apply_baseline ( baseline, mode = 'mean', verbose = None ) #īaseline correct the data. Returns : inst instance of Raw | Epochs | Evoked If a name is provided, a corresponding channel is addedĪnd its data is set to 0. Name of the electrode(s) which served as the reference in the Parameters : ref_channels str | list of str These added channels will consist of all zeros. This is useful when you need to re-reference your data add_reference_channels ( ref_channels ) #Īdds reference channels to data that were not included during mmap instance, the memmap will be resized. If self is a Raw instance that has been preloaded into a Whether or not the instance contains the given channel type.Ĭhannel type membership can be tested as: Parameters : ch_type strĬhannel type to check for. _contains_ ( ch_type ) #Ĭheck channel type membership. To_data_frame()Įxport data in tabular structure as a pandas DataFrame.Īdd instances. Shift time scale in epoched or evoked data. Plot topographic maps of time-frequency intervals of TFR data. Plot TFRs as a two-dimensional image with topomaps. Get a list of channel type for each channel. method str | None, default NoneĬomment on the method used to compute the data, e.g., morlet wavelet.Īdd_channels(add_list)Īdd reference channels to data that consists of all zeros.Īpply_baseline(baseline)Ĭrop()Ĭrop data to a given time interval in place. freqs ndarray, shape (n_freqs,)Ĭomment on dataset. data ndarray, shape (n_channels, n_freqs, n_times) The mne.Info object with information about the sensors and methods of measurement. verbose bool | str | int | NoneĬontrol verbosity of the logging output. method str | None, default NoneĬomment on the method used to compute the data, e.g., morlet wavelet. comment str | None, default NoneĬomment on the data, e.g., the experimental condition. AverageTFR ( info, data, times, freqs, nave, comment = None, method = None, verbose = None ) #Ĭan for example store induced power at sensor level or inter-trial The LTE-Lite SMT Module is available in an easy-to-use evaluation kit form that includes all accessories to operate the _frequency.AverageTFR # class mne.time_frequency. Providing true 5Hz GPS NMEA messaging allows for very precise positioning in UAV and other mobile applications. The LTE-Lite also provides a proprietary NMEA message with oscillator lock-status and health information, with the same information being mirrored on the TTL status outputs for applications without serial interface. The LTE-Lite provides all the standard NMEA output messages at rates of 1Hz or 5Hz. The LTE-Lite provides better than one part per billion frequency accuracy and better than 10 nanoseconds timing accuracy on average in a small SMT form factor that suits itself to high volume mass production products at cost points amendable to low-cost Small-Cell manufacturers. The LTE-Lite time and frequency reference provides GNSS time and frequency synchronization for cost-sensitive network equipment, in particular LTE 4G applications and Small Cell products from Micro Cells to Femto Cells. The LTE-Lite uses true analog crystal disciplining for superior phase noise and jitter performance. The breakthrough LTE-Lite Frequency and Timing SMT module integrates a GPS receiver, filtered power supplies, and a software-disciplined crystal oscillator into a 0.7 x 1.18 inch footprint GPSDO SMT module. Full NMEA output with 1Hz and 5Hz PVT update rates, and oscillator lock status message.Support for disciplining external oscillators including CSAC.Two independent frequency outputs (one synthesized).3.3V operation, very low power consumption, and TTL strap configuration.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |