On-Line and Off-Line Approximation Algorithms for Vector Covering Problems

This paper deals with vector covering problems in d-dimensional space. The input to a vector covering problem consists of a set X of d-dimensional vectors in (0; 1)d. The goal is to partition X into a maximum number of parts, subject to the constraint that in every part the sum of all vectors is at least one in every coordinate. This problem is known to be NP-complete, and we are mainly interested in its on-line and o-line approximability. For the on-line version, we construct approximation algorithms with worst case guarantee arbitrarily close to 1=(2d) in d 2 dimensions. This result contradicts a statement of Csirik and Frenk (1990) in (5) where it is claimed that for d 2, no on-line algorithm can have a worst case ratio better than zero. Moreover, we prove that ford 2, no on-line algorithm can have worst case ratio better than 2=(2d + 1). For the o-line version, we derive polynomial time approximation algorithms with worst case guarantee