- Binary space partitioning
Binary space partitioning (BSP) is a method for recursively subdividing a space into
convex sets by hyperplanes. This subdivision gives rise to a representation of the scene by means of a tree data structure known as a BSP tree.
In simpler words, it is a method of breaking up intricately shaped polygons into convex sets, or smaller polygons consisting entirely of non-
reflex angles (angles smaller than 180o). For a more general description of space partitioning, see space partitioning.
Originally, this approach was proposed in
3D computer graphicsto increase the rendering efficiency. Some other applications include performing geometrical operations with shapes ( constructive solid geometry) in CAD, collision detectionin roboticsand 3D computer games, and other computer applications that involve handling of complex spatial scenes.
In computer graphics it is desirable that the drawing of a scene be both correct and quick. A simple way to draw a scene correctly is the
painter's algorithm: draw it from back to front painting the background over with each closer object. However, that approach is quite limited since time is wasted drawing objects that will be overdrawn later, and not all objects will be drawn correctly. Z-bufferingcan ensure that scenes are drawn correctly and eliminate the ordering step of the painter's algorithm, but it is expensive in terms of memory use. BSP trees will split up objects so that the painter's algorithm will draw them correctly without need of a Z-buffer and eliminate the need to sort the objects; as a simple tree traversalwill yield them in the correct order. It also serves as base for other algorithms, such as visibility lists, which seek to reduce overdraw.
The downside is the requirement for a time consuming pre-processing of the scene, which makes it difficult and inefficient to directly implement moving objects into a BSP tree. This is often overcome by using the BSP tree together with a Z-buffer, and using the Z-buffer to correctly merge movable objects such as doors and monsters onto the background scene.
BSP trees are often used by 3D
computer games, particularly first-person shooters and those with indoor environments. Probably the earliest game to use a BSP data structure was "Doom" (see Doom enginefor an in-depth look at "Doom" 's BSP implementation). Other uses include ray tracingand collision detection.
Binary space partitioning is a generic process of recursively dividing a scene into two until the partitioning satisfies one or more requirements. The specific method of division varies depending on its final purpose. For instance, in a BSP tree used for collision detection, the original object would be partitioned until each part becomes simple enough to be individually tested, and in rendering it is desirable that each part be convex so that the
painter's algorithmcan be used.
The final number of objects will inevitably increase since lines or faces that cross the partitioning plane must be split into two, and it is also desirable that the final tree remains reasonably balanced. Therefore the algorithm for correctly and efficiently creating a good BSP tree is the most difficult part of an implementation. In 3D space, planes are used to partition and split an object's faces; in 2D space lines split an object's segments.
The following picture illustrates the process of partitioning an irregular polygon into a series of convex ones. Notice how each step produces polygons with fewer segments until arriving at G and F, which are convex and require no further partitioning. In this particular case, the partitioning line was picked between existing vertices of the polygon and intersected none of its segments. If the partitioning line intersects a segment, or face in a 3D model, the offending segment(s) or face(s) have to be split into two at the line/plane because each resulting partition must be a full, independent object.
Since the usefulness of a BSP tree depends upon how well it was generated, a good algorithm is essential. Most algorithms will test many possibilities for each partition until finding a good compromise and might also keep backtracking information in memory so that if a branch of the tree is found to be unsatisfactory other alternative partitions may be tried. Therefore producing a tree usually requires long computations.
BSP trees were also used to represent natural images. Construction methods of BSP-trees of images were first introduced as efficient representations, where only few hundred nodes can represent an image that normally require hundreds-of-thousands of pixels. Fast algorithms were also developed to construct BST-trees of images using computer vision and signal processing algorithms. These algorithms in conjunction with advanced entropy coding and signal approximation approaches were used to develop image compression methods.
Rendering a scene with visibility information from the BSP tree
BSP trees are used to improve rendering performance in calculating visible triangles for the painter algorithm for instance. The tree can be traversed in linear time from an arbitrary viewpoint.
Since a painter's algorithm works by drawing polygons farthest from the eye first, the following code recurses to the bottom of the tree and draws the polygons. As the recursion unwinds, polygons closer to the eye are drawn over far polygons. Because the BSP tree already splits polygons into trivial pieces, the hardest part of the painter's algorithm is already solved - code for back to front tree traversal. [ [http://web.cs.wpi.edu/~matt/courses/cs563/talks/bsp/document.html Binary Space Partition Trees in 3d worlds ] ]
Other space partitioning structures
BSP trees divide a region of space into two subregions at each node. They are related to
quadtrees and octrees, which divide each region into four or eight subregions, respectively.where "p" is the number of dividing planes used, and "s" is the number of subregions formed.
BSP trees can be used in spaces with any number of dimensions, but quadtrees and octrees are most useful in subdividing 2- and 3-dimensional spaces, respectively. Another kind of tree that behaves somewhat like a quadtree or octree, but is useful in any number of dimensions, is the "k"d-tree.
1969Schumacker published a report that described how carefully positioned planes in a virtual environment could be used to accelerate polygon ordering. The technique made use of depth coherence, which states that a polygon on the far side of the plane cannot, in any way, obstruct a closer polygon.
1980Fuchs et al [FUCH80] refined Schumacker’s idea, and formalised a pre-process that partitions a virtual environment using planes that lie coincident with polygons. The result of the pre-process is a hierarchical polygon database known as a Binary Space Partitioning tree.
1983Fuchs et al discussed the creation of BSP trees and their use in the fast rendering of polygonal objects.
1987Thibault and Naylor outlined how arbitrary polyhedra may be described using a BSP tree as opposed to the traditional b-rep (boundary representation). Set operations were mentioned, enabling the application of Constructive Solid Geometry (CSG).
1990Teller and Séquin proposed the offline generation of potentially visible sets to accelerate visible surface determination in orthogonal 2D environments.
1991Gordon and Chen [CHEN91] described an efficient method of performing front-to-back rendering from a BSP tree, rather than the traditional back-to-front approach. They utilised a special data structure to record, efficiently, parts of the screen that have been drawn, and those yet to be rendered. This was the paper used by John Carmack in the making of "Doom".
1992Teller’s PhD thesis described the efficient generation and use of potentially visible sets for offline visible surface determination in arbitrary 3D polygonal environments.
1993Hayder Radha's PhD thesis described (natural) image representation methods using BSP trees. This includes the development of an optimal BSP-tree construction framework for any arbitrary input image. This framework is based on a new image transform, known as the Least-Square-Error (LSE) Partitioning Line (LPE) transform. H. Radha' thesis also developed an optimal rate-distortion (RD) image compression framework and image manipulation approaches using BSP trees.
* [WINTER99] AN INVESTIGATION INTO REAL-TIME 3D POLYGON RENDERING USING BSP TREES. Andrew Steven Winter. April 1999. available online
* [CHEN91] S. Chen and D. Gordon. “Front-to-Back Display of BSP Trees.” IEEE Computer Graphics & Algorithms, pp 79–85. September 1991.
* [FUCH80] H. Fuchs, Z. M. Kedem and B. F. Naylor. “On Visible Surface Generation by A Priori Tree Structures.” ACM Computer Graphics, pp 124–133. July 1980.
* Section 12: Binary Space Partitions: pp.251–265. Describes a randomized Painter's Algorithm.
* [RADHA93] H. Radha, "Efficient Image Representation using Binary Space Partitioning Trees.", Ph.D. Thesis, Columbia University, 1993.
* [RADHA96] H. Radha, M. Vetterli, and R. Leoonardi, “Image Compression Using Binary Space Partitioning Trees,” IEEE Transactions on Image Processing, vol. 5, No.12, December 1996, pp. 1610-1624.
* [RADHA91] H. Radha, M. Vetterli, and R. Leoonardi, “Fast Piecewise Constant Approximation of Images,” SPIE Visual Communications and Image Processing 1991, vol. 1605, pp. 475-486.
* Christer Ericson: "Real-Time Collision Detection (The Morgan Kaufmann Series in Interactive 3-D Technology)". Verlag "Morgan Kaufmann", S. 349-382, Jahr 2005, ISBN 1-55860-732-3
* [http://www.cs.wpi.edu/~matt/courses/cs563/talks/bsp/bsp.html BSP trees presentation]
* [http://www.cc.gatech.edu/classes/AY2004/cs4451a_fall/bsp.pdf Another BSP trees presentation] (PDF)
* [http://symbolcraft.com/graphics/bsp/ A Java applet which demonstrates the process of tree generation]
* [http://www.gamedev.net/reference/programming/features/bsptree/bsp.pdf A Master Thesis about BSP generating]
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