%0 Conference Paper %1 10051898 %A Fischer, Moritz Benedikt %A Dörner, Sebastian %A Krieg, Felix %A Cammerer, Sebastian %A Brink, Stephan ten %B 2022 56th Asilomar Conference on Signals, Systems, and Computers %D 2022 %K inue myown %P 194-199 %R 10.1109/IEEECONF56349.2022.10051898 %T Adaptive NN-based OFDM Receivers: Computational Complexity vs. Achievable Performance %U https://ieeexplore.ieee.org/document/10051898 %X We revisit the design and retraining capabilities of neural network (NN)-based orthogonal frequency division multiplex (OFDM) receivers that combine channel estimation, equalization and soft-demapping for time-varying and frequencyselective wireless channels. Attracted by the inherent advantages of small NNs in terms of computational complexity during inference and (re-)training, we first analyze the performance of different neural receiver architectures, including versions with reduced complexity. We observe, that such neural receivers with reduced complexity show an expected but graceful degradation in terms of their achievable bit error rate (BER) performance. Further, we focus on the adaptive retraining of site-specific NN-based receivers and show that performance losses due to a reduced number of parameters can be compensated by a continuous retraining of the receiver on-the-fly and that generalization can be achieved through adaptivity. Finally, we propose an improved retraining process via data augmentation and demonstrate a better performance and faster adaptation to current channel conditions.

@inproceedings{10051898, abstract = {We revisit the design and retraining capabilities of neural network (NN)-based orthogonal frequency division multiplex (OFDM) receivers that combine channel estimation, equalization and soft-demapping for time-varying and frequencyselective wireless channels. Attracted by the inherent advantages of small NNs in terms of computational complexity during inference and (re-)training, we first analyze the performance of different neural receiver architectures, including versions with reduced complexity. We observe, that such neural receivers with reduced complexity show an expected but graceful degradation in terms of their achievable bit error rate (BER) performance. Further, we focus on the adaptive retraining of site-specific NN-based receivers and show that performance losses due to a reduced number of parameters can be compensated by a continuous retraining of the receiver on-the-fly and that generalization can be achieved through adaptivity. Finally, we propose an improved retraining process via data augmentation and demonstrate a better performance and faster adaptation to current channel conditions.}, added-at = {2023-09-13T17:33:34.000+0200}, author = {Fischer, Moritz Benedikt and Dörner, Sebastian and Krieg, Felix and Cammerer, Sebastian and Brink, Stephan ten}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/24d1c0dda95df801f7990394b3ef77a33/sdnr}, booktitle = {2022 56th Asilomar Conference on Signals, Systems, and Computers}, doi = {10.1109/IEEECONF56349.2022.10051898}, interhash = {d67a2a5ee3f7585c7e3f77b1d016df22}, intrahash = {4d1c0dda95df801f7990394b3ef77a33}, keywords = {inue myown}, pages = {194-199}, timestamp = {2023-09-13T17:33:34.000+0200}, title = {Adaptive NN-based OFDM Receivers: Computational Complexity vs. Achievable Performance}, url = {https://ieeexplore.ieee.org/document/10051898}, year = 2022 }