Ch 6: Practicalities of EEG Measurement and Experiment Design
This chapter goes over some more practical advice when designing an experiment that will use EEG headsets to collect data
6.1 Designing Experiments: Discuss, Pilot, Discuss, Pilot
It is much more important to have a well designed experiment over having perfectly formatted/low noise data. It is best to discuss experiment ideas with colleagues and do a pilot test run with 1-2 subjects, doing your intended complete set of analysis on the collected pilot data. By doing this, you can find issues with experiment design early, and correct them before you have spent the effort of going through many subjects and trials.
6.2 Event Markers
Event markets are square wave pulses that are sent to the EEG amplifiers on separate channel to denote events. properties of the pulse (such as the amplitude) is used to denote the ID of the event. Event markers are critical to experiments as they time-lock specific event IDs to the EEG output data. It is trivial to ignore / remove excess event markers, but not trivial to "add" them back in after an experiment, so its better to err on having too many. However, many systems do not allow multiple markers to be made simultaneously, so be wary of this during the experiment design phase. Be wary of marker length (as they use square waves).
6.3 Intra- and Intertrial Timing
Due to analysis artifacts and also simply to allow the brain to return to its previous state, it is important that there is enough time between trial events (author recommends several hundred ms).
The timing from one trial to the next trial (not events, called intertrial interval), consider the time needed for baseline normalization, including the time needed due to analysis artifacting. for ERPs, the baseline period ends at the t=0 event, but with the perdiod of time that comes with time-frequency decomposition, you may need 200-500 ms before the event time for normalization, since temporal filtering can cause activity to leak into the time before the actual t-0 event. Generally, the author recommends an intertrial period of 1 second.
These intertrial intervals can be constant, or semi-random, with each having pros and cons. With constant intertrial intervals, the subject may start trying to "guess" the next event and mentally prepare themselves, which can impact the EEG data. While randomized intertrial periods can avoid this, users may try guessing anyways, and be 'surprised' which can again impact the data.
6.4 How Many Trials You Will Need
6.5 How Many Electrodes You Will Need
6.6 Which Sampling Rate to Use When Recording Data
6.7 Other Optional Equipment to Consider