Difference between revisions of "Time Frequency Resolution In BESA"
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For example, with a time-frequency setting of 1.0 Hz, 50 ms, a sine wave with sharp frequency f will be smoothed to a time-frequency signal that has a full power width at half maximum of 2×1.42 Hz. In other words, at frequencies f ± 1.42 Hz, the displayed power in the time-frequency plot is half of the displayed power at frequency f. A sharp time-event, (e.g. a sharp spike in the time-domain) will be smoothed to a time-frequency signal of 2×78.8 ms full power width at half maximum. | For example, with a time-frequency setting of 1.0 Hz, 50 ms, a sine wave with sharp frequency f will be smoothed to a time-frequency signal that has a full power width at half maximum of 2×1.42 Hz. In other words, at frequencies f ± 1.42 Hz, the displayed power in the time-frequency plot is half of the displayed power at frequency f. A sharp time-event, (e.g. a sharp spike in the time-domain) will be smoothed to a time-frequency signal of 2×78.8 ms full power width at half maximum. | ||
− | + | {| class="wikitable" | |
+ | ! style="font-weight: bold;" | Time-Frequency Sampling | ||
+ | ! style="font-weight: bold;" | 50% Power Drop | ||
+ | ! style="font-weight: bold;" | 50 % Amplitude Drop | ||
+ | |- | ||
+ | | 0.20 Hz / 250 ms | ||
+ | | ±0.283 Hz, ±394 ms | ||
+ | | ±0.397 Hz, ±554 ms | ||
+ | |- | ||
+ | | 0.25 Hz / 200 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 0.5 Hz / 100 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 1.0 Hz / 50 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 2.0 Hz / 25 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 2.5 Hz / 20 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 5.0 Hz / 10 ms | ||
+ | | | ||
+ | | | ||
+ | |- | ||
+ | | 10.0 Hz / 5 ms | ||
+ | | | ||
+ | | | ||
+ | |} | ||
The following two plots show the frequency blurring (left) and the temporal blurring (right) for a time-frequency sampling of 2.0 Hz / 25 ms. When applying a denser frequency sampling, the frequency resolution will increase, and the time resolution will decrease proportionally (i.e. the x-axis scaling will change proportionally). | The following two plots show the frequency blurring (left) and the temporal blurring (right) for a time-frequency sampling of 2.0 Hz / 25 ms. When applying a denser frequency sampling, the frequency resolution will increase, and the time resolution will decrease proportionally (i.e. the x-axis scaling will change proportionally). |
Revision as of 13:53, 7 March 2016
Introduction
The time-frequency resolution of the complex demodulation used in BESA depends on the user-settings for “Frequency and Time Sampling” in the “Coherence” tab of the ERP dialog box. The following table lists the 50% power and amplitude drops, respectively, as a function of the time-frequency sampling setting. Frequencies are given relative to the center frequency of a sharp frequency oscillation, latencies are given to the latency of a sharp time event. For example, with a time-frequency setting of 1.0 Hz, 50 ms, a sine wave with sharp frequency f will be smoothed to a time-frequency signal that has a full power width at half maximum of 2×1.42 Hz. In other words, at frequencies f ± 1.42 Hz, the displayed power in the time-frequency plot is half of the displayed power at frequency f. A sharp time-event, (e.g. a sharp spike in the time-domain) will be smoothed to a time-frequency signal of 2×78.8 ms full power width at half maximum.
Time-Frequency Sampling | 50% Power Drop | 50 % Amplitude Drop |
---|---|---|
0.20 Hz / 250 ms | ±0.283 Hz, ±394 ms | ±0.397 Hz, ±554 ms |
0.25 Hz / 200 ms | ||
0.5 Hz / 100 ms | ||
1.0 Hz / 50 ms | ||
2.0 Hz / 25 ms | ||
2.5 Hz / 20 ms | ||
5.0 Hz / 10 ms | ||
10.0 Hz / 5 ms |
The following two plots show the frequency blurring (left) and the temporal blurring (right) for a time-frequency sampling of 2.0 Hz / 25 ms. When applying a denser frequency sampling, the frequency resolution will increase, and the time resolution will decrease proportionally (i.e. the x-axis scaling will change proportionally).