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      A Comparative Study on the Dynamic EEG Center of Mass with Different References

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          Abstract

          One of the most fundamental issues during an EEG study is choosing an available neutral reference. The infinity zero reference obtained by the reference electrode standardization technique (REST) has been recommended and used for its higher accuracy. This paper examined three traditional references, the average reference (AR), the linked mastoids reference (LM), and REST, in the study of the EEG center of mass (CM) using simulated and real ERPs. In the simulation, the relative error of REST was the smallest among the references. As for the ERP data with the visual oddball paradigm, the dynamic CM trajectory and its traveling velocity obtained by REST characterized three typical stages in spatial domain and temporal speed metrics, which provided useful information in addition to the distinct ERP waveform in the temporal domain. The results showed that the CM traveling from the frontal to parietal areas corresponding to the earlier positive components (i.e., P200 and P250), stays temporarily at the parietal area corresponding to P300 and then returns to the frontal area during the recovery stage. Compared with REST, AR, and LM not only changed the amplitude of P300 significantly but distorted the CM trajectory and its instantaneous velocity. As REST continues to provide objective results, we recommend that REST be used in future EEG/ERP CM studies.

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          The P300 wave of the human event-related potential.

          T Picton (1992)
          The P300 wave is a positive deflection in the human event-related potential. It is most commonly elicited in an "oddball" paradigm when a subject detects an occasional "target" stimulus in a regular train of standard stimuli. The P300 wave only occurs if the subject is actively engaged in the task of detecting the targets. Its amplitude varies with the improbability of the targets. Its latency varies with the difficulty of discriminating the target stimulus from the standard stimuli. A typical peak latency when a young adult subject makes a simple discrimination is 300 ms. In patients with decreased cognitive ability, the P300 is smaller and later than in age-matched normal subjects. The intracerebral origin of the P300 wave is not known and its role in cognition not clearly understood. The P300 may have multiple intracerebral generators, with the hippocampus and various association areas of the neocortex all contributing to the scalp-recorded potential. The P300 wave may represent the transfer of information to consciousness, a process that involves many different regions of the brain.
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            A method to standardize a reference of scalp EEG recordings to a point at infinity.

            D. Yao (2001)
            The effect of an active reference in EEG recording is one of the oldest technical problems in EEG practice. In this paper, a method is proposed to approximately standardize the reference of scalp EEG recordings to a point at infinity. This method is based on the fact that the use of scalp potentials to determine the neural electrical activities or their equivalent sources does not depend on the reference, so we may approximately reconstruct the equivalent sources from scalp EEG recordings with a scalp point or average reference. Then the potentials referenced at infinity are approximately reconstructed from the equivalent sources. As a point at infinity is far from all the possible neural sources, this method may be considered as a reference electrode standardization technique (REST). The simulation studies performed with assumed neural sources included effects of electrode number, volume conductor model and noise on the performance of REST, and the significance of REST in EEG temporal analysis. The results showed that REST is potentially very effective for the most important superficial cortical region and the standardization could be especially important in recovering the temporal information of EEG recordings.
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              Event-related-potential (ERP) reflections of mental resources: a review and synthesis.

              Albert Kok (1997)
              In this review studies are evaluated that have utilized middle-latency and late components of the event-related potential (ERP) as indices of the activation of processing resources. Processing resources are defined as energetical systems that modulate cognitive processes or data processing systems. An essential element of the resource conceptualization is the idea that processing structures receive not only information input but also input from these energetical systems. It is argued further that the principal role of these systems is to provide the 'gain' for the data processing systems. In reviewing these studies special attention is paid to factors affecting the amplitude of ERP components in single- and dual-task studies, and to the inferences that can be drawn about which particular types of processing resources are reflected in these changes in component amplitudes. Finally, a working model is presented relating middle-latency and late ERP components to specific perceptual, perceptual-central and central processing resources.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Neurosci
                Journal ID (iso-abbrev): Front Neurosci
                Journal ID (publisher-id): Front. Neurosci.
                Title: Frontiers in Neuroscience
                Publisher: Frontiers Media S.A.
                ISSN (Print): 1662-4548
                ISSN (Electronic): 1662-453X
                Publication date (Electronic): 12 September 2017
                Publication date Collection: 2017
                Volume: 11
                Electronic Location Identifier: 509
                Affiliations
                [1] 1Key Laboratory for NeuroInformation of Ministry of Education, Center for Information in Medicine, University of Electronic Science and Technology of China Chengdu, China
                [2] 2High-Field Magnetic Resonance Brain Imaging Key Laboratory of Sichuan Province, School of Life Science and Technology, University of Electronic Science and Technology of China Chengdu, China
                Author notes

                Edited by: Rui Zhang, Zhengzhou University, China

                Reviewed by: Ling Zou, Changzhou University, China; Jin Xu, Xi'an Jiaotong University, China

                *Correspondence: Tao Zhang tao.zhang@ 123456alltechmed.com

                This article was submitted to Brain Imaging Methods, a section of the journal Frontiers in Neuroscience

                Article
                DOI: 10.3389/fnins.2017.00509
                PMC ID: 5601041
                PubMed ID: 28955195
                SO-VID: 2a0dd3cd-3a88-4c8f-a021-23bb717a78b4
                Copyright © Copyright © 2017 Qin, Xin, Zhu, Li, Xiong, Zhang and Lai.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 19 May 2017
                Date accepted : 28 August 2017
                Page count
                Figures: 6, Tables: 0, Equations: 8, References: 41, Pages: 11, Words: 6942
                Funding
                Funded by: National Natural Science Foundation of China 10.13039/501100001809
                Award ID: NSFC81571759
                Categories
                Subject: Neuroscience
                Subject: Original Research

                ScienceOpen disciplines: Neurosciences
                Keywords: neutral reference,center of mass,erps,trajectory,traveling velocity
                Data availability:
                ScienceOpen disciplines: Neurosciences
                Keywords: neutral reference, center of mass, erps, trajectory, traveling velocity

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