Introduction of the school of Artificial Intelligence and Innovation
In the context of the era of artificial intelligence development entering a new stage, Maanshan University officially established the " school of Artificial Intelligence and Innovation " on April 30, 2020. This move aims to comply with the China's technology development strategy; meet the needs of the industry's development; give full play to the industry advantage of Sunwin Intelligent, the host of Maanshan University, which is a high-quality artificial intelligence enterprise; make use of the advantage of cultivating application-oriented talents which including the flexibility system and full chain for studying, researching and producing in a private university; bring into play the regional advantages of discipline-developing and talents-training in artificial intelligence field in the Yangtze River Delta Economic Belt; explore the new model of production-study-research cooperation in the intelligent industry; make great contributions to promote China has a leading position in the new round of international competition.
There are four majors in the School of Artificial Intelligence Innovation: artificial intelligence, robot engineering, unmanned aerial vehicle engineering, and rail traffic signaling and control. It has It has a team of "double-qualified" teachers with excellent academic skills and reasonable structure. Each major leading person is in charge of some institutions of well-known enterprises, has some research institutions, for example, the post-doctoral research station, the provincial laboratory and so on.
The School of Artificial Intelligence Innovation has solidly promoted the cultivation of high-quality application-oriented talents, which is needed for China's economic and social development in under the circumstance of industrial transformation and upgrading, and devoted the best effort to building a top-class artificial intelligence application-oriented undergraduate education base for accurately docking society and industry requirements and actual need of artificial intelligence construction and making a bridge between the university and companies. Moreover, the school will develop and employ the "project + tutor " undergraduate education model, which refers to the whole school would adopt small class management, implement the professional course model of "every student has a project" to make each of them participate in practical industry projects so that their practice capacity and application ability can be enhanced learn professional knowledge through learning professional knowledge during the project. In addition, the school will also take the industry and high-quality subject competitions among universities as a path to foster students' sense of innovation and innovation ability, hammer at letting every student can have a better platform and effectively improving the level of students’ academic performance and employment, and explore the new path of artificial intelligence connotation development through its own practice, to form a coordinated developing situation, which including "basic research "," talent cultivation ", and" industrial innovation ", and make the school a domestic well-known and regional first- rate research and talents highland.
The school of Artificial Intelligence and Innovation is willing to cooperate with domestic and foreign counterparts in various fields such as teaching and scientific research for contributing to the fourth industrial revolution and the development of the country and society.
Artificial intelligence is the science of researching and developing the theories, methods, technologies and application systems for simulating, extending and expanding human intelligence, which is a comprehensive combination of mathematics, systematics, control science, computer science, cognitive science and other disciplines. At present, artificial intelligence is fully integrated with various fields such as industry, commerce, and finance, pushing the continuous evolution of the economic pattern and driving the sustainable growth of social and economic entities.
Training objective: The artificial intelligence major is committed to cultivating the high-quality application-oriented talents, who are qualified for national strategy and the development needs of the artificial intelligence industry in Anhui province, who have enough knowledge about information science, mathematical statistics foundation, computer system and solid programming skill, as well as basic knowledge and skill of big data, who can master the AI core principles and AI thinking and use data thinking, AI models, tools, speech recognition, NLP, image processing and other technologies to solve practical problems with facility. After graduation, graduates can engage in intelligent system integration, intelligent software design and development, and management and operation of intelligent application system in government departments or enterprises and institutions.
Advantages: The host of Maanshan University, Sunwin Intelligent is the leading artificial intelligence company in China, which has some platforms such as the Artificial Intelligence Research academy and the Osaka University Research Institute . The artificial intelligence major emphasizes the application of complex thinking and methods in intelligent theory research and intelligent system development and highlights the intersection and integration of artificial intelligence technology with some industries such as smart cities, rail transit, and health.
Robot engineering is an emerging major established in line with the national strategy of intelligent manufacturing and the development trend of robot science and technology. It is a typical new engineering major, which is quite cutting-edge, comprehensive and practical. This major takes robot science and technology issues involved in disciplines such as control science and engineering, mechanical engineering, computer science and technology, materials science and engineering, biomedical engineering, and cognitive science as the research objects, integrates application of natural science, engineering, social sciences, comprehensively applies the theories, methods and technologies of natural science, engineering technology, social sciences, humanities and other related disciplines. It is a interdisciplinary cutting-edge discipline that studies intelligent perception of robots, optimal control and system design, and human-computer interaction mode, etc.
Training objective: As the most cutting-edge subject of the robot and the artificial intelligence field, the robot engineering major follows the Trinity concept of "basic theory of robotics + innovative thinking + engineering practice", cultivates the senior engineering and technical personnel, who grasp the natural science fundamental theory and the expertise of robot system design, manufacture, perception, control and application, who has the good learning and practical ability, innovation and entrepreneurship awareness and broad international vision, and the capability to solve complicated issues in the related field of robot engineering.
Advantages: This major is oriented towards the front line of research and and production, which implements the education concept of equal emphasis on theory and practice. Relying on the tremendous accumulation of Sunwin Intelligent in the field of artificial intelligence and robots, it thoroughly utilizes the project experience of research and development in industrial robots, inspection robots, and service robot research, innovates the "project system" and "problem-oriented" teaching model, promotes the high-quality resources of enterprises to undergraduates, creates first-class learning and training conditions, and fully mobilizes students initiative to cultivate excellent talents.
Unmanned aerial vehicle system engineering (code: xxx) refers to the aircraft system using unmanned aerial vehicle technology platform equipped with various sensors and mission equipment for completing certain tasks or functions. Unmanned aerial vehicle major belongs to the engineering category, which is the first-level discipline of aerospace science and technology.
Training objective: The unmanned aerial vehicle system engineering major belongs to the second-level discipline of aircraft design and the unmanned aircraft design major. In the process of training students, the teaching and research department unceasingly open up the training ideas, fully understand and carry forward China’s OBE (Outcomes-Based Education) teaching concept, ceaselessly integrate the cultivation of innovation and application ability in the teaching process, blend the ability training of unmanned aircraft operation, unmanned aircraft aviation mapping, unmanned aircraft aerial photography, etc. in the training plan to constantly improve the students’ operation and application ability for the unmanned aircraft system.
Advantages: This major, which focused on discipline forefront and meets the needs of regional industrial development and basic public services for talents, reasonably determines professional courses and training goals, and trains students to establish correct outlook on the world, life and values according to the training objectives and quality requirements of graduates, to enable students to master the necessary calculation ability, project experiment ability and literature retrieval ability for working on the unmanned aircraft system engineering field. Furthermore, it understands the positioning of private universities and teaches students according to their aptitude to make students not only have the professional aircraft design ability, but also have the ability to pilot and control various types of mission aircraft that are close to the society and the service industry, deepens the training model of versatile technical talents, fulfills the training concept of equal emphasis on academic education and skill training, and adheres to the combination of academic education and vocational skills training to improve students’ related capacity.
Since the major was approved for enrolling students in 2019, it focusing on the training of unmanned aerial vehicle design ability and the improvement of students' employment ability, taking the national "1 + X" certificate education reform as a breakthrough and refining the reform into the teaching system trials reform, which is bachelor degree certificate of unmanned aerial vehicle design ("1") + more than two kinds of unmanned aerial vehicle professional operation ability certificate ("X"). The school has set up the unmanned aerial vehicle reform experimental class for pushing the close combination of the construction of profession, curriculum, teacher team construction, etc. A series of teaching innovation activities are approved such as leading by project and teacher , deepening teaching mode and compilation of textbook, teaching method reform, etc. In addition, the school has mainly constructed four professional unmanned aerial vehicle laboratories, including unmanned aerial vehicle software design laboratory, unmanned aerial vehicle assembly and debugging laboratory, unmanned aerial vehicle flight simulation laboratory, unmanned aerial vehicle mission equipment teaching laboratory as well as a flight performance studio, which can effectively promote the connection of the basic teaching theory and practical application and improve the development of educational background and professional skills to ceaselessly enhance students’ innovative employment ability.
In the current situation of rapid development in high-speed railway and urban rail transit in China, according to the demand of its construction and safe operation, the requirement of professionals in signaling and control of rail transit will increase dramatically. In 2018, the university was approved to for recruiting students in this major. With an excellent faculty team, relying on the " rail transit automation joint key laboratory of universities in Anhui" and a number of project practice bases, this major focuses on training students' professional practice and vocation transformation ability.
Training objectives: The major aims to train students to master basic automation theory and signaling professional knowledge, and have good engineering quality, practical ability, system analysis and design ability, team cooperation and communication ability to make them practical personnel, innovative technical talents and management talents for construction, design and manufacturing, system debugging, operation and maintenance in railway, urban rail transit and other fields, who have international vision and innovation awareness and can adapt to continuous vocation development.
Main courses: introduction to traffic signal and rail transit, foundation of rail transit signal, automatic control technology of train operation, remote control of railway signal, system safe technology, detection technology of urban rail transit equipment, urban rail transit control system, comprehensive monitoring technology of urban rail transit, urban rail transit communication technology, industrial LAN(local area network) and fieldbus technology, automatic control of section and station signal, intelligent transportation communication and information technology, power transformation and distribution technology of urban rail transit, etc.
Career development: Thanks to the outstanding demand and complete training system of this major, graduates can choose to be a postgraduate, or engage in departments which are related to information and control such as research, design, development, manufacturing, and operation management in design institutes, railway bureaus, research institutes, metro companies, engineering bureaus, signaling companies and system integration institutions, etc.
