BR28713375 – Multipurpose Robotic UAV Platform for Remote Monitoring (AeroScope)
Objective of the project – Develop and implement a robotic monitoring tool for multiple uses, including area control, landscape change analysis, detection of unauthorized access to a facility, and retrieval of lost livestock.
Relevance: Technical Assignment No. 20 aims to develop a UAV-based monitoring system that combines technological advancement with practical applications for agriculture and other spatially distributed systems. The project focuses on creating multispectral data processing methods to analyze vegetation and soil conditions, detect environmental threats, identify unauthorized intrusions, and forecast ecosystem risks. The implementation of such a system will standardize advanced monitoring approaches and support efficient, economically viable management practices across various sectors. Its widespread use will reduce weather-related risks, enhance productivity and quality of life, and contribute to training specialists in data analysis and processing.
Scientific supervisor: Candidate of technical sciences, Professor, Abdoldina Farida Nauryzbayevna
Expected and achieved results: The program will develop a UAV-based robotic system with a range of up to 30 km, vertical take-off and landing capabilities, and adaptive GPS/RTK navigation with high landing accuracy. Advanced algorithms for automatic data and video processing, object recognition, segmentation, and multispectral analysis will be implemented to monitor environments, detect risks, and identify changes with high precision. Systems for precise landing, trajectory prediction, and energy management will be created to enhance flight safety, efficiency, and autonomy. Optimized aerodynamic designs, software solutions, and prototypes for applications such as agriculture monitoring, risk detection, and surveillance will also be developed. Educational materials will be prepared, specialists will be trained, and a database of aerodynamic research results will be compiled. The final outcome will include an integrated prototype combining data analysis, video streaming, and navigation systems. Project results will be disseminated through high-impact scientific publications, a monograph, and patents or other intellectual property registrations.
List of publications with links to them
- Suleimenov I., Kadyrzhan A., Vitulyova Y., Shaltykova D. The use of fiber optics for securing information during command transmission to UAV groups // International Journal of Information Technology. – 2025. – DOI: https://doi.org/10.1007/s41870-025-02719-2