Jim Propp's P-machine, also known as the "rotor router model" is a simple deterministic process that simulates a random walk on a graph. Instead of distributing chips to randomly chosen neighbors, it serves the neighbors in a fixed order. We investigate how well this process simulates a random walk. For the graph being the infinite path, we show that, independent of the starting configuration, at each time and on each vertex, the number of chips on this vertex deviates from the expected number of chips in the random walk model by at most a constant c_1, which is approximately 2.29. For intervals of length L, this improves to a difference of O(log L), for the L_2 average of a contiguous set of intervals even to O(sqrt{log L}). All these boun...
International audiencehe rotor-router model, also called the Propp machine, was introduced as a dete...
The rotor-router model, also called the Propp machine, was introduced as a deterministic alternative...
We quantify the effectiveness of random walks for searching and construction of unstructured peer-to...
Jim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic process tha...
AbstractJim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic pro...
Jim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic process th...
Jim Propp’s P-machine, also known as ‘rotor router model’ is a simple deterministic process that sim...
Jim Propp’s P-machine, also known as ‘rotor router model ’ is a simple deterministic process that si...
Jim Propp’s rotor router model is a deterministic analogue of a random walk on a graph. Instead of d...
The rotor-router model is a simple deterministic analogue of random walk invented by Jim Propp. In...
Jim Propp�s rotor router model is a simple deterministic analogue of a random walk. Instead of distr...
We study two deterministic analogues of random walks. The first is the chip-firing game, a single pl...
Deterministic and randomized balancing schemes are used to distribute workload evenly in networks. ...
AbstractThe Propp Machine is a deterministic process that simulates a random walk. Instead of distri...
International audienceA router configuration on a graph contains in every vertex an infinite ordered...
International audiencehe rotor-router model, also called the Propp machine, was introduced as a dete...
The rotor-router model, also called the Propp machine, was introduced as a deterministic alternative...
We quantify the effectiveness of random walks for searching and construction of unstructured peer-to...
Jim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic process tha...
AbstractJim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic pro...
Jim Propp’s P-machine, also known as the ‘rotor router model’, is a simple deterministic process th...
Jim Propp’s P-machine, also known as ‘rotor router model’ is a simple deterministic process that sim...
Jim Propp’s P-machine, also known as ‘rotor router model ’ is a simple deterministic process that si...
Jim Propp’s rotor router model is a deterministic analogue of a random walk on a graph. Instead of d...
The rotor-router model is a simple deterministic analogue of random walk invented by Jim Propp. In...
Jim Propp�s rotor router model is a simple deterministic analogue of a random walk. Instead of distr...
We study two deterministic analogues of random walks. The first is the chip-firing game, a single pl...
Deterministic and randomized balancing schemes are used to distribute workload evenly in networks. ...
AbstractThe Propp Machine is a deterministic process that simulates a random walk. Instead of distri...
International audienceA router configuration on a graph contains in every vertex an infinite ordered...
International audiencehe rotor-router model, also called the Propp machine, was introduced as a dete...
The rotor-router model, also called the Propp machine, was introduced as a deterministic alternative...
We quantify the effectiveness of random walks for searching and construction of unstructured peer-to...