How do we operate?
PHASE I
: Analysis of Needs and Challenges
We start with an in-depth analysis of your needs and business challenges. Together, we define your goals so that we can tailor our proposed solutions to best meet your needs.
PHASE II
: Concept and Funding
Based on the identified needs, we develop a detailed solution concept. We also select the optimal sources of funding, such as FENG SMART, HORYZONT, or our own funds.
PHASE III
: Design and Implementation
Working closely with your team, we develop innovative technologies and successfully bring them to life—from concept to implementation.
What we offer
We provide comprehensive support at every stage of a research and development project:
- Custom R&D Services – We conduct research and development projects tailored to each client’s specific needs.
- Support from concept to implementation —we offer full commitment at every stage, with an emphasis on quality, effectiveness, and efficiency.
- Joint Applications for Funding – we provide technical support as part of applications in national and international competitions
In what areas do we operate?
Automotive Industry
We develop systems and conduct research on autonomous vehicles, artificial intelligence, vision systems, electromobility,, battery technologies, and structural design and numerical analysis
Defense and security
We design and develop technologies for autonomous unmanned systems, AI-based vision systems, and solutions in the field of electromobility , and advanced numerical analysis. Our goal is to enhance operational safety, system reliability, and operational effectiveness in challenging environmental conditions.
Industry 5.0
We support the development of modern industry by implementing automation using AGV and AMR mobile robots, creating advanced simulation environments that replicate real-world production conditions, and developing and applying solutions in the fields of computer vision and artificial intelligence.
Smart City
We develop innovative urban technologies, such as video systems that analyze traffic and infrastructure conditions, as well as other solutions that support smart cities.
Design Services
Software Development
Autonomization of Robots/Vehicles
Solutions for vehicle and robot autonomy tailored to specific requirements.
We offer:
- Designing an automation solution suited to the specified environmental conditions and processes
- Developing software for vehicles/robots using the ROS/ROS2 environment
- Development and implementation of algorithms responsible for: mapping, path planning, localization, and object detection and identification
- Development of software for managing fleets of autonomous vehicles/robots
- Integration of components such as lidars, daylight cameras, stereo cameras, thermal imaging cameras, satellite navigation, inertial navigation, encoders, etc., along with the implementation of the appropriate software
- Development and Optimization of Real-Time Obstacle-Avoiding and Collision-Avoidance Algorithms
Tools used: ROS/ROS2 , C++, Python, Linux
Vehicle Electrification
Comprehensive solutions for vehicle electrification.
We offer:
- Programming of vehicle control units, e.g., Kibes, Ecotron
- Development of comprehensive software for the master controllers of prototype vehicles
- Software-in-the-Loop Testing in the MATLAB & Simulink Environment
Tools used: MATLAB & Simulink , Vector
Simulation Environments
Development of simulation environments for testing and training autonomous systems.
We offer:
- The development of simulation environments for testing software for robots and autonomous vehicles
- The development of simulation environments that generate synthetic data for training neural networks
- Mapping Real-World Test Cases to a Simulation
- The Development of Digital Twins
- Simulation of various lighting and weather conditions
Tools used: Unity 3D, C#, Linux
Vision Systems
Intelligent image processing and spatial analysis systems for industry, security, and public infrastructure.
We offer:
- Design and implementation of monitoring and surveillance systems using daylight cameras, thermal imaging cameras, stereo cameras, and depth sensors
- Development of real-time video processing software, including noise reduction, stabilization, optical correction, and 3D scene reconstruction
- Development and implementation of AI models for recognizing behavior, anomaly detection, object tracking, and analysis of pedestrian and vehicle traffic density
- Solutions for security systems and Smart City initiatives: detection of adverse events, traffic flow analysis, public space monitoring, threat detection
- Vision systems for quality control, infrastructure inspection, and equipment condition analysis (e.g., detection of damage and excessive wear)
Tools used: PyTorch, Python, C++, Linux, OpenCV, ROS, CUDA, AWS
Data Collection Systems
Systems for collecting real and synthetic data.
We offer:
- Developing static and mobile real-time data collection systems using, among other things, lidar, cameras, radar, satellite navigation, inertial navigation, weather stations, and other technologies
- Development of software for the automatic labeling of real-world data using AI
- The development of synthetic data collection systems that account for any environment, weather conditions, and lighting conditions
Tools used: Unity 3D, ROS/ROS2, C++, C#, Python
Design
Research stations
Design and development of advanced research stations.
We offer:
- Designing and modifying complete test stands
- Development of control systems for new and existing test stands
- Development of software to control the operation of test stations
Tools used: SolidWorks, ZUKEN, HyperWorks, LabView
Vehicle Parts Design
Design and development of advanced research stations.
We offer:
- Designing and modifying complete test stands
- Development of control systems for new and existing test stands
- Development of software to control the operation of test stations
Tools used: SolidWorks, ZUKEN, HyperWorks, LabView
Special-purpose vehicles
Comprehensive design of specialty vehicles.
We offer:
- Comprehensive vehicle design that takes specialized requirements into account
- Design of Special-Purpose Structures
- Verification of design assumptions in simulation environments
Tools used: SolidWorks , ZUKEN, HyperWorks
Wiring harnesses
Design of advanced wiring harnesses.
We offer:
- Design of wiring harnesses for vehicles of all categories
- Design of HV Wiring Harnesses for Electric and Hybrid Vehicles
- Design and prototyping of power distribution units (PDUs) for electric and hybrid vehicles
Tools used: Zuken e3.series, MATLAB & Simulink
Energy Storage Facilities
Comprehensive design of energy storage facilities.
We offer:
- Comprehensive design of energy storage systems for vehicles and stationary applications, taking into account specialized requirements
- Determining Energy Storage Parameters Based on Application
- Selection of electrochemical cells or cell modules for the construction of a storage facility
- Prototype Development and Testing
- Comprehensive support for certification and the product launch process
Tools used: MATLAB & Simulink , Zuken e3.series, Altium Designer, dSpace, SolidWorks, HyperWorks
Powertrains
Design and integration of drive systems.
We offer:
- Determining the parameters of the powertrain based on vehicle specifications
- Selection of components from the market
- Integration of components into complete drive systems, integration of systems into the vehicle, commissioning and functional testing
Tools used: MATLAB & Simulink , LabVIEW, data acquisition systems from National Instruments
Prototyping
Vehicle Prototyping
Comprehensive vehicle prototyping.
We offer:
- Mechanical, electrical, and ICT integration of components and subassemblies
- Manufacturing of custom mounting components, enclosures, etc.
- Conducting commissioning tests on drive systems
- Construction of a vehicle prototype
Tools used: conventional lathes and milling machines, CNC milling machine, MIG/MAG and TIG welding
CNC Milling
Advanced CNC machining.
We offer:
- 3-Axis CNC Milling
- Capability to machine using an additional 4th axis
- Preparing Machining Processes in a CAM Program
Tools used: Haas VF-2 CNC milling machine, SolidCAM
3D Printing
3D printing using FDM technology.
We offer:
- 3D printing using FDM technology for parts with maximum dimensions of 700x700x1700 [mm]
- 3D Printing Based on CAD Geometry
- Consultations on 3D Printing Accuracy
Tools used: Builder Extreme 2000 PRO, Zortrax M200 Plus, HBOT 3D F300
Sample Projects
We designed an autonomous system for a vehicle with a trailer that was able to navigate around an obstacle flawlessly in a situation where a professional driver would not have had time to do so.
An autonomous vehicle on the streets of Jaworzno
We were the first in Poland to conduct tests of autonomous vehicle control systems. We prepared the vehicle and the systems, and obtained the necessary permits and approvals. The autonomous test drive took place in the Polish city of Jaworzno.
Enhanced performance in any terrain
We have created an autonomous operational support platform—
—that is capable of navigating difficult terrain. It can be controlled remotely, but in familiar areas, you can also set a destination to which the platform will travel on its own.
Our Team
We are a young, interdisciplinary team that combines a passion for new technologies with experience in various fields of engineering, computer science, and design. We are the Automotive New Technologies Research Group, ready to take on the challenges that the future of the technology industry holds. We value openness, creativity, and collaboration—we believe that a diversity of expertise is the key to effective and innovative solutions.
Contact us
Ewa Dargiewicz
International Relations Specialist
Mateusz Stefaniak
National Projects Specialist
Konrad Małek
Head of the Automotive New Technologies Research Group