Mathematical modeling plays a significant role in the design stage of various systems. With the help of mathematical models, we can describe and predict the behavior of complex systems, analyze their performance, optimize efficiency, and make informed decisions.

We provide services for modeling complex systems and their components during the development of physical prototypes and their interaction with the environment using simulators. Simulators serve as control objects for tuning and testing standard control systems, as well as prototypes for debugging algorithms. Our methods are based on creating a virtual testing environment using mathematical models of components, establishing their connections, and integrating them into a cohesive whole. Environmental parameters can be separately defined, allowing for the programming of even the most challenging environmental conditions to study the system’s behavior under extreme conditions.

Mechanical design refers to the process of creating and developing mechanical systems, components, and devices. It involves the application of engineering principles, materials science, and manufacturing technologies to design and fabricate mechanical products or systems that meet specific functional requirements.

The goal of mechanical design is to create innovative and efficient solutions that meet desired criteria of performance, reliability, and safety. It involves considering factors such as load-bearing capacity, structural integrity, temperature management, vibration control, and ergonomics.

This entails collaborating with other professionals such as electrical engineers, materials engineers, and industrial designers to ensure that the end product meets all functional and aesthetic requirements.

Our team of programmers specializes in developing software solutions for the most complex engineering tasks. We offer custom solutions based on the C++ and LabVIEW programming languages. Our approach is based on close collaboration with clients to fully understand their requirements and provide the ideal solution.

Using the C++ programming language, we develop powerful and efficient software solutions. C++ is one of the most powerful and flexible programming languages, allowing us to create high-performance and scalable software.

LabVIEW is a powerful tool for software development, especially in the field of automation and measurement. We use LabVIEW to create graphical user interfaces, data analysis, equipment control, and other engineering tasks.

Our design bureau offers services in CFD (Computational Fluid Dynamics) – a numerical modeling and analysis method for studying the behavior of fluids and gases. Using CFD, we investigate aerodynamics, heat transfer, chemical reactions, and other physical phenomena related to the motion of fluids and gases. We conduct detailed and accurate simulations to predict the behavior of systems and components, optimize their performance, reduce energy consumption, and enhance project efficiency.

FEA (Finite Element Analysis) is a powerful numerical analysis method used in engineering to model and evaluate the behavior of various structures and components under different loads and conditions.

We are experienced specialists in the field of FEA and extensively apply this method in our projects. FEA allows us to predict and analyze the mechanical behavior of parts and structures, such as metal and plastic components, frames, and enclosures, under various loads, including static, dynamic, thermal, and others.

We utilize modern software for conducting FEA, which enables us to create accurate 3D models of our designs and apply various mathematical methods for analysis and calculation. We take into account the physical properties of materials, boundary conditions, and loads to obtain detailed information about stresses, deformations, stiffness, strength, and other parameters that can affect the performance and safety of the structure.

We offer comprehensive services in the development of control systems of varying complexity.

One of the key features of our approach is the ability to conduct virtual testing of the control system. We create a mathematical model of the object and immerse it into a virtual environment, and then integrate them with the developed control system. This approach allows us to thoroughly test and optimize the control system even before its physical implementation.

Our team of experts in the field of electronics and RF technologies possesses deep knowledge and experience in the design and development of a wide range of RF components.

We specialize in the development of custom Software-Defined Radios (SDRs) based on reliable digital signal processing technology. These professional and reliable solutions for radio communication are designed for long-distance data transmission to both stationary and mobile devices. The encryption technology ensures the security of transmitted data and the control channel in the presence of active interference.

Flexible development is carried out on FPGA platforms from leading global manufacturers and can be easily configured for a wide range of industries. Our team of experienced engineers is ready to assist you with the setup and configuration of software-defined radio systems, offering competent and modern solutions for your scientific and technical challenges.

The development of printed circuit boards (PCBs) is an important stage in the creation of electronic devices and systems. PCBs are flat plastic boards on which electronic components are placed and interconnected by conductors and interconnections.

Accuracy, reliability, and efficiency are crucial aspects of PCB development. Each conductor, component, and connection must be designed correctly to ensure the reliable operation of the system. Factors such as heat dissipation, electromagnetic compatibility, and compatibility with other components and systems also need to be taken into account.

PCB development is a key element in creating modern electronics, allowing engineers to design compact, reliable, and functional systems. High-quality PCB design plays a crucial role in ensuring optimal performance and durability of electronic devices and systems.

Our immersion in the development of control and communication systems for aviation has led us to the creation of drone prototypes. In this exciting process, we have delved into the internal mechanisms of drones, delving into every detail, and now we proudly offer drone testing services.

Our drone testing services encompass a wide range of aspects, including the verification of control and communication systems, evaluation of flight stability, analysis of the performance of each component, and overall performance assessment. We have the necessary resources and expert knowledge to conduct all the required tests and ensure that the drones fully comply with the highest standards of safety and quality.