02.06.2025.
Today we present to you a new technical achievement of GES!
Feeby is a prototype wearable 8-channel vibrotactile system controlled via Bluetooth or the USB interface.
Main features:
- 8 haptic drivers for ERM
- 8 ERM coin vibration motors
- 9-axis IMU sensor
- 16GB µSD memory card
- ARM microcontroller
- Li-Poly rechargeable battery
This prototype was developed for research projects and is used in several European institutions such as:
- Aalborg University, Denmark
- Ottobock SE & Co. KGaA, Germany
________________________________________________________________________________________________
29.05.2025.
At Global Electronic Solutions, we’re proud to introduce be.on.lab – our latest AI-powered software solution designed specifically for the process industry, with a strong focus on cement production.
What is be.on.lab?
It’s an advanced application for the real-time prediction of cement compressive strength after 28 days – a task that traditionally requires weeks of waiting. By harnessing the power of artificial intelligence and machine learning, be.on.lab analyzes laboratory data from fresh cement samples and instantly predicts the final strength the material will achieve after the standard curing period. This capability empowers production teams to react immediately, optimizing processes and ensuring consistent quality and compliance.
Key benefits:
- Instant insight into product quality
- Early detection of potential deviations
- Faster, data-driven decisions
- Improved production efficiency and planning
Be.on.lab is a reflection of our broader vision at Global Electronic Solutions – to drive digital transformation through smart, reliable, and scalable solutions that make a real impact in industrial environments.
________________________________________________________________________________________________
19.05.2025.
Using the latest principles from the field of biomedical engineering, neuroengineering today represents a bridge between biology and technology. Through precise electrical stimulation, we open new paths towards understanding, communication and rehabilitation of the human body.
In this context, we present to you another GES innovation: the E-Matrix8 prototype – an advanced wearable electrotactile stimulator controlled via Bluetooth (BLE) interface, developed for research projects and experiments of the new generation.
E-Matrix8 is a high-tech research prototype intended for precise electrotactile stimulation via a wearable device. Main features:
- 8-channel pulse generator, unipolar configuration
- Biphasic charge compensated pulses
- Current controlled pulses 0 – 10 mA, 50 – 1000us, 1 – 400pps
- Bluetooth BLE V 5.2
- ARM microcontroller
- Li-Poly rechargeable battery
E-Matrix8 enables experimental flexibility, precise stimulation and real-time interpretation of neurophysiological responses – wirelessly, compactly and reliably.
This prototype is used at the University of Dublin for academic research projects.
________________________________________________________________________________________________
06.05.2025.
We present to you one of GES’ innovations! The BiMatrix is a 24-channel wearable neuromuscular electrical stimulator controlled via Bluetooth or via a USB interface. Main features:
- 24-channel signal generator, unipolar/bipolar configuration
- Biphasic charge compensated pulses
- Current controlled pulses 0 – 100 mA, 50 – 1000us, 1 – 400pps
- Bluetooth BLE V 5.2
- ARM microcontroller
- Li-Poly rechargeable battery
BiMatrix was developed as a prototype for the purpose of further research and projects, and it is used by several European institutions and universities, and we are proud to highlight the cooperation with:
- Aalto University, Finland
- University of Genova, Italy
- Fondazione Istituto Italiano Tecnologie, Italy
- Kurage sas, France
- CSMT Gestione s.c.a.r.l., Italy
_______________________________________________________________________________________________
28.04.2025.
One of our leading innovations is be.on.net, an advanced expert system based on artificial intelligence used to control and optimize complex processes. Designed to provide model-based predictive control (MPC) for the most complex industrial processes in the cement and other demanding industries. This powerful solution optimizes operations, improves efficiency, reduces CO2 emissions and provides precise control.
It is a state-of-the-art software platform designed to significantly improve plant productivity, energy efficiency, product quality and carbon footprint. As an all-in-one platform, it can control a single machine or several processes in one or more plants, and if necessary, all from one location.
Be.on.net uses the concept of machine learning to model complex processes and simulate their behavior in real time. An important characteristic of be.on.net is the continuous adaptation to some structural changes of the process, such as fluctuations in the quality of raw materials or fuel, the rate of wear and tear of machines, and the like.
This innovation recorded it’s first test steps precisely in the cement industry. In order to preserve the quality and stability of the production process with the maximum share of alternative fuels of poorer and variable quality, advanced and predictive management is necessary. The pilot version of be.on.net proved that it is possible to increase the share of alternative fuels by more than 15% as a replacement for fossil fuels in the clinker firing process. A significant reduction in the use of fossil fuels and CO2 emissions is possible through the optimization of process management.
The pilot project showed possible savings of up to one million EUR per year. Be.on.net is proof that the greatest financial and environmental effects are realized in the industry that consumes large amounts of fossil fuels. At the same time, significant results were recorded in the rest of the process industry through stability and precise process management, which ensures quality and productivity. The aim of the European Green Deal is precisely to create an ecology that generates profit. This policy requires industry to drastically reduce CO2 emissions: 25% by 2030 and net neutrality by 2050.
Global Electronic Solutions (GES) aims to contribute to global evolutionary progress with be.on.net software, in addition to significant business success, it contributed to global evolutionary progress. For more details and information, visit us on the official website www.beonnet.rs .
