We consider the problem of covering arbitrary polygons with rectangles. The rectangles must lie entirely within the polygon. (This requires that the interior angles of the polygon are all greater than or equal to 90 degrees.) We want to cover the polygon with as few rectangles as possible. This problem has an application in fabricating masks for integrated circuits. In this paper we will describe the first polynomial algorithm, guaranteeing an O(log n) approximation factor, provided that the n vertices of the input polygon are given as polynomially bounded integer coordinates. By the same technique we also obtain the first algorithm producing a covering which is within a constant factor of the optimal in exponential time (compared to the do...
AbstractThe problem of covering a polygon with convex polygons has proven to be very difficult, even...
We present approximation algorithms with O(n3) processing time for the minimum vertex and edge guard...
A well-known and well-investigated family of hard op- timization problems concerns variants of the ...
We consider the problem of covering arbitrary polygons with rectangles. The rectangles must lie enti...
Abstract. We consider the problem of covering an orthogonal polygon with a minimum number of axis-pa...
We give an $O(\sqrt{\log n})$ factor approximation algorithm for covering a rectilinear polygon with...
We give an $O(\sqrt{\log n})$ factor approximation algorithm for covering a rectilinear polygon with...
Decomposing a polygon into simple shapes is a basic problem in computational geometry, with applicat...
Covering a polygon by a set of rectangles has many applications in the VLSI CAD area. In this thesis...
We consider the problem of covering an orthogonal polygon with a minimum number of axis-parallel rec...
We show a constant factor approximation algorithm for interior guarding ofmonotone polygons. Using t...
I hereby declare that I am the sole author of this thesis. This is a true copy of the thesis, includ...
Abstract We present the first constant-factor approximation algorithm for a non-trivial instance of ...
Many applications like picture processing, data compression or pattern recognition require a coverin...
Abstract. For a polygon P with n vertices, the vertex guarding problem asks for the minimum subset G...
AbstractThe problem of covering a polygon with convex polygons has proven to be very difficult, even...
We present approximation algorithms with O(n3) processing time for the minimum vertex and edge guard...
A well-known and well-investigated family of hard op- timization problems concerns variants of the ...
We consider the problem of covering arbitrary polygons with rectangles. The rectangles must lie enti...
Abstract. We consider the problem of covering an orthogonal polygon with a minimum number of axis-pa...
We give an $O(\sqrt{\log n})$ factor approximation algorithm for covering a rectilinear polygon with...
We give an $O(\sqrt{\log n})$ factor approximation algorithm for covering a rectilinear polygon with...
Decomposing a polygon into simple shapes is a basic problem in computational geometry, with applicat...
Covering a polygon by a set of rectangles has many applications in the VLSI CAD area. In this thesis...
We consider the problem of covering an orthogonal polygon with a minimum number of axis-parallel rec...
We show a constant factor approximation algorithm for interior guarding ofmonotone polygons. Using t...
I hereby declare that I am the sole author of this thesis. This is a true copy of the thesis, includ...
Abstract We present the first constant-factor approximation algorithm for a non-trivial instance of ...
Many applications like picture processing, data compression or pattern recognition require a coverin...
Abstract. For a polygon P with n vertices, the vertex guarding problem asks for the minimum subset G...
AbstractThe problem of covering a polygon with convex polygons has proven to be very difficult, even...
We present approximation algorithms with O(n3) processing time for the minimum vertex and edge guard...
A well-known and well-investigated family of hard op- timization problems concerns variants of the ...