On the decoding bit error probability for binary convolutional codes

Johannesson, Rolf; Massey, James L.; Ståhl, Per

On the decoding bit error probability for binary convolutional codes

Mark

Johannesson, Rolf ^LU ; Massey, James L. ^LU and Ståhl, Per ^LU (2000) 2000 International Symposium on Information Theory p.398-398

Abstract: An explanation is given for the paradoxical fact that, at low signal-to-noise ratios, the systematic feedback encoder results in fewer decoding bit errors than does a nonsystematic feedforward encoder for the same code. The analysis identifies a new code property, the d-distance weight density of the code. For a given d-distance weight density, the decoding bit error probability depends on the number of taps in the realization of the encoder inverse. Among all encoders for a given convolutional code, the systematic one has the simplest encoder inverse and, hence, gives the smallest bit error probability

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/1057092

author

Johannesson, Rolf ^LU ; Massey, James L. ^LU and Ståhl, Per ^LU

organization

Department of Electrical and Information Technology

publishing date

2000

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Electrical Engineering, Electronic Engineering, Information Engineering

host publication

[Host publication title missing]

pages

398 - 398

conference name

2000 International Symposium on Information Theory

conference location

Sorrento, Italy

conference dates

2000-06-21 - 2000-06-25

external identifiers

scopus:0034449221

ISBN

0-7803-5857-0

DOI

10.1109/ISIT.2000.866696

language

English

LU publication?

yes

id

3efd3f4a-6f57-42e9-ab32-a21746693f3d (old id 1057092)

date added to LUP

2016-04-04 14:00:23

date last changed

2022-01-30 01:18:03

@inproceedings{3efd3f4a-6f57-42e9-ab32-a21746693f3d,
  abstract     = {{An explanation is given for the paradoxical fact that, at low signal-to-noise ratios, the systematic feedback encoder results in fewer decoding bit errors than does a nonsystematic feedforward encoder for the same code. The analysis identifies a new code property, the d-distance weight density of the code. For a given d-distance weight density, the decoding bit error probability depends on the number of taps in the realization of the encoder inverse. Among all encoders for a given convolutional code, the systematic one has the simplest encoder inverse and, hence, gives the smallest bit error probability}},
  author       = {{Johannesson, Rolf and Massey, James L. and Ståhl, Per}},
  booktitle    = {{[Host publication title missing]}},
  isbn         = {{0-7803-5857-0}},
  language     = {{eng}},
  pages        = {{398--398}},
  title        = {{On the decoding bit error probability for binary convolutional codes}},
  url          = {{https://lup.lub.lu.se/search/files/6257743/1059351.pdf}},
  doi          = {{10.1109/ISIT.2000.866696}},
  year         = {{2000}},
}

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On the decoding bit error probability for binary convolutional codes