Marine Industry
We have developed our own product - the SmartDive Remotely Operated Underwater Vehicle. The device is designed for inspection and search work. With the help of the broadcast video, operator of SmartDive ROV is able to find various objects under water, as well as inspect bridge supports, hydrotechnical structures, ship bottoms, fishing nets and much more.

Main features of the SmartDive ROV are small dimensions, large autonomy of operation from onboard battery, a remotely controlled video camera on a tilt mechanism with a wide viewing angle and powerful remotely controlled lights. We provide warranty and service maintenance of our equipment all over the world.

Now the SmartDive ROV is at the stage of serial production.

You can learn detailed specifications and order the device by the link below:

SmartDive ROV
Vessel Drift Sensor
For Abconmarine company we have developed a device for monitoring the geolocation of river and sea vessels.

The main task of the system is to control the position of the vessel in relation to the specified coordinates and notify when deviating from the specified parameters.

For example, if a yacht at anchor will start sailing further than intended, the system will inform the owner of the yacht with the help of a siren and SMS notification.

As part of this project, we have developed all the electronics and industrial design of the case. Now the device is being prepared for serial production.
AI and IoT projects
We developed an expansion board, and the layout and industrial design of the computer case.

The expansion board allows for the transfer of data between the slot machine and peripherals, such a mechanical pulse counters. The board has also been designed to include a backup a power source.

Our client in U.S. already manufactured and sold 2.000 pcs of the IoT computer.

IoT computer to set up slot machines
Intelligent pedestrian crossing
This AI project is intended to improve road safety. We developed software and hardware for street cameras that recognizes objects (cars, people, etc.) on streaming video. With this information, the user can activate special lighting systems at pedestrian crossings and warn pedestrians of the approach of traffic or movement of a car, bicyclist, or other moving object.

All processing is carried out «on board» the system, without the use of cloud technology, making the system more reliable and independent.

The project is in the final stages of development (there is already a working prototype) and has been adopted for use by a major metropolitan municipality.
IoT sensor system for monitoring freight traffic
We have developed an IoT system for monitoring various parameters of freight shipments.The system includes a base station and sensors for the control of cargo (auto-, railway, etc.).

Sensors transmit information via Bluetooth 5.0 wireless to the base station. The system can be used to track whether cargo containers have been opened or disturbed during transportation, whether proper temperature requirements were observed, etc.

The number of sensors and controlled settings can be adjusted to the specific parameters and monitoring needs of a given shipment or shipping medium. Every sensor is equipped with internal memory and battery life, and is able to record information with complete autonomy from the base station.

With this data, the user can make real-time technological and managerial decisionsto improve the quality of services.

The project is currently in the prototype-testing phase.
Grain loading control system for elevators
Our team has developed an IoT system for monitoring the loading of grain onto elevators at grain storages facilities. The system has an RFID reader-repeater and an active tag using Bluetooth technology.

The main objective of the system is to avoid grain re-sorting.

How the system works: a grain-carrying vehicle is equipped with an RFID reader-repeater. Each elevator has an active RFID tag. If the vehicle drives up to the elevator with the wrong type of grain, then the receiving module reads the information and the system warns the driver and does not allow the grain to be dumped onto the elevator.

The system is under testing
Car Diagnostic Terminal
As part of this IoT project, a diagnostic terminal has been developed that connects to the truck's CAN buses. The device receives real time information from the sensors of the vehicle's on-board system, determines its GPS coordinates, and transmits the received data to the user using wireless GSM communication, which allows the condition of the car to be monitored remotely.
Technical features:
  • The device can work from its built-in battery in the absence of power from the car, charging it from the onboard network;

  • 2 SIM cards are installed, and the device switches between them independently, providing better GSM communication;

  • Protection against over and under voltage is provided.
Medical and laboratory equipment
Our team reverse engineered a Chinese-made machine. We adapted OS Linux, control, service and user software for this product. Additional interface boards have also been developed to expand the capabilities of the device. We integrated the software into the laboratory information system «Ariadna».

The device is certified and in the mass production stage now.

The development was carried out on behalf of Medical Biological Union.
Enzyme Linked Immunosorbent Analyzer
Personal Blood Coagulability Meter
This device measures the index of blood coagulability with a telemetry transfer system for the external server infrastructure. The system is designed for remote medical diagnosis of patients who need a regular dosage adjustment of their medicines.

The device automatically measures the parameters of the sample and processes data through the GSM network. The results are transmitted to the server of the medical facility and become available in real-time to the treating physician.

This device is at the developmental stage of industrial design and certification.
It was developed on behalf of Medical Biological Union.
Highly Sensitive Biomarker Detector
This device uses a piezoelectric biosensor based on a quartz resonator for highly specific and sensitive detection of biomarkers.

Our team carried out confirmatory research on the validity of this method of detection and created a prototype system.

The method was tested and showed efficacy in the detection of bacteria, viruses and phages. The sensitivity of the method allows the user to identify single viruses.

The device is at the testing stage of the prototype.
It was developed for Medical Biological Union.
Automatic System for Multiplex Analysis
This device is an analogue of the Luminex Magpix. This machine is designed to be embedded with the DetectorBio hardware and software system. This device is intended for the detection of the presence and concentration of pathogens of infectious diseases in the air. It allows users to determine up to 50 analytes in one sample, including both anthrax and bubonic plague.

The device is at the testing and acceptance stage.

It is being carried out on behalf of the Research Institute of Epidemiology and Microbiology.
Reagent-Bio system for high-performance detection of pathogenic biological agents
We carried out the software project "Reagent-Bio" for high-performance detection of pathogenic biological agents.

The main application of the project is the comparison of DNA and RNA sequences. DNA and RNA samples are compared with the already known decrypted sequences. Based on this comparison, it is possible to answer an important question: Does the sample contain parts of various pathogens (including SARS-CoV-2), genes of antibiotic resistance, etc?

The database of already known sequences currently contains more than 10 million records of DNA and RNA chains and it is constantly updating.

This is a joint project with the Research Institute of Epidemiology and Microbiology.

Underwater Technologies
Our team is developing a portable dive computer for both recreational and technical diving.

The computer is equipped with a set of sensors that allow the diver to get the actual measure of depth, dive time, water temperature, air volume in tanks, and safe ascent modes. The diver can upload his dive log to the application on a mobile device for later analysis and for publication in social networks.

The device is at the prototype development stage.
Dive computer with decompression meter
Universal Battery Packs for Diving
Our team is developing universal battery packs for various devices, such as lanterns and clothes with electric heating. Blocks are developed on the basis of the Li-Ion 18650 form factor batteries.

The units can operate at a pressure of more than 30 atmospheres and are equipped with the ability to transfer data about their charge via a wireless radio channel to the dive computer. In addition, it is possible to switch blocks directly under water.

The project is at the creative prototype-electronics stage.
Unmanned Aerial Vehicles
We developed a stand-alone aircraft complex with a magnetometric sensor and a base station for geomagnetic prospecting of diamond and other minerals deposits.

The project was carried out on behalf of the Oil and Gas Geology and Geophysics Institution.
Unmanned Aerial Vehicle for Geomagnetic Prospecting
Unmanned Aircraft for Aerial Photography of Agricultural Lands
Our team developed and unmanned aerial vehicle capable of flying for more the two hours consecutively. This UAV was deployed for the purposes of updating maps and obtaining data on the condition of the soil and plants of local agricultural lands. More than 60 sq. km was photographed.

Based on the data obtained, a 3D model was constructed and a map of the normalized vegetative index (NDVI) was created.
Ground Robots
We developed a robotic-wheeled complex with remote control, video surveillance and the possibility of carrying a payload. It has been designed for special operations in urban development.

The features of the system include a high range-of-action achieved through the use of a specially designed radio channel. The complex has been made with the IP65 degree of protection.
Robotic Complex
Robotic Complex for Scientific and Educational Tasks
We developed a robot that can stand-alone to plan a route, taking into account the detected obstacles, and which also performs the construction of detailed maps on unknown areas of terrain with the help of a lidar (SLAM algorithms).

This project is currently at the stage of industrial prototype production and is being carried out on behalf of a National Research University.
Anton Zhuchkov, a member of our team, is a co-founder of the Polyus-ST company, which developed the main technical means of border protection for some of the most critical border regions of the world, as well as pipeline and other vital infrastructure assets, and private property - the Radio Barrier complex. Radiobarrier has developed and successfully deployed a suite of perimeter-management technologies including seismic, infrared, radio-beam, direction-finding wireless signaling devices, video and thermal imaging wireless cameras, wireless wearable and stationary information reception panels.

More than 2,000 km of European border is covered by a radio barrier. Radiobarrier has delivered border and perimeter solutions to more than 20 countries of the world, across four continents, including: USA, India, Germany, Slovakia, Poland, Latvia, Bulgaria, Belarus, Kazakhstan, Uzbekistan, Turkmenistan, Morocco.
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