User Interactivity for Text Visualization System

Authors

  • Samaiya S Bansal Institute of Science and Technology, Bhopal, India
  • Jain Y aypee University of Engineering and Technology, Guna, India
  • Jain P Centre for Development of Advanced Computing, Pune, India

DOI:

https://doi.org/10.26438/ijcse/v6i10.662667

Keywords:

Human Computer Interface (HCI), text visualization, natural language understanding, natural language processing, 3D scene generation, VRML, computer graphics

Abstract

This paper outlines the long-term vision to automate a language-less visualization system for communication with minimum language dependency. It proposes an interactive approach for Preksha, as Hindi text visualizer. Preksha is the process of understanding a natural language, transform the knowledge into a language independent abstract form and rendering a 3D Scene for visualization. Considering linguistic nature as morphologically rich and free-word-order for ‘Hindi’ language, the proposed work offers an approach for user interaction with system, in case of requirement.

References

[1] Jain, P., Bhavsar, R., Kumar, A., Pawar, B. V., Darbari, H. and Bhavsar, V. C.: “Tree Adjoining Grammar based Parser for a Hindi text-to-scene conversion system” in 4th International Conference for Convergence in Technology (I2CT). 2018

[2] Winograd, T.: “Understanding Natural Language”. pp. 1-191. New York: Academic Press. pp. 191. New York: Academic Press, also published in Cognitive Psychology, 3:1, 1970.

[3] Chang, A. X., Savva, M. and Manning. C. D.: “Learning spatial knowledge for text to 3D scene generation” pp. 1-11. In Proceedings of the 2014 Conference on Empirical Methods in Natural Language Processing, EMNLP, 2014.

[4] Clay, S.R., Wilhelms, J.: “Put: Language-based interactive manipulation of objects”. pp. 31-39. In IEEE Computer Graphics and Applications. 1996.

[5] Coyne, B., Sproat, R.: “WordsEye: An automatic text-to-scene conversion system”. pp. 487-496. SIGGRAPH, Computer Graphics Proceedings. 2001.

[6] Dupuy, S., Egges, A., Legendre, V., Nugues, P.: “Generating a 3d simulation of a car accident from a written description in natural language: The carsim system”. pp. 1-8. In Proceedings of ACL Workshop on Temporal and Spatial Information Processing. 2001.

[7] Earley, J.: “An Efficient Context-Free Parsing Algorithm”. pp. 94-102. In Commun. ACM 13(2). 1970.

[8] Hassani, K., and Lee, W. S.: “Visualizing Natural Language Descriptions: A Survey”, In ACM Computing Surveys (CSUR) Surveys Homepage archive, Article No. 17, Volume 49, Issue 1, July 2016.

[9] Jain, P. and Pawar, P.: "From `Pre-Position` to `Post-position`", pp. 66-71. In International Journal of Modern Computer Science (IJMCS) ISSN: 2320-7868 (Online), Volume 4, Issue Oct, 2016.

[10] Jain, P., Bhavsar, R. P., Lele, A. Kumar, A., Pawar, B. P., Darbari, H.: “Knowledge acquisition for automatic text visualization”.In National Conference on Advances in Computing (NCAC-2017). 2017

[11] Jain, P., Darbari, H., and Bhavsar, V, C.: ‘Vishit: A Visualizer for Hindi Text’. pp. 886-890. In Fourth International Conference on Communication Systems and Network Technologies (CSNT), IEEE Xplore. 2014.

[12] Jain, P., Darbari, H., and Bhavsar, V. C.: “Text Visualization as an Aid to Language Learning Disability”, pp. 88. In ELELTECH 2013 National Conference on e-Learning and e-Learning Technologies, India. 2013.

[13] Jain, P., Darbari, H., and Bhavsar, V. C.: “Cognitive support by Language Visualization: A case study with Hindi Language”. pp. 110-115.In 2nd International Conference for Convergence in Technology (I2CT), IEEE Xplore. 2017.

[14] Jain, P., Darbari, H., and Bhavsar, V. C.: “Spatial Intelligence from Hindi Language Text for Scene Generation”. pp. 132-138.In 2nd International Conference for Convergence in Technology (I2CT), IEEE Xplore. 2017.

[15] Jain, P., Pawar, P., Koriya, G., Lele, A., Kumar, A., Darbari, H.: “Knowledge acquisition for Language description from Scene understanding”.In IEEE International Conference on Computer, Communication and Control (IC4-2015) Conference. IEEE explore. 2015.

[16] Jain, P., Bhavsar, R. P., Pawar, B. V. and Darbari, H.: “VRML for automatic generation of 3D Scene”. In International Journal of Computer Application (2250-1797) Issue 8 Volume 2, March-April 2018.

[17] Joshi, A. K., Levy, L. S., and Takahashi, M.: “Tree Adjunct Grammars”. In J. Comput. Syst. Sci. 10(1). 1975.

[18] Jain, P., Bhavsar, R. P., Pawar, B. V. and Darbari, H.: “Empirical Evaluation for Hindi text-to-scene generation system” in International Journal of Creative Research Thought © 2018 IJCRT | ISSN: 2320-2882 | Volume 6, Issue 1 February 2018

[19] Ma, M.: (2006), ‘Automatic conversion of natural language to 3D animation’. Ph.D. thesis, University of Ulster, Derry, Ireland, pp. 1-250.

[20] B. Senthil Kumar, Jaya Prakash D, "A Study on The Relationships Between The Virtual Reality & Learning", International Journal of Computer Sciences and Engineering, Vol.6, Issue.7, pp.966-969, 2018.

[21] Y. Galphat, M. Gangwani, A. Bhave, B.S. Chadha, S. Adnani, "Integrating BCI with Virtual Reality", International Journal of Computer Sciences and Engineering, Vol.6, Issue.1, pp.129-131, 2018.

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Published

2025-11-17
CITATION
DOI: 10.26438/ijcse/v6i10.662667
Published: 2025-11-17

How to Cite

[1]
S. Samaiya, Y. Jain, and P. Jain, “User Interactivity for Text Visualization System”, Int. J. Comp. Sci. Eng., vol. 6, no. 10, pp. 662–667, Nov. 2025.

Issue

Vol. 6 No. 10 (2018): IJCSE October Edition

Section

Research Article

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