Page 372 - Kaleidoscope Academic Conference Proceedings 2024
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2024 ITU Kaleidoscope Academic Conference




           experiences, further enhancing the platform’s capabilities and  [16] Multiple Authors. "Intelligent Glasses for Visually
           expanding its potential applications in various educational  Impaired People." IEEE Xplore, 2023.
           contexts.
                                                              [17] Mahendran, J. K., et al. "Computer Vision-Based
                                                                  Assistance System for the Visually Impaired Using
                            REFERENCES
                                                                  Mobile Edge AI." CVPR 2021 Workshop on Mobile
            [1] IBM. (n.d.). A commitment to accessibility. Retrieved  AI, 2021.
               from https://www.ibm.com/accessibility
                                                              [18] Ratna, Ch., et al. "Image to Audio for Visually
            [2] Microsoft. (n.d.). Doubling down on accessibility:  Impaired."  International  Journal  for  Innovative
               Microsoft’s next steps to expand accessibility in  Engineering Management Research, 2023.
               technology, the workforce and workplace. Retrieved
               from https://blogs.microsoft.com

            [3] Microsoft  Research.  (n.d.).  Where’s  my  stuff?
               Developing AI with help from people who are blind
               or low vision to meet their needs. Retrieved from
               https://www.microsoft.com

            [4] Be My Eyes. (n.d.). Retrieved from https://www.
               bemyeyes.com

            [5] Aira. (n.d.). Retrieved from https://www.aira.io
            [6] Tilting the Lens. (2023). Digital Accessibility for Blind
               and Low-Vision Consumers. Retrieved from link to
               paper

            [7] Explaining CLIP’s Performance Disparities on Data
               from Blind/Low Vision Users. (2023). Retrieved from
               https://arxiv.org/abs/2311.17315

            [8] ImageAssist: Tools for Enhancing Touchscreen-Based
               Image Exploration Systems for Blind and Low Vision
               Users. (2023). Retrieved from https://arxiv.org/
               abs/2302.09124
            [9] Artificial Intelligence for Visually Impaired. (2023).
               Retrieved  from  https://doi.org/10.1016/j.
               displa.2023.102391
           [10] Towards Assisting Visually Impaired Individuals: A
               Review on Current Solutions. (2023). Retrieved from
               http://dx.doi.org/10.1016/j.biosx.2022.
               100265
           [11] Recent Trends in Computer Vision-Driven Scene
               Understanding  for  Visually  Impaired.  (2023).
               Retrieved  from    https://doi.org/10.1007/
               s10209-022-00868-w
           [12] Graves, A., et al. "End-to-End Speech Recognition: A
               Survey." arXiv preprint arXiv:2303.03329, 2023.
           [13] Reddy, S. Y., et al. "A Hybrid Approach to Converting
               Visuals into Speech for the Visually Impaired."
               International Journal for Innovative Engineering &
               Management Research, 2023.
           [14] Bose, P. "An Intelligent Voice Assistant Engineered to
               Assist the Visually Impaired." Springer, 2023.
           [15] Multiple Authors. "Real-Time Object Detection and
               Recognition for the Visually Impaired." Springer, 2023.




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