In this paper we consider two-party communication complexity, the ‘‘asymmetric case’’, when the input sizes of the two players differ significantly. Most of previous work on communication complexity only considers the total number of bits sent, but we study trade-offs between the number of bits the first player sends and the number of bits the second sends. These types of questions are closely related to the complexity of static data structure problems in the cell probe model. We derive two generally applicable methods of proving lower bounds and obtain several applications. These applications include new lower bounds for data structures in the cell probe model. Of particular interest is our ‘‘round elimination’ ’ lemma, which is interestin...
Communication is a universal process by which two or more individuals exchange information. A commun...
This lecture builds on the material from our first lecture, providing more tools for studying commun...
In this paper we study the individual communication complexity of the following problem. Alice recei...
In this paper we consider two-party communication complexity, the ‘‘asymmetric case’’, when the inpu...
AbstractIn this paper we consider two-party communication complexity, the “asymmetric case”, when th...
In this paper we consider two party communication complexity when the input sizes of the two players...
In this chapter we survey the theory of two-party communication complexity. This field of theoretica...
We study the relationship between communication and information in 2-party communication protocols w...
In this paper we prove lower bounds on randomized multiparty communication complexity, both in the b...
Thesis (Ph.D.)--University of Washington, 2020In this thesis, we study basic lower bound questions i...
Title: Communication Complexity Author: Vojtěch Wagner Department: Department of Algebra Supervisor:...
AbstractWe derive a general technique for obtaining lower bounds on the multiparty communication com...
In the past thirty years, Communication Complexity has emerged as a foundational tool to proving low...
Abstract The cell probe model is a general, combinatorial model of data structures. We give a survey...
We study the communication complexity of the SHIFT (equivalently, SUM-INDEX) function in a 3-party s...
Communication is a universal process by which two or more individuals exchange information. A commun...
This lecture builds on the material from our first lecture, providing more tools for studying commun...
In this paper we study the individual communication complexity of the following problem. Alice recei...
In this paper we consider two-party communication complexity, the ‘‘asymmetric case’’, when the inpu...
AbstractIn this paper we consider two-party communication complexity, the “asymmetric case”, when th...
In this paper we consider two party communication complexity when the input sizes of the two players...
In this chapter we survey the theory of two-party communication complexity. This field of theoretica...
We study the relationship between communication and information in 2-party communication protocols w...
In this paper we prove lower bounds on randomized multiparty communication complexity, both in the b...
Thesis (Ph.D.)--University of Washington, 2020In this thesis, we study basic lower bound questions i...
Title: Communication Complexity Author: Vojtěch Wagner Department: Department of Algebra Supervisor:...
AbstractWe derive a general technique for obtaining lower bounds on the multiparty communication com...
In the past thirty years, Communication Complexity has emerged as a foundational tool to proving low...
Abstract The cell probe model is a general, combinatorial model of data structures. We give a survey...
We study the communication complexity of the SHIFT (equivalently, SUM-INDEX) function in a 3-party s...
Communication is a universal process by which two or more individuals exchange information. A commun...
This lecture builds on the material from our first lecture, providing more tools for studying commun...
In this paper we study the individual communication complexity of the following problem. Alice recei...