The School is dedicated to cultivating talents in cutting-edge technologies, focusing on core areas such as robotics, electrical and electronic engineering, and embedded development. We have established a range of fully-functional, specialized laboratories with distinctive features that balance theoretical application with innovative practice. These laboratories embody the School's educational philosophy of "Emphasizing Practice, Strengthening Integration, and Pursuing Innovation," providing students with comprehensive, high-quality practical platforms to support their professional development and scientific exploration.

As a key intelligent equipment practice platform developed by the School, the Collaborative Robot Laboratory focuses on the teaching, training, and research of collaborative robot technologies. Equipped with standardized experimental apparatus and robotic arm experimental systems aligned with the Unified Robotics curriculum, the laboratory supports diverse experimental projects, including robot motion control, trajectory planning, human-robot collaboration, and industrial scenario simulation. It helps students master core technologies in robotic engineering and develop the ability to solve complex engineering problems.

The Electrical Machine and Technology Laboratory focuses on foundational skills development in the field of electrical automation. As a core hub for students to solidify their professional foundation and enhance practical skills, it primarily undertakes experimental teaching tasks for courses related to motor principles, electrical control, and power electronics. Students can conduct experiments on motor characteristic testing, electrical circuit design, and electrical system debugging, gaining an in-depth understanding of the working principles of motors and electrical equipment. This laboratory builds a strong foundation in electrical control competencies, supporting students' subsequent professional studies and career development.

The Robot Mechanism Design Laboratory focuses on the design, modeling, and validation of robotic mechanical structures. Equipped with professional design and experimental apparatus, it supports practical tasks such as robotic mechanism design, 3D structural modeling, prototype fabrication, and performance testing. Integrated with the technological applications of the Collaborative Robot Laboratory, it forms a complete practice chain of "Structural Design - Component Debugging - System Integration," cultivating students' mechanical design thinking and engineering innovation capabilities.

The Electronic Circuits Laboratory serves as the core platform for hands-on practice in electronic information courses at the School. Focusing on the practical application of knowledge in analog electronics, digital electronics, and embedded system development, the laboratory is equipped with comprehensive experimental instruments including multimeters, signal sources, and regulated power supplies to meet fundamental experimental needs in circuit design, signal testing, and embedded program debugging. Additionally, the laboratory features a specially designed e-ink screen debugging car platform that combines electronic circuit knowledge with intelligent car development, enabling students to achieve deep integration of theory and engineering application through hands-on practice, thereby enhancing their comprehensive capabilities in embedded development and system integration.

Furthermore, the School is actively expanding its experimental capabilities. Preliminary preparations for equipment procurement for a Joint Experimental Center have been completed. Plans are underway to establish specialized experimental directions, including a 3D Printing Laboratory and an Embedded Linux Car Debugging Platform. These initiatives will further enrich experimental content and improve the practical training system, achieving functional complementarity and synergistic development among laboratories. This fully demonstrates the School's educational characteristic of placing practice at the core of talent cultivation, helping students grow into versatile professionals in cutting-edge technologies.