INHALTE
Measurement and stimulation technologies
Main Areas of Research
- Research and development in the field of measurement technology for bioelectric potentials and biomagnetic fields
- Research and development in the field of bioelectric and biomagnetic stimulation
- Validation and standardization in bioelectric and biomagnetic technologies
- Estimation of conductivity distributions and estimation of conductivity tensors in biological systems
- Applications in the area of ECG/MCG, EEG/MEG, EMG, physiological monitoring, and magnetic markers
Projects
Active research projects
- ThIMEDOP - Innovation center for Thuringian medical technology solutions (diagnosis, therapy - optimization by optical technologies) - Jena & Ilmenau
- INFANS - INtegrating Functional Assessment measures for Neonatal Safeguard
- multiTES -Individual and multi-channel transcranial electrostimulation for therapeutic home use of depression
- PowerMask - Entwicklung eines flexiblen Applikators zur nicht-invasiven okulären Stromstimulation auf Basis textiler Elektrodentechnologie
- Individual warning systems using electric signals
- Validation of bioelectric and biomagnetic measurement and analysis method with the help of physical phantoms
Closed research projects
- Determination of activity parameter with ECG
- Determination of the magnetic permeability of metallic sheets using Lorentz force and Kelvin force measurement techniques
- ANDREA - Active Nanocoated DRy electrode for Eeg Applications
- RauMus – categorization of surface roughness by multimodal stray light analysis
- Vorbereitung eines Förderprojektes mit KMU-Beteiligung zur Entwicklung neuartiger, hoch effizienter textiler Energy Harvesting Systeme
- EyeTSS - 3D transcranial current stimulation and analysis of neurovascular coupling using retinal vessel analysis
- Sensor and measurement techniques for sustainable resource- and material-efficient medical technologies (SensEcoMed)
- Development of a bidirectional, HDTV-based Mobile-Online-Help-System (MOHS)
- Adaptive Positioning of Probes using Inflective Mechanical Objects (APPRIMO)