Multimodal Interaction of Contextual and Non-Contextual Sound and Haptics in Virtual Simulations

Melaisi, Mohammed; Rojas, David; Kapralos, Bill; Uribe-Quevedo, Álvaro; Collins, Karen

doi:10.3390/informatics5040043

Cited by 9 publications

(7 citation statements)

References 41 publications

(44 reference statements)

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“…Such differences in induced perceptions of movement between the real and virtual surfaces may reflect the congruence of auditory, tactile, and proprioceptive information in the real surface condition vs. relative incongruence in the virtual surface condition (i.e., no tactile input paired with auditory cues). Similarly, it was found that when performing virtual drilling (holding a haptic device), there was no effect of naturalistic, contextually relevant sound (drilling sound) or non-naturalistic sound (white noise or classical music) on the perception of drilling depth (Melaisi et al, 2018). Lastly, the effect of sound on perceived exertion during exercise has also been extensively explored, but less so when auditory cues are purposefully inaccurate.…”

Section: Influence Of Auditory Cues On the Perception Of Movementmentioning

confidence: 99%

The Influence of Auditory Cues on Bodily and Movement Perception

Stanton

Spence

2020

Front. Psychol.

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The sounds that result from our movement and that mark the outcome of our actions typically convey useful information concerning the state of our body and its movement, as well as providing pertinent information about the stimuli with which we are interacting. Here we review the rapidly growing literature investigating the influence of non-veridical auditory cues (i.e., inaccurate in terms of their context, timing, and/or spectral distribution) on multisensory body and action perception, and on motor behavior. Inaccurate auditory cues provide a unique opportunity to study cross-modal processes: the ability to detect the impact of each sense when they provide a slightly different message is greater. Additionally, given that similar crossmodal processes likely occur regardless of the accuracy or inaccuracy of sensory input, studying incongruent interactions are likely to also help us predict interactions between congruent inputs. The available research convincingly demonstrates that perceptions of the body, of movement, and of surface contact features (e.g., roughness) are influenced by the addition of non-veridical auditory cues. Moreover, auditory cues impact both motor behavior and emotional valence, the latter showing that sounds that are highly incongruent with the performed movement induce feelings of unpleasantness (perhaps associated with lower processing fluency). Such findings are relevant to the design of auditory cues associated with product interaction, and the use of auditory cues in sport performance and therapeutic situations given the impact on motor behavior.

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Section: Influence Of Auditory Cues On the Perception Of Movementmentioning

confidence: 99%

The Influence of Auditory Cues on Bodily and Movement Perception

Stanton

Spence

2020

Front. Psychol.

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“…The drilling sounds used in the simulation were actual recordings from a Stanley Black and Decker (New Britain, CT, USA) consumer drill, drilling in open air and drilling through wood. The recordings were made in an audiometric room to limit external noise and reverberation of sounds within the environment [11]. Two separate auditory stimuli were used in every trial; an initial "air" recording, representing a drill operating in open air, followed by a "wood" audio clip, recorded from the sounds made from drilling through a block of wood.…”

Section: Auditory Stimulimentioning

confidence: 99%

“…Higher-fidelity haptic devices can typically provide up to 40 N of force, with five to seven degrees of freedom [3]. As described in [11], the haptic sensations provided in this simulation were modeled after the resulting forces and vibrations measured from a real drill drilling through a piece of wood. Haptic forces were simulated using a spring-mass system coded into the Unity game engine (Unity Technologies, San Francisco, CA, USA).…”

Section: Audiohaptic Stimulimentioning

confidence: 99%

“…We are constantly engaging with various stimuli, and when two or more sensory inputs are congruent and presented simultaneously, we are able to process and respond to our environment more quickly than if the stimuli were presented separately [15,23]. Visual and auditory interactions are among the most studied, however, there is an increase in research investigating the role of technology in human-haptic interactions [3,10,11]. Sound can induce an intimate response to our physiology, as discussed in a recent study that found an increase in cortisol levels during video game play with music, as compared to the same game without music [24].…”

Section: Introductionmentioning

confidence: 99%

“…Sound can induce an intimate response to our physiology, as discussed in a recent study that found an increase in cortisol levels during video game play with music, as compared to the same game without music [24]. Manipulating auditory stimuli in video games can also influence a user's play experience, which ultimately affects their feelings of presence [11,25]. Presence refers to the feeling of being situated within a virtual environment regardless of the user's physical location, and is thought to be conducive to effective performance in the virtual world [26].…”

Section: Introductionmentioning

confidence: 99%

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Audiohaptic Feedback Enhances Motor Performance in a Low-Fidelity Simulated Drilling Task

et al. 2019

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When used in educational settings, simulations utilizing virtual reality (VR) technologies can reduce training costs while providing a safe and effective learning environment. Tasks can be easily modified to maximize learning objectives of different levels of trainees (e.g., novice, intermediate, expert), and can be repeated for the development of psychomotor skills. VR offers a multisensory experience, providing visual, auditory, and haptic sensations with varying levels of fidelity. While simulating visual and auditory stimuli is relatively easy and cost-effective, similar representations of haptic sensation still require further development. Evidence suggests that mixing high- and low-fidelity realistic sensations (e.g., audition and haptic) can improve the overall perception of realism, however, whether this also leads to improved performance has not been examined. The current study examined whether audiohaptic stimuli presented in a virtual drilling task can lead to improved motor performance and subjective realism, compared to auditory stimuli alone. Right-handed participants (n = 16) completed 100 drilling trials of each stimulus type. Performance measures indicated that participants overshot the target during auditory trials, and undershot the target during audiohaptic trials. Undershooting is thought to be indicative of improved performance, optimizing both time and energy requirements.

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Pseudo‐Hologram with Aerohaptic Feedback for Interactive Volumetric Displays

Christou

Chirila

Dahiya

2021

Advanced Intelligent Systems

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Midair display of a conventional 2D graphic as 3D virtual objects with real physical dimensions, much like the physical object being depicted, is an interesting approach for the next generation of virtual reality (VR) and augmented reality (AR) systems. [1][2][3] Few variants of such volumetric displays that allow 3D virtual objects to be viewable from all directions have been reported recently. [4][5][6][7] These include pseudohologram, swept-volume, static-volume, and free-space displays. [1,2,4] There have been several commercial efforts also, including notable early starters such as Actuality Systems' Perspecta display, a 10 cm diameter swept-volume display, [8] and the LightSpace DepthCube, a stacked liquid crystal display (LCD) static-volume display. [9] Current commercial examples include Voxon's swept-volume display [10] and Looking Glass' light field technology. [11] The major advantages of these systems over current AR/VRs are that they do not require the user to wear glasses or headwear. With suitable sensory feedback, these volumetric displays can possibly lead to interactive digital twins that can pair the virtual and physical worlds and drive innovations in several areas, including healthcare, space, medicine, and disaster management. However, most of the reported volumetric displays provide visual experience only, offering no possibility to feel the virtual object through touch. Although some wearable gadgets and touch-based approaches have been reported recently, they are limited to controlling the virtual object that is being displayed. [1] Controlling a virtual object is nowhere close to feeling the pressure exerted by its real counterpart or feeling the temperature. In this regard, addition of artificial touch sensation can deliver the additional dimension of interaction with virtual objects.With VR technologies on the rise, interactive systems that provide life-like feedback from virtual contacts can greatly enhance the immersive user experience. [12] Such systems can range from simple haptic feedback devices integrated in the controllers of gaming consoles to more complex approaches such as hapticenabled gloves [13][14][15][16][17][18] and midair haptic feedback delivery via ultrasonic waves. [19] Haptic feedback technologies are of great interest in several areas such as robotics, autonomous vehicles, and rehabilitation. [20][21][22][23][24][25][26] Systems that can bring together vision and tactile feedback experiences will find great interest in multiple sectors, including entertainment, education, medical, disaster management, security, telerobotics, and tactile communication. [2,[27][28][29][30] However, combining these interactive experiences in a complete system encompasses significant challenges in terms of technology complexity, cost, implementation, and safety.Herein, we present a pseudohologram with an air-based haptic feedback device to enable contact-free midair tactile

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Multimodal Interaction of Contextual and Non-Contextual Sound and Haptics in Virtual Simulations

Cited by 9 publications

References 41 publications

The Influence of Auditory Cues on Bodily and Movement Perception

The Influence of Auditory Cues on Bodily and Movement Perception

Audiohaptic Feedback Enhances Motor Performance in a Low-Fidelity Simulated Drilling Task

Pseudo‐Hologram with Aerohaptic Feedback for Interactive Volumetric Displays

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