SOFT SHADOWS USING SP-LINE APPROXIMATION
DOI:
https://doi.org/10.11113/jt.v75.4979Keywords:
Component, augmented reality, shadows, soft shadows, reflective sphereAbstract
Realistic soft shadows are an important factor to enhance the realism of Augmented Reality systems. Without shadows, virtual objects would look floating over the scene resulting unrealistic rendering of AR environment. Little attention has been directed towards balanced trade-off between shadow quality and computational cost. In this study, a new approach is proposed; Quadratic Sp-line Interpolation (QSI) to soften the outline of the shadow. QSI estimates the border of hard shadow samples. In more details, a reflective hemisphere is used to capture real light then to create an environment map. Implementation of the Median Cut algorithm is performed to locate the direction of real light sources on the environment map. Subsequently, the original hard shadows are retrieved and a sample of multilayer hard shadows is produced. The proposed technique is tested by using three samples of multilayer hard shadows with a varied number of light sources that are generated from the Median Cut algorithm. The experimental results show that the proposed technique has successfully produced realistic soft shadows with low computational costs.Â
References
Jacobs, K., C. Angus and C. Loscos. 2005. Automatic Generation of Consistent Shadows for Augmented Reality. In Proceedings Graphics Interface Conference 2005. Victoria, British Columbia, Canada. May 9-11, 2005. 113-120.
Madsen, C. B., M. K. D. Sorensen and M. Vittrup. 2003. The Importance of Shadows in Augmented Reality. In Proceedings of the 6th Annual International Workshop on Presence, Presence 2003. Aalborg, Denmark. October 6-8, 2003. 21.
Sugano, N., H. Kato and K. Tachibana. 2003. The Effects of Shadow Representation of Virtual Objects in Augmented Reality. In Proceedings of 2nd IEEE/ACM International Symposium on Mixed and Augmented Reality (ISMAR 2003). October 7-10, 2003. 76-83.
Sato, I., Y. Sato and K. Ikeuchi. 1999. Acquiring a Radiance Distribution to Superimpose Virtual Objects onto a Real Scene. IEEE Transactions on Visualization and Computer Graphics. 5(1): 1-12.
Naemura, T., T. Nitta, A. Mimura, and H.Harashima. 2002. Virtual Shadows in Mixed Reality Environment using Flashlight-Like Devices. Trans. Virtual Reality Society of Japan. 7(2): 227-237.
Gibson, S., J. Cook, T. Howard, and R. Hubbold. 2003. Rapid Shadow Generation in Real-World Lighting Environments. In Proceedings of Eurographics Symposium on Rendering (EGRW 2003). Belgium. June 25-26, 2003. 219-229.
Haller, M., S. Drab and W. Hartmann. 2003. A Real-Time Shadow Approach for an Augmented Reality Application Using Shadow Volumes. In Proceedings of the ACM Symposium on Virtual Reality Software and Technology (VRST 2003).Osaka, Japan. October 1-3, 2003. 56-65.
Kanbara, M. and N. Yokoya. 2004. Real-Time Estimation of Light Source Environment for Photorealistic Augmented Reality. In Proceedings of the 17th International Conference on Pattern Recognition. Cambridge,United Kingdom. August 23-26, 2004. 911-914.
Hughes, C. E., J. Konttinen, and S. N. Pattanaik. 2004. The Future of Mixed Reality: Issues in Illumination and Shadows. In The Interservice/Industry Training, Simulation and Education Conference (I/ITSEC). 2004(1). National Training Systems Association.
Madsen, C. B. and R. Laursen. 2007. A Scalable GPU-Based Approach to Shading and Shadowing for Photo-Realistic Real-Time Augmented Reality. Braz J., P-P Vasquez, J. Pereira (Eds.). In Proceedings of International Conference on Graphics Theory and Applications (GRAPP 2007). Barcelona, Spain. 252-261. Institute for Systems and Technologies of Information, Control and Communication.
Jensen, B. F., J. S. Laursen, J.B. Madsen, and T.W. Pedersen. 2009. Simplifying Real Time Light Source Tracking and Credible Shadow Generation for Augmented Reality. Institute for Media Technology, Aalborg University.
Gibson, S. and A. Murta. 2000. Interactive Rendering with Real World Illumination, In Proceedings of 11th Eurographics Workshop on Rendering. 365-376.
Yan, F. 2008. Estimation of Light Source Environment For Illumination Consistency of Augmented Reality, In Congress on Image and Signal Processing (CISP 2008). Sanya, China. May 27-30, 2008. 771-775.
Kanbara, M. and N. Yokoya. 2002. Geometric and Photometric Registration for Real-Time Augmented Reality. In International Symposium on Mixed and Augmented Reality (ISMAR 2002). October 1, 2002. 279-280.
Debevec, P. 2005. A Median Cut Algorithm for Light Probe Sampling. In Proceedings of International Conference and Exhibition on Computer Graphics and Interactive Techniques (SIGGRAPH 2005). Los Angeles, California. July 31-August 4, 2005.
Herf, M. and P. S. Heckbert. 1996. Fast Soft Shadows. In Visual Proceedings of International Conference and Exhibition on Computer Graphics and Interactive Techniques (SIGGRAPH 1996). New Orleans, Louisiana USA. August 4-9, 1996. 145.
Kolivand, H. and S. M. Sunar. 2012. Covering Photometric Properties of Outdoor Components with the Effects of Sky Color in Mixed Reality. Multimedia Tools and Applications, Under revision.
Kolivand, H. and S. M. Sunar. 2013. A Survey on Volume Shadows in Computer Graphics. IETE Technical Review. 30(1): 38-46.
Kolivand, H. and S .M. Sunar. 2012. An Overview on Based Real-Time Shadow Techniques in Virtual Environment. TELKOMNIKA Indonesian Journal of Electrical Engineering. 10(1): 171-178.
Carmigniani, J. et al. 2011. Augmented reality Technologies, Systems and Applications. Journal of Multimedia Tools and Applications. 51(1): 341-377.
Nakano, G., I. Kitahara and Y. Ohta. 2008. Generating Perceptually-correct Shadows for Mixed Reality. In Proceedings of the 7th IEEE/ACM International Symposium on Mixed and Augmented Reality (ISMAR 2008). Cambridge, UK. September 15018, 2008. 173-174.
Yeoh, R.C. and S. Z. Zhou. 2009. Consistent Real-time Lighting for Virtual Objects in Augmented Reality. In Proceedings of the 8th IEEE International Symposium on Mixed and Augmented Reality (ISMAR 2009). Orlando, USA. 223-224.
Dimitrov, R. 2007. Cascaded Shadow Maps, Developer Documentation, NVIDIA Corp.
Kolivand H. and S. M. Sunar. 2012. Real-Time Outdoor Rendering using Hybrid Shadow Maps. In International Journal of Innovative Computing, Information and Control (IJICIC). 8(10): 7169-7184.
Ismail I. S. M. Sunar and C. S. Yusof. 2012. Exploring Dynamic Character Motion Techniques for Games Development. The International Journal of Virtual Research. 11(1): 51-57.
Alhajahmad H., F. A. A. Hashish, H. Kolivand, and S. M. Sunar. 2013. An Overview: Image Segmentation Techniques for Geometry and Color Detection in Augmented Reality Environments. Oriental Journal Of Computer Science & Technology. 72(21).
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