Parameter estimation of convolutional and helical interleavers in a noisy environment
Forward error correction (FEC) codes followed by an interleaver play a significant role in improving the error performance of the digital systems by counteracting random and burst errors. In most of the applications, interleaver and FEC code parameters are known at the receiver to successfully de-in...
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sg-ntu-dr.10356-827282020-09-26T22:18:33Z Parameter estimation of convolutional and helical interleavers in a noisy environment Ramabadran, Swaminathan Madhukumar, A. S. Ng, Wee Teck See, Samson Chong Meng School of Computer Science and Engineering Temasek Laboratories Convolutional codes Receivers Forward error correction (FEC) codes followed by an interleaver play a significant role in improving the error performance of the digital systems by counteracting random and burst errors. In most of the applications, interleaver and FEC code parameters are known at the receiver to successfully de-interleave and decode the information bits. However, in certain non-cooperative applications, only partial information about the code and interleaver parameters is known. Further, in cognitive radio applications, an intelligent receiver should adapt itself to the transmission parameters. Hence, there is a need to blindly estimate the FEC code and interleaver parameters in the mentioned applications from the received data stream with the availability of partial knowledge about the transmission parameters at the receiver. In this paper, a blind recognition of convolutional and helical interleaver parameters is carried out using innovative algorithms for unsynchronized, convolutionally encoded data in the presence of bit errors. In addition, the proposed algorithms also estimate the starting bit position for achieving proper synchronization. In a nutshell, it has been observed from the numerical results that the interleaver parameters have been estimated successfully over erroneous channel conditions from the proposed algorithms. Finally, the performances of the proposed algorithms for both the interleavers considering various bit error rate (BER) values have also been analyzed. Published version 2017-05-12T08:41:22Z 2019-12-06T15:04:17Z 2017-05-12T08:41:22Z 2019-12-06T15:04:17Z 2017 2017 Journal Article Ramabadran, S., Madhukumar, A. S., Ng, W. T., & See, S. C. M. (2017). Parameter estimation of convolutional and helical interleavers in a noisy environment. IEEE Access, 5, 6151- 6167. 2169-3536 https://hdl.handle.net/10356/82728 http://hdl.handle.net/10220/42400 10.1109/ACCESS.2017.2684189 197638 en IEEE Access © 2017 IEEE. Translations and content mining are permitted for academic research only. Personal use is also permitted, but republication/redistribution requires IEEE permission. 17 p. application/pdf |
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Convolutional codes Receivers Ramabadran, Swaminathan Madhukumar, A. S. Ng, Wee Teck See, Samson Chong Meng Parameter estimation of convolutional and helical interleavers in a noisy environment |
| description |
Forward error correction (FEC) codes followed by an interleaver play a significant role in improving the error performance of the digital systems by counteracting random and burst errors. In most of the applications, interleaver and FEC code parameters are known at the receiver to successfully de-interleave and decode the information bits. However, in certain non-cooperative applications, only partial information about the code and interleaver parameters is known. Further, in cognitive radio applications, an intelligent receiver should adapt itself to the transmission parameters. Hence, there is a need to blindly estimate the FEC code and interleaver parameters in the mentioned applications from the received data stream with the availability of partial knowledge about the transmission parameters at the receiver. In this paper, a blind recognition of convolutional and helical interleaver parameters is carried out using innovative algorithms for unsynchronized, convolutionally encoded data in the presence of bit errors. In addition, the proposed algorithms also estimate the starting bit position for achieving proper synchronization. In a nutshell, it has been observed from the numerical results that the interleaver parameters have been estimated successfully over erroneous channel conditions from the proposed algorithms. Finally, the performances of the proposed algorithms for both the interleavers considering various bit error rate (BER) values have also been analyzed. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Ramabadran, Swaminathan Madhukumar, A. S. Ng, Wee Teck See, Samson Chong Meng |
| format |
Article |
| author |
Ramabadran, Swaminathan Madhukumar, A. S. Ng, Wee Teck See, Samson Chong Meng |
| author_sort |
Ramabadran, Swaminathan |
| title |
Parameter estimation of convolutional and helical interleavers in a noisy environment |
| title_short |
Parameter estimation of convolutional and helical interleavers in a noisy environment |
| title_full |
Parameter estimation of convolutional and helical interleavers in a noisy environment |
| title_fullStr |
Parameter estimation of convolutional and helical interleavers in a noisy environment |
| title_full_unstemmed |
Parameter estimation of convolutional and helical interleavers in a noisy environment |
| title_sort |
parameter estimation of convolutional and helical interleavers in a noisy environment |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/82728 http://hdl.handle.net/10220/42400 |
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1681058374336118784 |