MedWearables

Syntrofos – A headset like wearable device to track COVID-19 symptoms

Description

MECOnet in cooperation with the Laboratory for Medical Electronics of the Faculty of Electrical Engineering and H2020 SMART4ALL project has completed the first phase of development of a home monitor for COVID symptoms called Syntrofos (Greek companion). Syntrofos is an electronic device that measures the main symptoms of COVID such as Temperature, Respiratory Ratio, Pulse, Saturation, Cough, Heart Rate, etc … and displays the information on a mobile phone as well as sends them to the COVID Center.

Syntrofos promotional video

By Syntrofos, it is possible for everyone to have a personal COVID signal monitor, 24/7/365. The Syntrofos Basic version will monitor Temperature, Pulse, Respiration Rhythm with Photo Plethysmographic Signal (PPG) and Respiration Signal (RR). The Syntrofos Mid version will also have oxygen saturation SpO2 measurement, and Syntrofos Pro will also include ECG signal measurement.

Syntrofos prototype

The device is very easy to operate that can be seen from bellow text. It should be noted that Syntrofos is the result of local brain in both hardware and software. The designer of Syntrofos is prof. Radovan Stojanović, Head of the ETF Medical Electronics Laboratory. MECOnet is interested in partners in this project that will be of a non-profit character !.

Specifications

Wbs…

Ordering information: MCN-SYN1.1

For order and interest write us at info@meconet.me.

Wireless and hands free vital signs monitors

Description

In the field OF HAND FREE FULLY WIRELESS MONITORING OF VITAL SIGNS we developed several VITAL SIGNS MONITORS BASED ON RF, BLE, WI-FI, WEB TRANSFER, AND INTELLIGENT DATA analysis.

A number of products were developed to meet different needs.

ECG remote monitor, WebSocket version
ECG remote monitor, RF 2.4GHz version
ECG monitor testing.
ECG monitor over WebSocket output.
MPEG3 recording of ECG and accelerometric data.
Illustration of HRV parameters and the case of normal sinus rhythm with 1 premature ventricular complex arrhythmia.
Web Audio API based ECG holter. Platform independent. Works in browser and thus in all OS.

Specifications

Wbs…

Ordering information:

  • MCN-ECG-WS-1.0 (WebSocket version)
  • MCN-ECG-RF-1.0 (RF version)
  • MCN-ECG-MPEG3-1.0 (mp3 version)
  • MCN-ECG-WEBA-1.0 (WEB Audio API version)

For order and interest write us at info@meconet.me.

“Whispering heart”, proximity contactless, browser-based ECG analyzer

Innovative ECG device, based on innovative wireless/contact less transmission of ECG signal between sender device and any gadget or PC. No Bluetooth, no Wi-Fi, no RF, no ZigBee. Simply start our web-based application, bring your gadget closer and observe the work of your heart and notice anomalies. Figures show our Chief hardware-software design architect testing the prototype of “Talking heart” in time, frequency and time frequency domains on gadget application and any web browser running on PC or gadget (phone or tablet).

Operation principle of “Whispering heart”

Specifications

Wbs…

Ordering information: MCN-WH-1.0

For order and interest write us at info@meconet.me.

Wireless pulse oximeter monitor

The device is wearable (working standalone) as well as connected to remote computer via BLE for purposes of visualization data capture and analyses as well as for ambulatory purposes, emergency cars or temporary intensive care units and fast group monitoring or cases separation.

Specifications

Wbs…

Ordering information: MCN-PO-1.0

For order and interest write us at info@meconet.me.

Portable monitors, stress and arrhythmia analyzers

Description

Innovative technology and methods of stress detection by examination of HRV (heart rate variability) and Poincare Arrhythmia detection methods. Very comfortable, supported by Android device and application. The device can work as loop recorder or holter. Sound and light signs of alarm states.

Specifications

Wbs…

Ordering information: MCN-SD-1.2

For order and interest write us at info@meconet.me.

Fall Detection Using Beacon and Node MCU

Description

Low Energy (BLE) Beacon, fixed on the belt, with built in accelerometer sends data about fall to BLE ESP based gateway and further to Application which processes the data and by AI decide about, CALM, MOVING, JUMPING, LAYING DOWN, SITING and FALLING DOWN.

Fall detector components overview and testing.
Output when fall is detected. In left bottom corner, an alarm for patient 1 is set on.

Specifications

Wbs…

Ordering information: MCN-FD-1.0

For order and interest write us at info@meconet.me.

True measurement of blood pressure

Description

Only method and device can resolve CENTURY DILEMMA ABOUT TRUE MEASUREMENT OF BLOOD PRESSURE. Auscultatory and Oscillometric methods implemented in TIME, FREQUENCY and TIME-FREQUENCY domains together with AI are solution.

Blood pressure set.
Illustration of innovative approach triple checking of BP measure. Down, Time-Frequency spectrum of Korotkoff sounds.

Specifications

Wbs…

Ordering information: MCN-BP-1.0

For order and interest write us at info@meconet.me.

HRV analysis and arrhythmia detection

Description

Innovative instruments and methods for HRV (Heart Rate Variability) ANALYSIS and ARRHYTHMIA DETECTION, applying short-term STATISTICAL ANALYSIS Poincaré plots as well as artificial intelligence (AI).

HRV and arrhythmia analysis set.
Illustration of HRV parameters and the case of normal sinus rhythm with 1 premature ventricular complex.

Specifications

Wbs…

Ordering information: MCN-HRV-1.0

For order and interest write us at info@meconet.me.

Our team

Dr Blagoje Babić, Clinical aspects,
Prof. dr Radovan Stojanović, Main architect
Jovan Đurković, HW-SW Designer and Developer

Terms and conditions

  • MECOnet SMART HEALTH products and prototypes are intended for educational and experimental purposes, as well as self-control purposes with the strict responsibility of the user.
  • ANY CLINICAL USE is not our responsibility.
  • Certain products partially use commercial or open source solutions from other manufacturers. A more detailed description and list of used solutions can be found on the public domain of MECOnet GitHub or Publications of MECOnet members.
  • Any use of the MECOnet system or components for commercial purposes requires permission from MECOnet.

Other resources

Our SMART portfolio:

Several solutions are developed under the H2020 project SMART4ALL:

Smart Health (Health IoT systems and wearables)

Smart Energy (IoT systems for smart energy monitoring and management)

Smart Agriculture (Systems and sensors for smart agriculture)

Scroll to Top