tracking systems were compared against a GTS.…”

Section: Related Workmentioning

confidence: 99%

“…Based on specific experimental setups, single or multiple analyses were performed to determine performance characteristics based on single or multiple measurement runs. Heterogeneous results were reported for the accuracy of SteamVR Tracking, and static positional errors of individual trials varied between ≤1 mm [ 4 , 23 , 26 , 28 ] and

mm [ 25 ]. When SteamVR Tracking 1.0 was compared against a professional tracking system, there were no major differences in measurement outcomes.…”

Section: Related Workmentioning

confidence: 99%

“…When SteamVR Tracking 1.0 was compared against a professional tracking system, there were no major differences in measurement outcomes. While some also performed dynamic analyses in terms of performance [ 23 , 26 , 27 , 29 ], others investigated tracking behavior depending on temporary and complete occlusion or on different distances between base stations [ 21 , 28 ]. Reported dynamic analyses [ 23 , 26 , 27 , 29 ] show a considerable variation of errors ranging from the submillimeter range [ 26 , 27 , 29 ] up to several hundreds of mm [ 23 , 26 ], strongly depending on used velocities and trajectories.…”

Section: Related Workmentioning

confidence: 99%

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Static and Dynamic Accuracy and Occlusion Robustness of SteamVR Tracking 2.0 in Multi-Base Station Setups

Canaviri

Meiszl

Hussein

et al. 2023

Sensors

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The tracking of objects and person position, orientation, and movement is relevant for various medical use cases, e.g., practical training of medical staff or patient rehabilitation. However, these demand high tracking accuracy and occlusion robustness. Expensive professional tracking systems fulfill these demands, however, cost-efficient and potentially adequate alternatives can be found in the gaming industry, e.g., SteamVR Tracking. This work presents an evaluation of SteamVR Tracking in its latest version 2.0 in two experimental setups, involving two and four base stations. Tracking accuracy, both static and dynamic, and occlusion robustness are investigated using a VIVE Tracker (3.0). A dynamic analysis further compares three different velocities. An error evaluation is performed using a Universal Robots UR10 robotic arm as ground-truth system under nonlaboratory conditions. Results are presented using the Root Mean Square Error. For static experiments, tracking errors in the submillimeter and subdegree range are achieved by both setups. Dynamic experiments achieved errors in the submillimeter range as well, yet tracking accuracy suffers from increasing velocity. Four base stations enable generally higher accuracy and robustness, especially in the dynamic experiments. Both setups enable adequate accuracy for diverse medical use cases. However, use cases demanding very high accuracy should primarily rely on SteamVR Tracking 2.0 with four base stations.

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“…The version of Metaverse to be used determines the device to be used. While HMDs such as Oculus Quest [137], VIVE Pro 2 [138], and HP Reverb G2 [139] can be used to display images and play sounds from the virtual environment, while ensuring full immersion in the Metaverse, they tend to feel very heavy after a substantial period of time. Alternative display devices like optical-see through glasses and video-see through glasses like the Microsoft HoloLens [140], Espon Moverio [141] and Magic Leap [142] do not provide the full immersion which the typical non-see through HMD provides.…”

Section: Hardware Limitationsmentioning

confidence: 99%

Prospects and challenges of Metaverse application in data‐driven intelligent transportation systems

Njoku

Nwakanma

Amaizu

et al. 2022

IET Intelligent Trans Sys

115

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The Metaverse is a concept used to refer to a virtual world that exists in parallel to the physical world. It has grown from a conceptual level to having real applications in virtual reality games. The applicability of the Metaverse in numerous sectors like marketing, education, social, and even advertising exists. However, there exists little or no work on Metaverse applicability to the transportation industry. Data‐driven intelligent transportation systems (DDITS) aim to provide more intelligent systems based on exploiting data. This paper reviews the concepts and features of the Metaverse. Also, the review goes over three dominant DDITS challenges: vehicle fault detection and repair, testing new technologies, and anti‐theft systems. In addition, it highlights prospective Metaverse solutions that apply to the DDITS. Buttressing the utility of Metaverse in DDITS, this paper presents two major case studies: the invisible to visible (I2V) and the Metaverse on Wheels (MoW) technologies. Finally, the influence, limitations, and open issues of Metaverse applications to DDITS are discussed.

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Robustness and static-positional accuracy of the SteamVR 1.0 virtual reality tracking system

Cited by 10 publications

References 29 publications

Task-uninformative visual stimuli improve auditory spatial discrimination: the ambiguous contribution of relative reliability

Task-uninformative visual stimuli improve auditory spatial discrimination: the ambiguous contribution of relative reliability

Static and Dynamic Accuracy and Occlusion Robustness of SteamVR Tracking 2.0 in Multi-Base Station Setups

Prospects and challenges of Metaverse application in data‐driven intelligent transportation systems

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