Electromyography (EMG) System
The Delsys TrignoTM Wireless EMG system (Delsys Inc., Natick, Massachusetts, USA) is used to measure neuromuscular activity while a participant performs different modes of functional tasks. The system comes with three different sensor types—Trigno Avanti sensors for large-size muscles, Trigno quattro sensors for small-size muscles at hand, neck, and shoulder regions, and Trigno Galileo sensor for both small- and large-size muscle groups—to measure neuromuscular activity. The system uses EMGworks® software to record and stream EMG data digitally, NeuroMap Suite software to analyze neural firing activity, and Trigno full triggering module to further expand integration options for additional measurement technologies such as EEG, Motion Capture system, and Biodex isoinertial dynamometer.
Electroencephalogram (EEG) System
The Mobita wearable 32-channel biopotential system (Biopac Systems Inc., Goleta, California, USA) can record up to 32 channels of high-fidelity wireless EEG data using water electrodes. The system equips with AcqKnowledge® data acquisition and analysis software, which can both record and analyze EEG signal in real-time for a variety of research applications, such as neuro-rehabilitation, fatigue and stress evaluation, conventional and VR-based driving, smart material handling task, human-computer interaction, virtual reality training, and so on.
Virtual Reality (VR) System
Primary components of the HTC Vive Pro Eye (HTC Corporation, New Taipei, Taiwan and Valve Corporation, Bellevue, Washington, USA) virtual reality system are a head-mounted display (HMD), two base stations, two controllers and a link box. The system has dual AMOLED 3.5” diagonal HMD of 2880 x 1600 pixels resolution with a 90 Hz refresh rate and 110° field of view for a fully immersive experience. The system contains SteamVR™ tracking software and equips with gyroscope, proximity, interpupillary distance, and eye-tracking sensors. It can output timestamp, gaze origin, gaze direction, pupil position, pupil size and eye openness data at a frequency of 120 Hz. Our VR system can be integrated with other technologies like driving simulator, EEG, EMG, Phantom Omni haptics, and motion capture system and can provide the opportunity for multimodal data collection in a realistic simulation for a wide variety of research options—flight and vehicular training, medical research, military training, smart material handling, rehabilitation, and space research.
Dynamic Strength Measurement System
The Biodex System 4 Pro (Biodex Medical Systems, Shirley, New York, USA) consists of a dynamometer, a positioning chair for test subjects, a computer with integrated Biodex Advantage software, and an accessory cart containing different attachments: ankle, right Knee, left Knee, wrist, elbow, leg, limb support, shoulder, seat support, and calibration weight attachments. This dynamometer system can provide a wide range of normative data—such as force, torque, reaction time, range of motion, strength, and work fatigue percentage, from pediatric through adults, ages 5 - 83. The system can be used for performance enhancement for sports and military personnel, in addition to neurorehabilitation of persons with movement disorders, neurological pathologies, or general deconditioning.
Optical Motion Capture System
The motion capture system (Motion Analysis Corporation, Rohnert Park, California, USA) consists of 10 Eagle digital cameras, two power hubs, two 16-channel ethernet switches, and the Cortex software to acquire human kinematics data. Each camera has a resolution of 1.3 million pixels with selectable resolution-framerate combinations. The framerate is 500 fps at 1280 x 1024 full resolution, 1000 fps at 1280 x 512, and 2000 fps at 1280 x 256. The system can be used in tandem with other technologies like EEG, EMG, VR, driving simulator, instrumented treadmill, force plates, and dynamometer.
Driving Simulator System
Bertec force plates (Bertec Corporation, Columbus, Ohio, USA) are 400 mm in width, 600 mm in length, and 75 mm in height, and each of them has a load capacity of 5000N ,10000N, and 20000N. The force plates can be used in various experimental setup—such as rehabilitation, sports biomechanics, manual material handling, and military training research—to measure ground reaction forces.
The custom-built driving simulator system primarily comprises of DOFReality Motion Simulator Platform P3 (DOFReality Inc., Pustomyty, Ukraine), SPARCO R600 driving seat (Sparco S.p.A, Volpiano, Turin, Italy), Thrustmaster TX RW leather steering wheel with pedals, handbrake, and shifter (Thrustmaster Inc., Hillsboro, Oregon, USA), and Buttkicker Bass Shaker (The Guitammer Company, Westerville, Ohio). We can conduct two modes of driving simulations—using (1) conventional monitors and (3) immersive virtual reality system. The driving simulator can be integrated with other technologies such as EEG, EMG, motion capture, and eye tracking system. Furthermore, by integrating this system with our VR system, various virtual driving scenarios can be simulated, such as, construction vehicles, forklifts, police vehicles, healthcare, truck, public transportation, and so on.
Strength Evaluation System
The Jackson Strength Evaluation System (Lafayette Instrument Company, Lafayette, Indiana, USA) consists of a wooden lifting platform, a control unit, and a load cell. The load cell has a capacity of up to 1000 lbs. This system is mainly used for performing isometric test, such as arm lift, shoulder lift, torso pull, and torso lift. The system can be used for preemployment testing, physical therapy and rehabilitation, evaluating and training athletes, and evaluating physical fitness.
The Kistler Gaitway instrumented treadmill (Kistler Instrument Corporation, Novi, Michigan, USA) consists of a Trotter 685 treadmill and two embedded force plates—each of which has eight unidimensional piezo electric force sensors with a sampling rate of 250 Hz. This system provides a wide variety of force, pressure, and gait data. This instrumented treadmill system can be used for performing studies on human gait, measuring vertical ground reaction forces and temporal kinematics during locomotion, studying effects of heavy load carriage during walking or running, studying postural stability while walking or running, etc.