The laboratory has been operating since 2016. Initially, the main focus of the laboratory's work was on designing and assembling unmanned aerial vehicles with the required functional features. A line of unmanned aerial vehicles was developed in the laboratory, including a glider, two hexacopters, a quadcopter, and a foldable quadcopter. The research laboratory develops the following areas: - development of a geospatial database for pile foundation construction; - study of kinematics, dynamics, and motion simulation of new tripod-type parallel robots; - development and research of neural machine translation methods for low-resource languages; - artificial intelligence and neural networks. In addition, the laboratory conducts joint research with the Biology-Geography Faculty on the effect of magnetic fields on plant growth and the automation of hydroponic installations, and with the Physics-Technical Faculty on the properties of thermal insulation materials. The research laboratory "Applied Mechanics and Robotics" provides training for master's students in the educational programs "Mechanics" and "Information Systems and Technologies." In the "Applied Mechanics and Robotics" laboratory, the following projects are being implemented under grant and program-targeted funding for 2024–2026: 1. Grant project "Artificial intelligence technologies for implementing adaptive personalized learning in higher education" (project leader – Senior Researcher Kazimova D.A.) 2. "Zhas Galym" project "Improved method for calculating bending and free vibrations of functionally graded beams on an elastic foundation" (project leader – Nurgozieva A.Zh., scientific consultant – S.B. Akhazhanov).