We consider the problem of designing a simple, oblivious scheme to generate (almost) random permutations. We use the concept of switching networks and show that almost every switching network of logarithmic depth can be used to almost randomly permute any set of (1-ε) n elements with any ε > 0 (that is, gives an almost (1-ε) n$-wise independent permutation). Furthermore, we show that the result still holds for every switching network of logarithmic depth that has some special expansion properties, leading to an explicit construction of such networks. Our result can be also extended to an explicit construction of a switching network of depth O(log2n) and with O(n log n) switches that almost randomly permutes any set of n elements. We also di...
[[abstract]]In this paper, we present a new model, finite permutation machine (FPM), to describe the...
Abstract Constructions of k-wise almost independent permutations have been receiving a growingamount...
International audienceThe concept of randomness is fundamental in many domains and in particular in ...
A switching network of depth d is a layered graph with d layers and n vertices in each layer. The ed...
A switching network of depth d is a layered graph with d layers and n vertices in each layer. The ed...
We consider the problem of generating random permutations with the uniform distribution. That is, w...
The set of input-output permutations that are routable through a multistage interconnection network ...
AbstractWe study the random composition of a small family of O(n3) simple permutations on {0,1}n. Sp...
The question of how to construct optimally efficient secure protocols is a central question in crypt...
Thorp shuffle is a simple model for a random riffle shuffle that for many years has eluded good anal...
We introduce an algorithm generating uniformly distributed random alternating permutations of length...
Abstract. We introduce and study the iterated random permutation problem, which asks how hard it is ...
Abstract. We show the first positive results for the indifferentiability security of the confusion-d...
The switching model is a well-known random network model that randomizes a network while keeping its...
Abstract We show how to construct pseudo-random permutations that satisfy a certain cycle restrictio...
[[abstract]]In this paper, we present a new model, finite permutation machine (FPM), to describe the...
Abstract Constructions of k-wise almost independent permutations have been receiving a growingamount...
International audienceThe concept of randomness is fundamental in many domains and in particular in ...
A switching network of depth d is a layered graph with d layers and n vertices in each layer. The ed...
A switching network of depth d is a layered graph with d layers and n vertices in each layer. The ed...
We consider the problem of generating random permutations with the uniform distribution. That is, w...
The set of input-output permutations that are routable through a multistage interconnection network ...
AbstractWe study the random composition of a small family of O(n3) simple permutations on {0,1}n. Sp...
The question of how to construct optimally efficient secure protocols is a central question in crypt...
Thorp shuffle is a simple model for a random riffle shuffle that for many years has eluded good anal...
We introduce an algorithm generating uniformly distributed random alternating permutations of length...
Abstract. We introduce and study the iterated random permutation problem, which asks how hard it is ...
Abstract. We show the first positive results for the indifferentiability security of the confusion-d...
The switching model is a well-known random network model that randomizes a network while keeping its...
Abstract We show how to construct pseudo-random permutations that satisfy a certain cycle restrictio...
[[abstract]]In this paper, we present a new model, finite permutation machine (FPM), to describe the...
Abstract Constructions of k-wise almost independent permutations have been receiving a growingamount...
International audienceThe concept of randomness is fundamental in many domains and in particular in ...