ScientISST
SENSE
Biosignal acquisition made easy
Synchronous
multi-channel acquisitions
Multiple. Many. A lot.
​
Measure up to 10 analog and digital sensors simultaneously.
SENSORS
​
Versatile by design.
Bioelectrical or biomechanical, it measures.
​
A variety of sensors for you to explore.
Which modules will your next invention include?
electrocarDiogram
Pressure
accelerometer
processing unit
​
ESP32 power.
Do more spending less energy.
​
SENSE can communicate via WiFi, Bluetooth Classic and BLE , and transfer data via USB-C.
3
3
Design
​
Still not small enough?
Just snap it.
​
What is it going to be next? A wristband, a chair, a wallet?
There is no limit to your creativity.
mobility
​
Designed for
portability.
SENSE goes anywhere with batteries.
​
Long day?
Get as many recharchable batteries as you can.
ON/OFF switch
A must have
USB-C port
Charging and data transfer
JST port
Connect batteries
Charge on the go.
software
​
SENSE Mobile
Prototype and research on the go.
​
Acquiring biosignals should not be hard. The SENSE Mobile allows for a seamless Bluetooth pairing, vizualization, and recording with your ScientISST SENSE. Have fun acquiring biosignals anywhere!
Programming APIs
Easily develop custom biosignal software in your favourite languages.
Are you a Student?
Are you looking to accelerate your idea?
Are you a Researcher or Professor?
Unsure how the ScientISST tools can help with your research or education efforts? Contact us.
* Maximum sampling frequency tested for one channel.
​
1. I2C: Inter-Integrated Circuit, eye-squared-C. 2. Serial Peripheral Interface. 3. Bluetooth Low Energy protocol.
​
Legal Disclaimer
ScientISST Core is not a medical device certified for diagnosis or treatment. It is provided to the user as is, only for research and educational purposes.
Acknowledgment
This work was partially supported by Fundação para a Ciência e Tecnologia (FCT) under the projects’ UIDB/50008/2020, DSAIPA/AI/0122/2020 (AIMHealth), and PCIF/SSO/0163/2019 (SafeFire), and by the Active Assisted Living Programme Collaborative Project AAL-2020-7-237-CP (FORTO 2.0) through IT—Instituto de Telecomunicações, which is gratefully acknowledged.