In this article we will dip into common analysis goals for hyperscanning and why they are relevant for research fields such as social neuroscience. We will focus on dealing with multi-participant datasets and inter-brain connectivity in BrainVision Analyzer 2 helping you to complete your hyperscanning analysis.
After E-Prime, Presentation, and Experiment Builder, we now introduce the integration of code in PsychoPy that allows you to remotely control BrainVision Recorder directly from the Python-based open source stimulus presentation software.
In this part of our peripheral physiology series we introduce ECG measurement using BrainAmp ExG MR in the MR environment. The safety issues associated with ECG in the MR environment are highlighted. We explain the mechanisms which may limit the signal quality and introduce a methodology to obtain precise heart rate information.
In this hyperscanning series, we first introduced our gold standard solution based on BrainAmps, then a wireless solution using CGX Quick headsets and the StimTrigger, as well as the extremely flexible LSL solution. In this fourth part, we demonstrate another hardware-based option: using the trigger mirror mode which can be used with actiCHamp Plus and LiveAmp together with the Sensor & Trigger Extension.
Are you a user of the Brain Products active electrodes? Do you struggle to check whether your active electrodes are still fit for recording? Was it already suggested to perform a “saline test” but you are not sure on how to interpret the outcome of your test? This article might be ideal for you!
To record a high-quality EEG signal, either the electrode or a conductive solution must make good contact with the scalp. This can be difficult to achieve in participants with certain hair types and styles, such as Black participants with thick Natural hair leading to their disproportionate exclusion from studies. We offer tips to address these challenges and achieve more inclusive data collection pools.
So far, this series covered hyperscanning with BrainAmp amplifiers as well as with CGX Quick headsets. Part 3 introduces a more general approach, which is based on LabStreamingLayer (LSL).
When analyzing EEG data, especially event-related potentials (ERPs), a reliable relationship between event markers and actual events is crucial. This article introduces the means to measure timing delays and latencies in your EEG recording setup.
We’ve been very active in improving our EEG-fMRI solutions in recent years. Therefore, here is an EEG-fMRI safety refresher considering how the new developments fit into our safety recommendations.
Multicenter studies require the different labs to harmonize their protocols, including hardware specifications. In this article we cover the technical details of how to minimize the impact of using different hardware, if using the same hardware is not an option.
