Biopac physiology monitoring suite

The Biopac Physiology Monitoring Suite provides comprehensive physiological data for advanced research applications. This suite, that offers multi-channel recording capabilities, includes EEG (electroencephalography), EDA (electrodermal activity), HR (heart rate) monitors, and other tools to allow researchers to record physiological responses in real time. The Biopac system quickly synchronizes data, which allows a wide range of investigations in human physiology, psychology, and scientific research. Whether for cerebral activity analysis or stress response tracking, the Biopac suite provides precise, dependable data required for new scientific research.

FaceReader is an advanced tool for capturing and analyzing facial expressions and emotions in real time. With a camera and intuitive software, it accurately interprets subtle facial cues, providing insight into emotional responses. Ideal for research in psychology, marketing, and user experience

Eye Tracker 
The Eye Tracker system is an advanced tool designed to capture and analyze where people look, how long they focus, and their gaze patterns, all in real time. With a high-resolution camera and intuitive software, the system provides detailed visual attention data ideal for research in fields like psychology, marketing, and ergonomics.

The Ironhand exoskeleton glove by Bioservo is designed to give an extra boost to your grip when you need it. This wearable tech adjusts in real-time, sensing and supporting your hand’s movements, making it perfect for everything from rehabilitation to heavy-duty work. It’s beneficial for reducing strain and giving you more endurance in tasks that require repeated gripping. With live data on a nearby screen showing grip strength and hand movements, Ironhand combines comfort with smart technology to make everyday tasks easier and more sustainable.

Exoskeletons: Laevo 
The Laevo Flex exoskeleton is designed to provide comfortable, effective support for the lower back, especially during tasks that involve lifting or bending. This wearable technology adapts naturally to the body’s movements, helping to reduce strain and prevent fatigue in the back. It’s a great solution for workers in physically demanding jobs, as well as for rehabilitation purposes. Lightweight and ergonomic, the Laevo Flex allows users to move freely while providing that extra layer of support when needed, making challenging tasks easier and safer.

Exoskeletons: Skelex

The Skelex exoskeleton is specially designed to support the upper body, giving extra assistance to the shoulders and arms, particularly for tasks that require holding or lifting objects at or above shoulder level. Lightweight and highly mobile, the Skelex exoskeleton helps reduce muscle strain while allowing freedom of movement. It’s a practical choice for industrial settings and jobs with repetitive overhead work, offering ergonomic support to make strenuous tasks safer and more comfortable.

The Chairless Chair by Noonee is an innovative exoskeleton that provides instant seated support wherever you need it, without a traditional chair. This wearable device attaches to your legs, allowing you to comfortably sit in a crouched position, making it ideal for tasks that involve prolonged standing or repetitive bending. Lightweight and easy to adjust, the Chairless Chair offers stability and ergonomic support, reducing strain and fatigue during long work hours.

Movella Hardware and software 

The Movella Motion-Tracking System, featuring wireless Dots sensors, delivers precise, real-time body movement tracking with 3D visualization on a connected computer. Ideal for applications in sports science, rehabilitation, and research, this system provides accurate data to support detailed motion analysis and performance optimization.

The Delsys EMG system includes the 16-Sensor Trigno Research System, featuring the SP-W02D Trigno Digital Base Station and 16 SP-W06-014 Trigno Avanti Sensors with SC-F03 Sensor Skin Interfaces. This setup provides high-resolution EMG data for muscle activity analysis, with sensors applied to specific muscle areas and real-time data displayed on a connected computer. Ideal for precise neuromuscular research, the system enables in-depth analysis of muscle activation and performance.

Jackson strength evaluation system

The Jackson Strength Evaluation System provides precise muscle strength assessments using a range of resistance-based attachments. With real-time data displayed on a connected computer, this system offers detailed insights into muscle performance, ideal for clinical and research settings. Designed for accurate strength evaluation, it supports advanced muscular assessment in a modern, ergonomic environment.

Lafayette Instruments handgrip strength dynamometers

The Lafayette Instruments Handgrip Strength Dynamometer provides precise grip strength measurements, ideal for clinical and research applications. With real-time data display, this device supports detailed analysis of hand strength, making it valuable for physical therapy, sports science, and rehabilitation assessments.

Pinch strength dynamometers

The Pinch Strength Dynamometer is designed to accurately measure finger pinch strength, essential for assessments in physical therapy, sports science, and rehabilitation. With real-time data display and detailed metrics, this tool supports precise evaluations of finger strength in clinical and research settings. 

Anthropometers and goniometers

Anthropometers and goniometers are essential tools for measuring body dimensions and joint angles, respectively, supporting accurate assessments in physical therapy, sports science, and ergonomic research. These instruments provide precise data on body measurements and range of motion, enabling comprehensive evaluations in clinical and research environments.

Computer hardware
This computer hardware is equipped with high-performance specifications ideal for data-intensive applications. With a powerful multi-core processor, ample memory (RAM), and fast storage, it’s optimized for running complex software, processing large datasets, and managing real-time data analysis.

MaxQDA: Qualitative analysis software

MaxQDA is a powerful tool for organizing, coding, and analyzing qualitative data. With an intuitive interface, it supports researchers in managing complex text data and creating visualizations like charts and word clouds. Ideal for social sciences, education, and data-driven research, MaxQDA streamlines the process of qualitative analysis, making insights accessible and actionable.

The Purdue Pegboard Test is an useful instrument for testing fine motor abilities and hand dexterity. The test involves inserting pegs into small holes on a board to assess coordination, speed, and precision. The Purdue Pegboard Test, which is widely used in physical and occupational therapy as well as neurological examinations, provides useful information about hand function for both clinical and research purposes.

Hand tool dexterity test

The Hand Tool Dexterity Test evaluates manual dexterity, coordination, and proficiency with tools like screws and bolts. This exam is best suited for assessing hand function in physical therapy, occupational therapy, and skill-based evaluations. It adds value to clinical and scientific applications by assessing accurate hand movements and coordination.

The Minnesota Manual Dexterity Test is used to measure hand-eye coordination and manual dexterity. Participants work with discs on a test board, placing and flipping them to assess speed and precision. This test is used in physical and occupational therapy, as well as in motor skills assessments, providing valuable insights into hand function and coordination.

O'Connor Tweezer Dexterity Test

The O'Connor Tweezer Dexterity Test is designed to assess fine motor skills and hand-eye coordination. Using tweezers, participants place small pins into holes on a test board, providing a measure of precision and control. This test is used in physical therapy, occupational therapy, and other settings focused on evaluating fine motor abilities.

I use WorldViz VR , which is a powerful tool for creating immersive simulations for research and training. The system includes Vizard, a versatile software for designing 3D simulations, and high-quality VR hardware like headsets and projection systems for realistic interactions. This setup is ideal for studying human behavior, training specific skills, and testing new system designs, all within controlled virtual environments.