BUILDING THE GLOBAL PLATFORM FOR BRAIN-COMPUTER INTERFACES
g.tec medical engineering develops advanced neurotechnology solutions, including brain-computer interfaces (BCIs) and high-precision biosignal acquisition systems, enabling researchers and clinicians to measure and interpret brain activity with exceptional accuracy.
Through strong collaboration with scientific and medical institutions, the company translates neuroscience into practical applications that support neurorehabilitation, clinical research, and innovative human–machine interaction.
WE ARE G.TEC MEDICAL ENGINEERING
g.tec develops integrated platforms for brain–computer interfaces (BCIs), combining hardware, software, and application frameworks into a unified ecosystem used in research and clinical environments worldwide.
BCIs are systems requiring seamless interaction between key technological components:
- high-fidelity biosignal acquisition
- real-time signal processing
- machine learning integration
- validated application frameworks
g.tec connects research, engineering, and clinical translation within one scalable platform, enabling reproducible development and deployment across laboratories, hospitals, and research institutions.
TRUSTED BY LEADING INSTITUTIONS WORLDWIDE
BRAIN-COMPUTER INTERFACES
COGNITIVE & BEHAVIORAL BCI APPLICATIONS
Brain–computer interfaces enable the study and modulation of cognition, behavior, and neural processes — in real time and under controlled conditions.
SOFTWARE & REAL-TIME PROCESSING
BCI PROTOTYPING & APPLICATION DEVELOPMENT
Rapidly design, test, and deploy BCI applications using flexible software environments with built-in paradigms and real-time signal processing.
COMPLETE BCI SYSTEMS
RESEARCH & DEVELOPMENT PLATFORMS
Integrated hardware and software solutions for data acquisition, signal analysis, and closed-loop experiments in both invasive and non-invasive research.
MULTIMODAL BRAIN MONITORING
NEUROPSYCHOLOGY & FNIRS INTEGRATION
Combine EEG, fNIRS, and stimulation techniques to investigate brain function and physiological responses across diverse experimental conditions.
INVASIVE & NON-INVASIVE NEUROTECHNOLOGY
BRAIN STIMULATION & CORTICAL MAPPING
Perform precise brain stimulation and mapping for neuroscience research, rehabilitation, and neurosurgical applications.
EEG, EMG & ECG
HIGH-DENSITY PHYSIOLOGICAL RECORDINGS
Capture brain, muscle, and cardiac activity with high spatial resolution for detailed analysis in research and clinical environments.
EEG & BEHAVIORAL DATA
MULTIMODAL RESEARCH & EYE TRACKING
Integrate EEG with eye tracking and other modalities to analyze neural activity and behavior in complex and real-world scenarios.
ARTIFACT-CONTROLLED RECORDING
EEG & TMS RESEARCH
Enable precise EEG measurements during transcranial magnetic stimulation with advanced artifact reduction and signal stability.
MOBILE NEUROTECHNOLOGY
WEARABLE EEG & REAL-WORLD MONITORING
Use wearable EEG systems to capture brain activity in natural environments, enabling real-world neuroscience and BCI applications.
A GLOBAL BCI NETWORK
g.tec connects researchers, clinicians, engineers, and developers worldwide to build a global BCI ecosystem. Through the Spring School, BR41N.IO Hackathons, and partner institutions, a new model of collaboration is emerging.
90,000+ participants from 140+ countries across 60+ host institutions.
Described by Rolling Stone as the “Woodstock of neurotechnology.”
Join the Spring School or become a host. Start building BCI applications.
PROVEN AT SCALE
g.tec combines scientific excellence, global reach, and fully integrated in-house capabilities to accelerate the development and real-world deployment of brain–computer interface technologies.
- Scientific Impact: 330+ peer-reviewed publications, including leading journals such as Nature and Frontiers, with more than 500,000 publication views.
- Global Recognition: Organizer of the internationally recognized BCI Award and part of a global community spanning 140+ countries.
- End-to-End Capabilities: Fully integrated development, production, and global distribution enable rapid iteration, customization, and complete control across hardware, software, and application layers.
g.LADYBIRD: ADVANCING TMS-EEG RESEARCH
The g.LADYbird TMS-EEG electrodes enable high-quality EEG recordings during transcranial magnetic stimulation, minimizing artifacts and improving signal precision. Designed for advanced neuroscience and clinical research, g.LADYbird supports reliable investigation of brain dynamics in combined TMS–EEG setups.
- Ultra-flat design (3 mm): Allows the TMS coil to be positioned as close as possible to the brain for optimal stimulation.
- Active & passive electrodes: Enable faster, easier preparation with improved signal quality and reduced noise.
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