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Research Article
COMPANION - An Application for Impaired Persons
Sayed Mohammad Umair Rashid1
Khan Needa Anjum Ishar2
Dr. Shabina Sayed3
123Department Of Information Technology, M.H. Saboo Siddik College of Engineering, Mumbai, India
Published Online: March-April 2022
Pages: 235-240
Cite this article
No DOIReferences
1. Buzzi, M. C., Buzzi, M., Leporini, B., & Trujillo, A. (2015). Design of Web-based tools to study blind people’s touch-based interaction with smartphones.
In Proceedings of the international peer-reviewed conference, Los Angeles, CA-USA (pp. 7–12). https://doi.org/10.1007/978-3-319-21380-4_2.
2. Kamble, K., & Kagalkar, R. (2014). A review: Translation of Text to Speech conversion for the Hindi Language. International Journal of Science and
Research,3(11), 1027–1031.
3. Kumar, A. S., & Begum, S. (2014). Sign mobiles: An android app for specially-abled people. International Journal of Advanced Research in Computer
Science and Software Engineering,4(9), 208–214.
4. Frey, B., Southern, C., & Romero, M. (2011). BRAILLETOUCH: Mobile texting for the visually impaired. Lecture Notes in Computer Science,6767, 19–
25. https://doi.org/10.1007/978-3-642-21666-4_3.
5. Reddy, B. R., & Mahender, E. (2013). Speech Text conversion using the android platform. International Journal of Engineering Research and
Applications,3(1), 253–258.
6. Kane, S. K., Jayant, C., Wobbroc, J. O., & Ladner, R. E. (2009) Freedom to roam: A study of mobile device adoption and accessibility for people with visual
and motor disabilities. In Proceedings of the 11th international ACM SIGACCESS conference on computers and accessibility, Pittsburgh, Pennsylvania,
USA (pp. 115-122). https://doi.org/10.1145/1639642.1639663.
7. Azenkot, S., Prasain, S., Borning, A., Fortuna, E., Ladner, R. E., & Wobbrock, J. O. (2011) Enhancing independence and safety for blind and deaf-blind
public transit riders. Proceedings of the SIGCHI conference on human factors in computing systems, Vancouver, BC, Canada (pp. 3247–
3256). https://doi.org/10.1145/1978942.1979424.
8. Kaur, S., & Dhindsa, K. S. (2015). Green computing—Saving the environment with intelligent use of computing. CSI Communication,39(5), 14–16.
9. Kane, S. K., Bigham, J. P., & Wobbrock, J. O. (2008). Slide rule: Making mobile touch screens accessible to blind people using multi-touch interaction
techniques. In Proceedings of the 10th international ACM SIGACCESS conference on computers and accessibility, New York, NY, USA (pp. 73–80). https://doi.org/10.1145/1414471.1414487.
10. Baravkar, S. R., Borde, M. R., & Nivangune, M. K. (2013). Android text messaging application for visually impaired people. IRACST-Engineering Science
and Technology: An International Journal,3(1), 58–61.
11. Swamy, S. P., & Gatwadi, M. (2014). Indian sign language interpreter with android implementation. International Journal of Computer Applications,97(13),
36–41.
12. Jadhav, A., & Patil, A. (2012). Android Speech to Text converter for SMS application. IOSR Journal of Engineering,2(3), 420–
423. https://doi.org/10.5120/17067-7484.
13. Mache, S. R., Baheti, M. R., & Mahender, C. M. (2015). Review on text-to-speech. International Journal of Advanced Research in Computer and
Communication,4(8), 54–59. https://doi.org/10.17148/IJARCCE.2015.4812.
14. Malgaonkar, S., Shah, P., Panchal, D., & Pradhan, S. (2016). AWAZ: A bridge between android phones and the visually impaired. International Journal
of Computer Applications,134(1), 42–47. https://doi.org/10.5120/ijca2016907793.
15. Pampattiwar, S. R., & Chhangani, A. Z. (2014). Smartphone accessibility application for visually impaired. International Journal of Research in Advent
Technology,2(4), 377–380.
16. Aher, A., Musale, K., Pagar, S., & Morwal, S. (2014). Implementation of a smart mobile app for the blind and deaf person using morse code. International
Journal of Research in Advent Technology,2(2), 151–154.
17. El Gayyar, M., Yamany, H. F., Gaber, T., & Hassanien, A. E. (2013) Social network framework for deaf and blind people based on cloud computing.
Proceedings of the 2013 Federated conference on computer science and information systems, Krakow, Poland, IEEE Xplore, Electronic ISBN: 978-83-
60810-52-1 (pp. 1301–1307).
18. Yue, W. S., Zin, N. A. M. (2013). Voice recognition and visualization mobile apps game for training and teaching hearing handicapped children. In The 4th
international conference on electrical engineering and informatics, Selangor, Malaysia (Vol. 11, pp. 479–
486). https://doi.org/10.1016/j.protcy.2013.12.218.
19. Mukhopadhyay, D., & Kulkarni, S. (2015). MATHWAY: Offering a mathematical app for visually challenged users. In 4th international conference on
advances in computing, communication, and control, Mumbai (pp. 1–6).
20. Hussain, A., Jomhari, N., Kamal, F. M., & Mohamad, N. (2014). making: Modeling mobile learning game to recite Quran for deaf children. International
Journal on Islamic Application in Computer Science and Technology,2(2), 8–15.
21. Fakrudeen, M., Yousef, S., & Miraz, M. H. (2014). The finger-based technique(FBT): An innovative system for improved usability for blind users’ dynamic
interaction with mobile touch screen devices. In Proceedings of the World Congress on Engineering, London, UK (Vol. 1, pp. 128–
133). https://doi.org/10.13140/2.1.4190.7529.
22. Patel, P. (2014). Why is android not accessible and what is accessibility anyway? https://www.linkedin.com. Accessed on November 09, 2016.
23. Hofstader, C. (2014). Testing android accessibility: I give up. http://chrishofstader.com. Accessed on November 09, 2016.
24. Sharma, D., & Kanwar, R. (2015). Text To Speech conversion with language translator under android environment. International Journal of Emerging
Research in Management and Technology,4(6), 96–100.
25. Vithani, T., & Kumar, A. (2014). Modeling the mobile application development lifecycle. In Proceedings of the international multiconference of engineers
and computer scientists, Hong Kong (pp. 596–600). ISBN: 978-988-19252-5-1, ISSN: 2078-0966 (Online).
In Proceedings of the international peer-reviewed conference, Los Angeles, CA-USA (pp. 7–12). https://doi.org/10.1007/978-3-319-21380-4_2.
2. Kamble, K., & Kagalkar, R. (2014). A review: Translation of Text to Speech conversion for the Hindi Language. International Journal of Science and
Research,3(11), 1027–1031.
3. Kumar, A. S., & Begum, S. (2014). Sign mobiles: An android app for specially-abled people. International Journal of Advanced Research in Computer
Science and Software Engineering,4(9), 208–214.
4. Frey, B., Southern, C., & Romero, M. (2011). BRAILLETOUCH: Mobile texting for the visually impaired. Lecture Notes in Computer Science,6767, 19–
25. https://doi.org/10.1007/978-3-642-21666-4_3.
5. Reddy, B. R., & Mahender, E. (2013). Speech Text conversion using the android platform. International Journal of Engineering Research and
Applications,3(1), 253–258.
6. Kane, S. K., Jayant, C., Wobbroc, J. O., & Ladner, R. E. (2009) Freedom to roam: A study of mobile device adoption and accessibility for people with visual
and motor disabilities. In Proceedings of the 11th international ACM SIGACCESS conference on computers and accessibility, Pittsburgh, Pennsylvania,
USA (pp. 115-122). https://doi.org/10.1145/1639642.1639663.
7. Azenkot, S., Prasain, S., Borning, A., Fortuna, E., Ladner, R. E., & Wobbrock, J. O. (2011) Enhancing independence and safety for blind and deaf-blind
public transit riders. Proceedings of the SIGCHI conference on human factors in computing systems, Vancouver, BC, Canada (pp. 3247–
3256). https://doi.org/10.1145/1978942.1979424.
8. Kaur, S., & Dhindsa, K. S. (2015). Green computing—Saving the environment with intelligent use of computing. CSI Communication,39(5), 14–16.
9. Kane, S. K., Bigham, J. P., & Wobbrock, J. O. (2008). Slide rule: Making mobile touch screens accessible to blind people using multi-touch interaction
techniques. In Proceedings of the 10th international ACM SIGACCESS conference on computers and accessibility, New York, NY, USA (pp. 73–80). https://doi.org/10.1145/1414471.1414487.
10. Baravkar, S. R., Borde, M. R., & Nivangune, M. K. (2013). Android text messaging application for visually impaired people. IRACST-Engineering Science
and Technology: An International Journal,3(1), 58–61.
11. Swamy, S. P., & Gatwadi, M. (2014). Indian sign language interpreter with android implementation. International Journal of Computer Applications,97(13),
36–41.
12. Jadhav, A., & Patil, A. (2012). Android Speech to Text converter for SMS application. IOSR Journal of Engineering,2(3), 420–
423. https://doi.org/10.5120/17067-7484.
13. Mache, S. R., Baheti, M. R., & Mahender, C. M. (2015). Review on text-to-speech. International Journal of Advanced Research in Computer and
Communication,4(8), 54–59. https://doi.org/10.17148/IJARCCE.2015.4812.
14. Malgaonkar, S., Shah, P., Panchal, D., & Pradhan, S. (2016). AWAZ: A bridge between android phones and the visually impaired. International Journal
of Computer Applications,134(1), 42–47. https://doi.org/10.5120/ijca2016907793.
15. Pampattiwar, S. R., & Chhangani, A. Z. (2014). Smartphone accessibility application for visually impaired. International Journal of Research in Advent
Technology,2(4), 377–380.
16. Aher, A., Musale, K., Pagar, S., & Morwal, S. (2014). Implementation of a smart mobile app for the blind and deaf person using morse code. International
Journal of Research in Advent Technology,2(2), 151–154.
17. El Gayyar, M., Yamany, H. F., Gaber, T., & Hassanien, A. E. (2013) Social network framework for deaf and blind people based on cloud computing.
Proceedings of the 2013 Federated conference on computer science and information systems, Krakow, Poland, IEEE Xplore, Electronic ISBN: 978-83-
60810-52-1 (pp. 1301–1307).
18. Yue, W. S., Zin, N. A. M. (2013). Voice recognition and visualization mobile apps game for training and teaching hearing handicapped children. In The 4th
international conference on electrical engineering and informatics, Selangor, Malaysia (Vol. 11, pp. 479–
486). https://doi.org/10.1016/j.protcy.2013.12.218.
19. Mukhopadhyay, D., & Kulkarni, S. (2015). MATHWAY: Offering a mathematical app for visually challenged users. In 4th international conference on
advances in computing, communication, and control, Mumbai (pp. 1–6).
20. Hussain, A., Jomhari, N., Kamal, F. M., & Mohamad, N. (2014). making: Modeling mobile learning game to recite Quran for deaf children. International
Journal on Islamic Application in Computer Science and Technology,2(2), 8–15.
21. Fakrudeen, M., Yousef, S., & Miraz, M. H. (2014). The finger-based technique(FBT): An innovative system for improved usability for blind users’ dynamic
interaction with mobile touch screen devices. In Proceedings of the World Congress on Engineering, London, UK (Vol. 1, pp. 128–
133). https://doi.org/10.13140/2.1.4190.7529.
22. Patel, P. (2014). Why is android not accessible and what is accessibility anyway? https://www.linkedin.com. Accessed on November 09, 2016.
23. Hofstader, C. (2014). Testing android accessibility: I give up. http://chrishofstader.com. Accessed on November 09, 2016.
24. Sharma, D., & Kanwar, R. (2015). Text To Speech conversion with language translator under android environment. International Journal of Emerging
Research in Management and Technology,4(6), 96–100.
25. Vithani, T., & Kumar, A. (2014). Modeling the mobile application development lifecycle. In Proceedings of the international multiconference of engineers
and computer scientists, Hong Kong (pp. 596–600). ISBN: 978-988-19252-5-1, ISSN: 2078-0966 (Online).
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