论文信息 - Motion Planning with Pulley, Rope, and Baskets

Motion Planning with Pulley, Rope, and Baskets

We study a motion planning problem where items have to be transported from the top room of a tower to the bottom of the tower, while simultaneously other items have to be transported into the opposite direction. Item sets are moved in two baskets hanging on a rope and pulley. To guarantee stability of the system, the weight difference between the contents of the two baskets must always stay below a given threshold. We prove that it is Pi-2-p-complete to decide whether some given initial situation of the underlying discrete system can lead to a given goal situation. Furthermore we identify several polynomially solvable special cases of this reachability problem, and we also settle the computational complexity of a number of related questions.

Gerhard J. Woeginger | Christian Eggermont | G. Woeginger | C. Eggermont

[1] Hans Kellerer,et al. Knapsack problems , 2004 .

[2] Laurence A. Wolsey,et al. Integer Knapsack and Flow Covers with Divisible Coefficients: Polyhedra, optimization and Separation , 1995, Discret. Appl. Math..

[3] Edward G. Coffman,et al. Bin packing with divisible item sizes , 1987, J. Complex..

[4] Leslie E. Trotter,et al. When the Greedy Solution Solves a Class of Knapsack Problems , 1975, Oper. Res..