We study natural examples of binary channels with synchronization errors. These include the duplication channel, which independently outputs a given bit once or twice, and geometric channels that repeat a given bit according to a geometric rule, with or without the possibility of bit deletion. We apply the general framework of Cheraghchi (STOC 2018) to obtain sharp analytical upper bounds on the capacity of these channels. Previously, upper bounds were known via numerical computations involving the computation of finite approximations of the channels by a computer and then using the obtained numerical results to upper bound the actual capacity. While leading to sharp numerical results, further progress on the full understanding of the chann...
We develop an information theoretic characterization and a practical coding approach for segmented d...
Motivated by generating information stable processes greedily, we prove a universal maximum likeliho...
We develop several analytical lower bounds on the capacity of binary insertion and deletion channels...
In this thesis, we study aspects of coding against synchronisation errors, such as deletions and rep...
Cataloged from PDF version of article.We study memoryless channels with synchronization errors as d...
We study memoryless channels with synchronization errors as defined by a stochastic channel matrix a...
Abstract—We consider a new formulation of a class of syn-chronization error channels and derive anal...
We derive an upper bound on the capacity of non-binary deletion channels. Although binary deletion c...
We develop a systematic approach, based on convex programming and real analysis, for obtaining upper...
In this paper, we offer an alternative look at channels with deletion errors by considering equivale...
In this paper, we develop bounds on the achievable rate for deletion channels. Deletion channels occ...
We develop several lower bounds on the capacity of binary input symmetric output channels with synch...
Cataloged from PDF version of article.We develop several lower bounds on the capacity of binary inpu...
Abstract—We present two upper bounds on the capacity of the i.i.d. binary deletion channel, where ea...
We consider binary deletion channels with a segmentation assumption which appears to be suited for m...
We develop an information theoretic characterization and a practical coding approach for segmented d...
Motivated by generating information stable processes greedily, we prove a universal maximum likeliho...
We develop several analytical lower bounds on the capacity of binary insertion and deletion channels...
In this thesis, we study aspects of coding against synchronisation errors, such as deletions and rep...
Cataloged from PDF version of article.We study memoryless channels with synchronization errors as d...
We study memoryless channels with synchronization errors as defined by a stochastic channel matrix a...
Abstract—We consider a new formulation of a class of syn-chronization error channels and derive anal...
We derive an upper bound on the capacity of non-binary deletion channels. Although binary deletion c...
We develop a systematic approach, based on convex programming and real analysis, for obtaining upper...
In this paper, we offer an alternative look at channels with deletion errors by considering equivale...
In this paper, we develop bounds on the achievable rate for deletion channels. Deletion channels occ...
We develop several lower bounds on the capacity of binary input symmetric output channels with synch...
Cataloged from PDF version of article.We develop several lower bounds on the capacity of binary inpu...
Abstract—We present two upper bounds on the capacity of the i.i.d. binary deletion channel, where ea...
We consider binary deletion channels with a segmentation assumption which appears to be suited for m...
We develop an information theoretic characterization and a practical coding approach for segmented d...
Motivated by generating information stable processes greedily, we prove a universal maximum likeliho...
We develop several analytical lower bounds on the capacity of binary insertion and deletion channels...