IJSRSET calls volunteers interested to contribute towards the scientific development in the field of Science, Engineering and Technology

Home > IJSRSET1844205                                                     

Augmented Reality Based Measurement Application


Ishan Ladole, Kunal Dalal, Puja Dabade, Nikhita Taksande, Neha Thakre, Prof. M. S. Nimbarte
  • Abstract
  • Authors
  • Keywords
  • References
  • Details
This paper is to create an Augmented Reality Based Measurement application ie. object distance measurement using android studio, and simple mobile camera in order to measure object distance. The technologies nowadays are very highly developed and it may give our lives a new interface and thus make it more accurate. One of the technologies that able to do so is the Augmented Reality (AR) technology. Traditionally, we have used common measurement tools such as rulers, robots, and lasers to measure objects. The drawbacks of such measurement could led to the high maintenance cost, consuming lot of times, and human resource. Hence, it is important to have new technology such as Augmented Reality (AR) system that could help to minimize the cost and increase the accuracy of measurement.

Ishan Ladole, Kunal Dalal, Puja Dabade, Nikhita Taksande, Neha Thakre, Prof. M. S. Nimbarte

Augmented Reality , Virtual Reality , Measurement , ASA Algorithm.

  1. Rahul Swaminathan, Robert Schleicher, Simon Burkard, Renato Agurto, Steven Kolec zkoTelekom Innovation Laboratories and Technische Universität Berlin Ernst-Reuter-Platz 7, 10587 Berlin, Germany.” Happy Measure: Augmented Reality for Mobile Virtual Furnishing.”
  2. MEASURING USING AUGMENTED REALITY APPLICATION by Fakulti Kejuruteraan Elektronik dan Kejuruteraan Komputer Universiti Teknikal Malaysia Melaka 2014.
  3. De Sa, M., Churchill, E. F., & Isbister, K. Mobile augmented reality. Proceedings of the 13th International Conference on Human Computer Interaction with Mobile Devices and Services - MobileHCI ’11 (p. 749). New York, New York, USA: ACM Press. doi:10.1145/2073 3.2037504B.
  4. Widgor, D., & Wixon, D. (2011). Brave NUI World - Designing Natural User Interfaces for Touch and Gesture. Burlington, MA: Morgan Kaufmann Publishers.
  5. C. J. Kaufman, Rocky Mountain Research Lab., Boulder, CO, private communication, May 1995.
  6. Pan, Q., Reitmayr, G., & Drummond, T. ProFORMA: Probabilistic Feature-based Online Rapid Model Acquisition. Procedings of the British Machine Vision Conference 2009 (pp. 112.1–112.11). British Machine Vision Association. doi:10.5244/C.23.112
  7. R. T. Azuma. Predictive tracking for augmented reality. Technical Report TR95-007 Department of Computer Science University of North Carolina - Chapel Hill.
  8. G. Borgefors. Distance transformations in digital images. Computer Vision Graphics and Image Processing 34:344-371 1986.
  9. T. Hollerer J. Wither and S. DiVerdi. Anywhere Augmentation: Towards Mobile Augmented Reality in Unprepared Environments. Lecture Notes in Geoinformation and Cartography. Springer Verlag 2007.
  10. G. Reitmayr and T. W. Drummond. Going out: Robust model-based tracking for outdoor augmented reality. In IEEE/ACM International Symposium on Mixed and Augmented Reality pages 109-118 2006.

Publication Details

Published in : Volume 4 | Issue 7 | March-April - 2018
Date of Publication Print ISSN Online ISSN
2018-03-30 2395-1990 2394-4099
Page(s) Manuscript Number   Publisher
131-133 IJSRSET1844205   Technoscience Academy

Cite This Article

Ishan Ladole, Kunal Dalal, Puja Dabade, Nikhita Taksande, Neha Thakre, Prof. M. S. Nimbarte, "Augmented Reality Based Measurement Application", International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 4, Issue 7, pp.131-133, March-April-2018.
URL : http://ijsrset.com/IJSRSET1844205.php