Add to ORKGIn this paper we present a low cost navigation system, called ARIANNA, primarily designed for visually impaired people. ARIANNA (pAth Recognition for Indoor Assisted NavigatioN with Augmented perception) permits to find some points of interests in an indoor environment by following a path painted or sticked on the floor. The path is detected by the camera of the smartphone which also generates a vibration signal providing a feedback to the user for correcting his/her direction. Some special landmarks can be deployed along the path for coding additional information detectable by the camera. In order to study the practical feasibility of the ARIANNA system for human users that want to follow a pre-defined path (by only using the smartphone fe...
Turn-by-turn navigation is a useful paradigm for assisting people with visual impairments during mob...
We present an innovative smartphone-centric tracking system for indoor and outdoor environments, bas...
In this paper, we present an innovative cyber physical system for indoor and outdoor localization an...
In this paper we present a low cost navigation system, called ARIANNA, primarily designed for visual...
In this paper we show how to enhance the tracking performance of Arianna, a low-cost augmented reali...
In recent years, we have assisted with an impressive advance in augmented reality systems and comput...
ARIANNA stands for pAth Recognition for Indoor Assisted Navigation with Augmented perception. It is ...
In recent years, we have assisted to an impressive advance of augmented reality systems and compute...
In this paper, we present a system that allows visually impaired people to autonomously navigate in ...
Indoor localization and navigation systems for individuals with visual impairments (VI) typically re...
Abstract — Indoor localization and navigation systems for individuals with visual impairments (VI) t...
International audienceIn this paper we introduce a novel assistant for autonomous navigation of part...
The World Health Organization assesses the number of visually impaired people to be nearly 285 milli...
Abstract. Indoor localization and navigation systems for individuals with visual impairments (VI) ty...
Recently, researchers have paid attention to designing indoor navigation services for smartphone use...
Turn-by-turn navigation is a useful paradigm for assisting people with visual impairments during mob...
We present an innovative smartphone-centric tracking system for indoor and outdoor environments, bas...
In this paper, we present an innovative cyber physical system for indoor and outdoor localization an...
In this paper we present a low cost navigation system, called ARIANNA, primarily designed for visual...
In this paper we show how to enhance the tracking performance of Arianna, a low-cost augmented reali...
In recent years, we have assisted with an impressive advance in augmented reality systems and comput...
ARIANNA stands for pAth Recognition for Indoor Assisted Navigation with Augmented perception. It is ...
In recent years, we have assisted to an impressive advance of augmented reality systems and compute...
In this paper, we present a system that allows visually impaired people to autonomously navigate in ...
Indoor localization and navigation systems for individuals with visual impairments (VI) typically re...
Abstract — Indoor localization and navigation systems for individuals with visual impairments (VI) t...
International audienceIn this paper we introduce a novel assistant for autonomous navigation of part...
The World Health Organization assesses the number of visually impaired people to be nearly 285 milli...
Abstract. Indoor localization and navigation systems for individuals with visual impairments (VI) ty...
Recently, researchers have paid attention to designing indoor navigation services for smartphone use...
Turn-by-turn navigation is a useful paradigm for assisting people with visual impairments during mob...
We present an innovative smartphone-centric tracking system for indoor and outdoor environments, bas...
In this paper, we present an innovative cyber physical system for indoor and outdoor localization an...