Article Sidebar
Downloads
Main Article Content
Abstract
This article's goal is to describe the evolution of assistive technology, which includes lidar-based maps for mobility blind navigation. This technology serves as a barrier against the difficulties faced by the blind when doing mobility tasks in areas without easily accessible mobility. The ADDIE development method is used in sensor-based mapping projects that cover analysis, design, development, implementation, and evaluation. The development of assistive technology produced a prototype based on lidar sensor technology that was enhanced with a webcam using a Raspberry Phi 4. This map can accurately depict areas and depict nearby obstacles. The device is then outfitted with a webcam camera that uses voice guidance to go to the destination room while reading the QR Code as a direction indicator. The simplified distance units and steps are easily comprehensible for individuals with visual impairments. Based on conducted studies, lidar sensor-based maps have proven to be an excellent tool for blind people requiring interior navigation.
Keywords
Article Details
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
References
- Campbell, S., O’Mahony, N., Krpalcova, L., Riordan, D., Walsh, J., Murphy, A., & Ryan, C. (2018). Sensor technology in autonomous vehicles: A review. 2018 29th Irish Signals and Systems Conference (ISSC), 1–4.
- Ermayuni, A., & Fatmawati, F. (2019). Peranan teman sebaya dalam orientasi dan mobilitas lingkungan sekolah pada siswa tunanetra di SMKN 7 Padang. Jurnal Penelitian Pendidikan Khusus, 7(1), 190–197.
- Hidayat, F., & Nizar, M. (2021). Model Addie (Analysis, Design, Development, Implementation and Evaluation) Dalam Pembelajaran Pendidikan Agama Islam. Jurnal Inovasi Pendidikan Agama Islam (JIPAI), 1(1), 28–38. https://doi.org/10.15575/jipai.v1i1.11042
- Kran, B. S., Lawrence, L., Mayer, D. L., & Heidary, G. (2019). Cerebral/cortical visual impairment: a need to reassess current definitions of visual impairment and blindness. Seminars in Pediatric Neurology, 31, 25–29.
- Kumasela, G. P., Saerang, J. S. M., & Rares, L. (2013). Hubungan waktu penggunaan laptop dengan keluhan penglihatan pada mahasiswa Fakultas Kedokteran Universitas Sam Ratulangi. EBiomedik, 1(1).
- Nugraha, R. A. S., Arifin, D. M., Satyawan, A. S., Asysyakuur, M. I., Nufus, N., Santi, N. N. A. M., & Habibi, A. (2021). Pengembangan Software Aplikasi Pendeteksian Objek Berbasis LiDAR (Light Detection and Ranging)(Development of Lidar-Based Object Detection Software). Prosiding Seminar Nasional Sains Teknologi Dan Inovasi Indonesia (SENASTINDO), 3, 73–82.
- Panggabean, T. Y. S., & Ati, S. (2019). Evaluasi Jaws (Job Access With Speech) Screen Reader untuk Akses Informasi Tunanetra di Yayasan Komunitas Sahabat Mata Semarang. Jurnal Ilmu Perpustakaan, 6(3), 701–710.
- Putra, I. (2016). Sistem Kerja Sensor Laser pada LIDAR. J. Media Komun. Geogr, 17(1), 59– 70.
- Ramadhan, A. F., Putra, A. D., & Surahman, A. (2021). Aplikasi Pengenalan Perangkat Keras Komputer Berbasis Android Menggunakan Augmented Reality (Ar). Jurnal Teknologi Dan Sistem Informasi, 2(2), 24–31.
- Utomo, U. (2021). Keterampilan Orientasi Mobilitas (OM) bagi Tunanetra.
- Widayati, Y. T. (2017). Aplikasi Teknologi Qr (Quick Response) Code Implementasi Yang Universal. KOMPUTAKI, 3(1).