4,993 research outputs found
Navigation-by-music for pedestrians: an initial prototype and evaluation
Digital mobile music devices are phenomenally popular. The devices are becoming increasingly powerful with sophisticated interaction controls, powerful processors, vast onboard storage and network connectivity. While there are ‘obvious’ ways to exploit these advanced capabilities (such as wireless music download), here we consider a rather different application—pedestrian navigation. We report on a system (ONTRACK) that aims to guide listeners to their destinations by continuously adapting the spatial qualities of the music they are enjoying. Our field-trials indicate that even with a low-fidelity realisation of the concept, users can quite effectively navigate complicated routes
NavMarkAR: A Landmark-based Augmented Reality (AR) Wayfinding System for Enhancing Spatial Learning of Older Adults
Wayfinding in complex indoor environments is often challenging for older
adults due to declines in navigational and spatial-cognition abilities. This
paper introduces NavMarkAR, an augmented reality navigation system designed for
smart-glasses to provide landmark-based guidance, aiming to enhance older
adults' spatial navigation skills. This work addresses a significant gap in
design research, with limited prior studies evaluating cognitive impacts of AR
navigation systems. An initial usability test involved 6 participants, leading
to prototype refinements, followed by a comprehensive study with 32
participants in a university setting. Results indicate improved wayfinding
efficiency and cognitive map accuracy when using NavMarkAR. Future research
will explore long-term cognitive skill retention with such navigational aids.Comment: 24 page
Mental maps and the use of sensory information by blind and partially sighted people
This article aims to fill an important gap in the literature by reporting on blind and partially sighted people's use of spatial representations (mental maps) from their perspective and when travelling on real routes. The results presented here were obtained from semi-structured interviews with 100 blind and partially sighted people in five different countries. They are intended to answer three questions about the representation of space by blind and partially sighted people, how these representations are used to support travel, and the implications for the design of travel aids and orientation and mobility training. They show that blind and partially sighted people do have spatial representations and that a number of them explicitly use the term mental map. This article discusses the variety of approaches to spatial representations, including the sensory modalities used, the use of global or local representations, and the applications to support travel. The conclusions summarize the answers to the three questions and include a two-level preliminary classification of the spatial representations of blind and partially sighted people
Older drivers' requirements for navigation and route guidance information
This thesis examines older drivers and navigation. Over more recent times the
proportion of older people in the UK population has risen. This effect is carrying over
into the driving population. Due to changing demographics, increased longevity and
the increased universality of driving there will be many more older drivers than
before. Older drivers find the navigation task of finding their way on unfamiliar routes
very demanding due to declines in sensory and cognitive abilities. New technology
such as route guidance systems could aid the older driver in this task, by reducing
uncertainty when meeting decision points on the road network. However such systems
can also cause distraction. This has led to concern over the safety implications of the
implementation of route guidance systems into cars. If route guidance systems are to
be designed safely then the characteristics and needs of the driver have to be
identified. The aim of this thesis was to provide human factors knowledge in this area
so that route guidance systems can be designed to meet the needs of older drivers. [Continues.
Opportunities for Supporting Self-efficacy through Orientation & Mobility Training Technologies for Blind and Partially Sighted People
Orientation and mobility (O&M) training provides essential skills and techniques for safe and independent mobility for blind and partially sighted (BPS) people. The demand for O&M training is increasing as the number of people living with vision impairment increases. Despite the growing portfolio of HCI research on assistive technologies (AT), few studies have examined the experiences of BPS people during O&M training, including the use of technology to aid O&M training. To address this gap, we conducted semi-structured interviews with 20 BPS people and 8 Mobility and Orientation Trainers (MOT). The interviews were thematically analysed and organised into four overarching themes discussing factors influencing the self-efficacy belief of BPS people: Tools and Strategies for O&M training, Technology Use in O&M Training, Changing Personal and Social Circumstances, and Social Influences. We further highlight opportunities for combinations of multimodal technologies to increase access to and effectiveness of O&M training
Investigating older drivers' route guidance requirements to inform the design of future in-vehicle navigation systems
Phd ThesisIn-vehicle navigation has been identified as a key activity for maintaining the mobility and hence the independence and quality of life of older adults. However, few studies have directly investigated and tested route guidance requirements specifically for older drivers. This thesis addresses the knowledge gap using a range of quantitative and qualitative methodologies across three investigations.
A focus group investigation was undertaken first. Thirty older adults were recruited and themes of driving and navigation behaviour discussed. This research stage found older adults have difficulty planning and then navigating journeys, landmarks are used to navigate the road network and in-vehicle navigation systems (IVNS) are not deemed to be useable.
In the second investigation, current design IVNS were loaned to 22 older adults for a two-week period. During this period the participants detailed their experiences and attitudes of the loaned IVNS. In addition, in-depth interviews were undertaken. This investigation found that IVNS have usability issues for older drivers that need to be considered for the next generation of IVNS.
In the next stage, a driving simulator investigation with 30 older drivers was carried out. This phase of the research examined the navigational benefits of providing landmark-based route guidance information as compared to the traditional method of paper maps.
The study concluded that older drivers have difficulties with navigation through decline in memory and vision. The driving simulator investigation suggests that landmarks are effective at supporting older drivers with the navigation task; in particular, older female drivers. In addition, landmark-based route guidance information should be delivered through a combination of audio instructions and an icon-based visual display. Finally, the thesis outlines recommendations for the next generation IVNS for older drivers
Multipurpose Map Designs for GPS Surface-Vehicle Navigation: Spatial Knowledge and Advisory Functions
Current car navigation systems primarily utilize track-up maps with spatial turn arrows, which facilitate turn decision-making but do not facilitate acquisition of spatial knowledge of the region. North-up maps do facilitate acquisition of regional spatial knowledge, however, these displays sometimes have arrows heading in directions misaligned with a driver\u27s forward view, such as when the car is heading south. Drivers have difficulty making turn decisions in these misaligned maps because of stimulus-response reversals (Chan and Chan, 2005; Levine, 1982; Levine, Marchon and Hanley, 1984; Montello, 2010). A new display was designed using a fixed orientation north-up map and added a verbal cue to the traditional turn arrow. People are able to concurrently process verbal and spatial information (Baddeley and Hitch, 1974; Paivio, 1971; Paivio, 2006). The new verbal north-up map was compared with traditional north-up and track-up maps, and a no map aid with auditory turn instructions. Participants drove through a simulated environment and made left or right intention-to-turn responses to the map indicator or the auditory instructions. Following the driving simulation, participants drew a sketch map of the region, which was scored to evaluate configural spatial knowledge. Results showed participants using the verbal north-up map acquired more accurate configural spatial knowledge and showed no evidence of decrement in performance for intention to turn times
Multipurpose Map Designs for GPS Surface-Vehicle Navigation: Spatial Knowledge and Advisory Functions
Current car navigation systems primarily utilize track-up maps with spatial turn arrows, which facilitate turn decision-making but do not facilitate acquisition of spatial knowledge of the region. North-up maps do facilitate acquisition of regional spatial knowledge, however, these displays sometimes have arrows heading in directions misaligned with a driver\u27s forward view, such as when the car is heading south. Drivers have difficulty making turn decisions in these misaligned maps because of stimulus-response reversals (Chan and Chan, 2005; Levine, 1982; Levine, Marchon and Hanley, 1984; Montello, 2010). A new display was designed using a fixed orientation north-up map and added a verbal cue to the traditional turn arrow. People are able to concurrently process verbal and spatial information (Baddeley and Hitch, 1974; Paivio, 1971; Paivio, 2006). The new verbal north-up map was compared with traditional north-up and track-up maps, and a no map aid with auditory turn instructions. Participants drove through a simulated environment and made left or right intention-to-turn responses to the map indicator or the auditory instructions. Following the driving simulation, participants drew a sketch map of the region, which was scored to evaluate configural spatial knowledge. Results showed participants using the verbal north-up map acquired more accurate configural spatial knowledge and showed no evidence of decrement in performance for intention to turn times
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