Gradient-based image segmentation for inadequately lit or textured environments
Andrei Laptusteanu, Florica Moldoveanu, Anca Morar, Alin Moldoveanu, Maria Anca Balutoiu, Victor Asavei – 2022 Tenth International Workshop on Assistive Computer Vision and Robotics (ACVR), European Conference on Computer Vision (ECCV) 2022
SoV Lite – More Steps Towards Affordable Visual to Audio-Haptic Sensory Substitution
Anca Morar, Alexandru Gradinaru, Maria-Anca Băluţoiu, Ştefan Achirei, Otilia Zvorişteanu, Alin Moldoveanu, Florica Moldoveanu, Simona Caraiman, Andrei Lăpuşteanu, Gabriel Ivănică, Robert Lupu, Computer Vision and Image Understanding Journal, Elsevier, ISSN: 1077-3142
Pothole Detection for Visually Impaired Assistance
Autori: Ștefan Daniel Achirei, Ioana Ariana Opariuc, Otilia Zvoristeanu, Simona Caraiman and Vasile Ion Manta
Conferința: International Conference on Intelligent Computer Communication and Processing (ICCP), Cluj-Napoca, România: 2021
Environment Understanding Framework for Intelligent Mobile Systems
Autori: Otilia Zvoristeanu, Ștefan Daniel Achirei, Simona Caraiman, and Vasile Ion Manta
Conferința: 25th International Conference on System Theory, Control and Computing (ICSTCC), Iasi, Romania: IEEE, 2021 10.1109/ICSTCC52150.2021.9607078
Sensory Substitution for the Visually Impaired: A Study on the Usability of the Sound of Vision System in Outdoor Environments
Autori: Otilia Zvorișteanu, Simona Caraiman, Robert-Gabriel Lupu, Nicolae Alexandru Botezatu, Adrian Burlacu
Conferința: Electronics 2021. https://doi.org/10.3390/electronics10141619
On improving perception for visually impaired: requirements, research and practicality
Autori: Otilia Zvorișteanu, Ștefan Daniel Achirei, Nicolae Botezatu, Robert Gabriel Lupu, Adrian Burlacu, Simona Caraiman
Conferința: International Conference on e-Health and Bioengineering (EHB), 29-30 October 2020.
The development of sensory substitution devices for visually impaired is one of the most complex interdisciplinary research areas. These devices exploit the ability of the brain to adapt, learn and process the lost sensory information (vision) using sounds and/or haptics. Starting from previously published research results, this paper explores the users’ requirements and practicality aspects necessary in the design of sensory substitution devices for visually impaired. A new mobile perception architecture is proposed and preliminary results are presented.