What is he best known for?
The fields of study he is best known for:
- Neuroscience
- Cognition
- Artificial intelligence
Hermann Hinrichs mainly focuses on Neuroscience, Functional magnetic resonance imaging, Visual cortex, Visual perception and N2pc.
His work in Stimulus, Brain activity and meditation, Magnetoencephalography, Brain mapping and Prefrontal cortex are all subfields of Neuroscience research.
His Functional magnetic resonance imaging research incorporates elements of Cognitive psychology, Communication, Auditory cortex, Temporal lobe and Auditory perception.
His Visual cortex research includes themes of Visual N1 and P200.
His work deals with themes such as Extrastriate cortex, Sensory system and Fusiform gyrus, which intersect with Visual perception.
The Fusiform gyrus study combines topics in areas such as Neuroimaging and Vigilance.
His most cited work include:
- Involvement of striate and extrastriate visual cortical areas in spatial attention. (853 citations)
- Combined spatial and temporal imaging of brain activity during visual selective attention in humans. (817 citations)
- IFCN standards for digital recording of clinical EEG (450 citations)
What are the main themes of his work throughout his whole career to date?
Hermann Hinrichs mostly deals with Neuroscience, Electroencephalography, Stimulus, Artificial intelligence and Audiology.
Hermann Hinrichs brings together Neuroscience and Deep brain stimulation to produce work in his papers.
The study incorporates disciplines such as Anesthesia, Speech recognition, Electrophysiology and Artifact in addition to Electroencephalography.
Hermann Hinrichs interconnects Visual perception, Cognitive psychology and Cognition, Event-related potential in the investigation of issues within Stimulus.
His research on Artificial intelligence also deals with topics like
- Pattern recognition, which have a strong connection to Decoding methods,
- Functional magnetic resonance imaging which connect with Communication.
His Visual cortex study combines topics from a wide range of disciplines, such as N2pc, Visual N1 and P200.
He most often published in these fields:
- Neuroscience (51.82%)
- Electroencephalography (40.88%)
- Stimulus (21.90%)
What were the highlights of his more recent work (between 2017-2021)?
- Electroencephalography (40.88%)
- Neuroscience (51.82%)
- Artificial intelligence (17.52%)
In recent papers he was focusing on the following fields of study:
His primary areas of study are Electroencephalography, Neuroscience, Artificial intelligence, Eye movement and Brain–computer interface.
His Electroencephalography study incorporates themes from Coherence, Rehabilitation, Physical medicine and rehabilitation and Electrode.
His specific area of interest is Neuroscience, where Hermann Hinrichs studies Frontal cortex.
He has included themes like Schizophrenia, Cognition, Cognitive impairment, Hierarchy and Pattern recognition in his Artificial intelligence study.
His Eye movement research integrates issues from Cognitive psychology, Eye tracking and Gaze.
In Stimulus, Hermann Hinrichs works on issues like Thalamus, which are connected to Electrophysiology.
Between 2017 and 2021, his most popular works were:
- Systematic comparison between a wireless EEG system with dry electrodes and a wired EEG system with wet electrodes. (46 citations)
- Comparison between a wireless dry electrode EEG system with a conventional wired wet electrode EEG system for clinical applications (15 citations)
- Convolutional neural networks for decoding of covert attention focus and saliency maps for EEG feature visualization. (13 citations)
In his most recent research, the most cited papers focused on:
- Neuroscience
- Artificial intelligence
- Cognition
Hermann Hinrichs mainly investigates Electroencephalography, Neuroscience, Brain stimulation, Audiology and Electrode.
Many of his research projects under Electroencephalography are closely connected to Nucleus basalis and Deep brain stimulation with Nucleus basalis and Deep brain stimulation, tying the diverse disciplines of science together.
He is interested in Temporal cortex, which is a branch of Neuroscience.
His Brain stimulation research is multidisciplinary, relying on both Working memory, n-back and Dorsolateral prefrontal cortex.
His research integrates issues of Transcranial alternating current stimulation and Stimulation in his study of Audiology.
His Electrode course of study focuses on Electrophysiology and Pattern recognition and Artificial intelligence.
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