Impact of a Vibrotactile Belt on Emotionally Challenging Everyday Situations of the Blind

Brandebusemeyer, Charlotte; Luther, Anna; König, Sabine U.; König, Peter; Kärcher, Silke

doi:10.3390/s21217384

Cited by 4 publications

(3 citation statements)

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“…Similar techniques could be applied to sensory substitution, for instance, to compensate for sensory disability, disorder, or deficits [40,[118][119][120][121][122][123][124], or to other sensory augmentation devices to further enhance human perception by allowing humans to perceive information that they cannot naturally incorporate through their senses [27,[30][31][32][33][34][35]. Specifically, similar sensory augmentation techniques have been used to aid deaf and blind people during spatial navigation, showing that training with sensory augmentation devices can lead to improved navigational performance and reduced discomfort [46,121,125,126].…”

Section: Sensory Augmentation Can Enhance Human Performancementioning

confidence: 99%

“…A potential explanation is that the complex homing paradigm was conducted on a very small scale (19-22 m) [43] and could therefore have been solved by exclusively using the vestibular system [44,45]. Moreover, these studies were challenged with small sample sizes, for instance, due to time-intensive experimental procedures [41,43] or a focus on specific test subjects [40,46]. Interestingly, previous research investigating spatial knowledge in real-world environments identified the challenge that there is a large interindividual variability in spatial navigation ability and the acquisition of spatial knowledge across the population [47][48][49], which increases even more when factors such as the degree of familiarity with the environment are likely to impact the results.…”

Section: Introductionmentioning

confidence: 99%

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Improved Spatial Knowledge Acquisition through Sensory Augmentation

et al. 2023

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Sensory augmentation provides novel opportunities to broaden our knowledge of human perception through external sensors that record and transmit information beyond natural perception. To assess whether such augmented senses affect the acquisition of spatial knowledge during navigation, we trained a group of 27 participants for six weeks with an augmented sense for cardinal directions called the feelSpace belt. Then, we recruited a control group that did not receive the augmented sense and the corresponding training. All 53 participants first explored the Westbrook virtual reality environment for two and a half hours spread over five sessions before assessing their spatial knowledge in four immersive virtual reality tasks measuring cardinal, route, and survey knowledge. We found that the belt group acquired significantly more accurate cardinal and survey knowledge, which was measured in pointing accuracy, distance, and rotation estimates. Interestingly, the augmented sense also positively affected route knowledge, although to a lesser degree. Finally, the belt group reported a significant increase in the use of spatial strategies after training, while the groups’ ratings were comparable at baseline. The results suggest that six weeks of training with the feelSpace belt led to improved survey and route knowledge acquisition. Moreover, the findings of our study could inform the development of assistive technologies for individuals with visual or navigational impairments, which may lead to enhanced navigation skills and quality of life.

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Section: Sensory Augmentation Can Enhance Human Performancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improved Spatial Knowledge Acquisition through Sensory Augmentation

et al. 2023

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“…However, despite rapid advancements, a significant barrier to long-term adoption exists: a large percentage of users discontinue the use of these wearables over time. For instance, as many as 40% of individuals fitted with a prosthesis either rarely use it or abandon it altogether (Biddiss and Chau, 2007;Brandebusemeyer et al, 2021). Preliminary evidence suggests that one key reason for this attrition is the increased cognitive load and explicit device awareness imposed by these devices (Slater et al, 2003;Murray, 2004;Li et al, 2019;Danry et al, 2022) such as increased attention, concentrates or focalization of the devices in our immediate experience (see Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Wearable systems without experiential disruptions: exploring the impact of device feedback changes on explicit awareness, physiological synchrony, sense of agency, and device-body ownership

Morris,

Danry,

Maes

2023

Front. Comput. Sci.

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Technologies on the body that require explicit awareness to be operated or monitored often risk disrupting human awareness and induce stress and excessive cognitive load. With the increasing interest in body-centric technologies, it is thus essential to understand how to build technologies that interface with human awareness without disrupting or requiring too many cognitive resources. In this paper, we build and evaluate a wearable system that uses different feedback types to alter human awareness (of the device). We further demonstrate how this awareness impacts cognitive load, sense of body-ownership, and sense of agency, which are often essential antecedents to successful and continued use. Moreover, we further investigate physiological signals, such as physiological synchrony, as well as qualitative reports in a multimodal analysis. Our results show that devices that provide feedback that deviate from expected behavior tend to generate higher amounts of explicit awareness, and that such increased awareness correlates with increased cognitive load, lower sense of agency and lower sense of body-ownership. Moreover, we find that interoceptive acuity correlates with diminished sense of agency. We discuss their implications for designing wearable body-centric systems that induce or disrupt different levels of awareness to deliver or diminish a sense of body-ownership and agency over the system.

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