Modelling and Rendering of Architectural Scenes


Description:

We present a novel approach for multilevel modelling and rendering of architectural scenes using a small set of photographs. Our approach is based on interactive probing of intuitive measures like lengths, widths and heights from single view metrology. These measures can then be aggregated with additional input if need be, for defining high-level primitives such as planes, prismatic blocks, cuboids, spheres, and general surfaces of translation and revolution. The modelling approach is modular and incremental which enables ease and flexibility in building large architectural scenes. Further, our approach allows multilevel modelling and rendering. That is, the model can be enhanced/reduced both in terms of changing details at the primitive level and at the model level. This requires inter-registration of two or more images with common contents. Our approach is computationally simple, fast and robust. We demonstrate our results by building a model of a magnificent historical monument in Delhi - Humayun s tomb.

Results

Input images

Far-view of the monument Near-view of the front face

Videos

  1. A walk-through of the monument (AVI, 18 MB)
  2. A narration of the entire process of modelling and rendering (AVI, 11Mb)
Note:
  1. These files are in DIVX encoded format.
  2. If the movies do not play in windows media player, you probably need to download a divx codec from www.divx.com (the recommended player is DIVX Player 2.0 alpha)
  3. To play in Linux, the recommended software is mplayer. The necessary RPMS can be downloaded from mplayer homepage.

Reconstructed wire-frame model

Reconstructed wire-frame model Reconstructed wire-frame model of the mainface

Snapshots from a walk-through sequence

A Rendered view Another Rendered view

Technical Report:

  1. Multilevel modelling and rendering of architectural scenes.

People:

Akash Kushal, Gaurav Chanda, Kanishka Shrivastava, Mohit Gupta, Subhajit Sanyal,T. V. N. Sriram, Prem Kalra and Subhashis Banerjee.

Vision and Graphics Lab, Department of Computer Science and Engineering, IIT Delhi, 2002.