This is a methodological guide to the use of deep neural networks in the processing of pulsed dipolar spectroscopy (PDS) data encountered in structural biology, organic photovoltaics, photosynthesis research, and other domains featuring long-lived radical pairs and paramagnetic metal ions. PDS uses distance dependence of magnetic dipolar interactions; measuring a single well-defined distance is straightforward, but extracting distance distributions is a hard and mathematically ill-posed problem requiring careful regularisation and background fitting. Neural networks do this exceptionally well, but their “robust black box” reputation hides the complexity of their design and training – particularly when the training dataset is effectively inf...
We show that artificial neural networks offer a powerful alternative to the established procedures f...
Light-induced pulsed EPR dipolar spectroscopic methods allow the determination of nanometer distance...
Dipolar electron paramagnetic resonance (EPR) spectroscopy (DEER and other techniques) enables the s...
This is a methodological guide to the use of deep neural networks in the processing of pulsed dipola...
This work was funded by a grant from Leverhulme Trust (RPG-2019-048). Studentship funding and techni...
The established model-free methods for the processing of two-electron dipolar spectroscopy data [DEE...
Pribitzer S, Sajid M, Huelsmann M, Godt A, Jeschke G. Pulsed triple electron resonance (TRIER) for d...
Pre-trained model for DTNN and CNN. related to 10.1002/advs.201801367 Pretrained DTNN model to pre...
Multivariate calibration based on a suitable experimental design (ED) and soft modelling with artifi...
Measuring distances in biology at the molecular level is of great importance for understanding the s...
Knowledge of structure does not imply understanding of function of biological systems, but understan...
A general method is presented for automatically analyzing in-vivo NMR spectroscopic data. The method...
| openaire: EC/H2020/676580/EU//NoMaDDeep learning methods for the prediction of molecular excitatio...
Pulsed electron electron double resonance techniques such as the four−pulse double electron−electron...
Pulsed electron-electron double resonance techniques such as the four-pulse double electron-electron...
We show that artificial neural networks offer a powerful alternative to the established procedures f...
Light-induced pulsed EPR dipolar spectroscopic methods allow the determination of nanometer distance...
Dipolar electron paramagnetic resonance (EPR) spectroscopy (DEER and other techniques) enables the s...
This is a methodological guide to the use of deep neural networks in the processing of pulsed dipola...
This work was funded by a grant from Leverhulme Trust (RPG-2019-048). Studentship funding and techni...
The established model-free methods for the processing of two-electron dipolar spectroscopy data [DEE...
Pribitzer S, Sajid M, Huelsmann M, Godt A, Jeschke G. Pulsed triple electron resonance (TRIER) for d...
Pre-trained model for DTNN and CNN. related to 10.1002/advs.201801367 Pretrained DTNN model to pre...
Multivariate calibration based on a suitable experimental design (ED) and soft modelling with artifi...
Measuring distances in biology at the molecular level is of great importance for understanding the s...
Knowledge of structure does not imply understanding of function of biological systems, but understan...
A general method is presented for automatically analyzing in-vivo NMR spectroscopic data. The method...
| openaire: EC/H2020/676580/EU//NoMaDDeep learning methods for the prediction of molecular excitatio...
Pulsed electron electron double resonance techniques such as the four−pulse double electron−electron...
Pulsed electron-electron double resonance techniques such as the four-pulse double electron-electron...
We show that artificial neural networks offer a powerful alternative to the established procedures f...
Light-induced pulsed EPR dipolar spectroscopic methods allow the determination of nanometer distance...
Dipolar electron paramagnetic resonance (EPR) spectroscopy (DEER and other techniques) enables the s...