Her key disciplines are as follows:
Power Engineering and Engineering Thermophysics (0807)
I. Overview of Disciplines
Power Engineering and Engineering Thermophysics is an applied science that studies the basic laws of energy in the form of heat and work and other related forms in the process of transformation and transfer, as well as the equipment and systems that efficiently realize these processes according to this law and applied basic science.
The growing shortage of conventional energy and the increasing awareness of environmental protection make energy conservation, energy efficiency and the development of new and other renewable sources of energy an important task for the discipline. The sustainable development of mankind will inevitably promote the total energy-using equipment and systems, integration, automation, non-pollution, and the trend of transferring to a diversified energy structure.
This discipline contains six secondary disciplines. They are interpenetrating, intersecting, interdependent, promoting and advancing each other, which makes this discipline a rich content, wide application, continuous development, and constantly updated application system. Power Engineering and Engineering Thermophysics is the pillar of the sustainable development of the national economy, the driving force of all production activities and scientific and cultural activities, and the necessary guarantee for the daily life of the society. Together with materials and information, energy constitutes the three basic elements for the development of modern society. Power engineering and engineering thermophysics is applied in the field of transportation, industry, agriculture, national defense, and human life, production is closely related, and become a comprehensive embodiment of the level of modern science and technology, and at the same time is closely related to almost all fields of science and technology, to promote human use of energy and the development of modern power technology. The status of this discipline in the national economy and social and cultural development will be increasingly strengthened and prominent.
Optical Engineering (0803)
I. Overview of the discipline
Optical Engineering is a discipline with a long and young history. Its development characterizes the process of human civilization, and its theoretical basis ----- optics, as the backbone of physics, has experienced a long and tortuous path of development, casting geometric optics, fluctuation optics, quantum optics and nonlinear optics, which reveals the relationship between the laws of light generation and propagation and the interaction of matter. In the early days, mainly based on geometric optics and fluctuating optics to broaden human visual ability, the optical instrument industry was established with telescopes, microscopes, cameras, spectrometers and interferometers as typical products. These technologies and industries still play an important role today. In the middle of this century, the theory and technology of holography and optical information processing based on Fourier optics were produced. In particular, the introduction of the first laser in the early sixties realized a light source with luminosity and high time-space coherence, making photons not only a coherent carrier of information but also an effective carrier of energy. With the rise of laser technology and optoelectronics technology, optical engineering has developed into an optics-based, and with information science, energy science, materials science, life science, space science, precision machinery and manufacturing, computer science and microelectronics technology and other technologies, such as disciplines closely intersecting and interpenetrating disciplines. It contains many important emerging disciplines, such as laser technology, optical communications, optical storage and recording of optical information processing, optoelectronic display, holography and three-dimensional imaging, thin film and integrated optics, optoelectronics and photonics technology, laser material handling and processing, low light and infrared thermography, optoelectronic measurements, optical fiber optics, modern optics and photonics instrumentation and devices, optical remote sensing technology, and integrated optical engineering technology. etc. These branches not only make optical engineering has produced a qualitative leap, but also promote the establishment of a rapidly expanding scale of unprecedented modern optical industry and optoelectronics industry.
In recent years, in some important fields, the information carrier is being expanded from electromagnetic waveband to optical waveband, so that the main body of the modern optical industry is concentrated in the optical information acquisition, transmission, processing, recording, storage, display and sensing of the photoelectric information industry. These industries generally have digitalization, integration and microstructuring and other technical characteristics. While the traditional optical system is continuously intelligentized and automated so that it can still play an important role, the research on micro-optical system integrating sensing, processing and executing functions and exploring the role of photon in information science will become an important development direction of the discipline of optical engineering in the future.
The optical engineering program of the university was established in the 1960s, which is one of the early universities in China to establish this program. The university was granted the right to confer doctoral degrees in optical engineering in 1998, and also has the right to confer master's degrees (approved in 1981). The leader of the discipline is academician Zhuang Songlin, a famous optics expert. There are six doctoral supervisors and a group of highly educated young and middle-aged teachers who are dedicated to different directions in the field of optical engineering. Our optical engineering discipline has also followed the mainstream of the development of engineering optics at home and abroad, and has been constantly updated in the direction of the discipline, scientific research projects, and curriculum. Several research directions with remarkable characteristics have been gradually established, including information optics, optoelectronic precision testing technology, optical communication devices and integrated optoelectronics technology. This discipline is a key discipline of Shanghai Municipal Education Commission, supported and assisted by them. Over the years, it has undertaken the 973 project of national major basic research, the National Natural Science Foundation of China, and vertical and horizontal research projects at the municipal and ministerial levels, with an average annual research fund of more than five million. The faculty of the department is relatively strong, with 1 academician, 9 senior, 19 vice senior.
Second, the training objectives
should be in the field of optics and optical engineering research with a solid and broad theoretical foundation and systematic and in-depth expertise, understand the direction of the development of the field of discipline and the international academic research front, able to engage in theoretical and experimental research and make creative results, with the ability to independently engage in scientific research and technological development, and have a rigorous and pragmatic style of science. Scientific style of rigor and truth-seeking. At least one foreign language should be mastered, and the students should be able to read foreign language materials in their own specialties proficiently, and have certain writing ability and the ability to conduct international academic exchanges. They should be competent in scientific research, teaching, and engineering management in their own or similar specialties.
Three, the scope of business
(a) the scope of the discipline Optical Engineering first-level disciplines covering optical instrumentation, optoelectronics technology, optical information, photoelectric detection technology and other disciplines. The scope contained in these disciplines is roughly:
1. Optical Instruments: Optical Instrumentation, Photoelectric Detection Technology, Optical System Design, Optical Component Processing Technology, Thin-Film Optics and Technology, Near-Field Optics and Nano-detection Technology, Radiometry and Chromatics, Spectroscopic Technology, Infrared Technology, Space Optics, Ocean Optics, Astronomical Optics, Biomedical Optics and Visual Optics, Non-Optical Wavebands Optical instruments and optical integrated devices and engineering equipment, as well as some new high-precision opto-mechanical integration of instruments, such as submicron lithography, optical disk memory, nano-scanning probe microscope, laser weapons. This specialty mainly researches modern optical instrument design theory and method, modern optics and optical information processing, optics and ophthalmic optical instruments. Optical instrument image fusion, processing, understanding and recognition technology, optical instrument special process technology.
2. Optoelectronics technology: lasers and their unit technology, LIDAR, laser material handling and processing; laser applications, microstructured optics and optical integration, fiber optics and technology, nonlinear optical technology, optoelectronic materials, devices and technology. Our optoelectronics technology mainly research fiber optic technology applications, optical communication technology, thin film waveguide technology, ultra-high-speed high-capacity optical communication device technology, integrated optical circuit technology, micro-optical devices, optics and sensors and other special materials research, liquid crystal optoelectronic devices, fiber optic sensors and so on.
3. Optical information technology: optical communication devices and systems, imaging technology, machine vision, optical information processing, remote sensing technology, display technology, optical storage and recording, holography and three-dimensional imaging, optical computing, adaptive optics.
4. Photoelectric detection technology: photoelectric detection technology is the simultaneous use of modern optical technology and electronics technology combined with the means of computer technology on a variety of objects to implement the detection of integrated technology. The research direction of this discipline is an important part of the first-level discipline of optical engineering. This discipline is important to study the motion target speed and displacement detection, parts size and surface quality detection, light scattering particle detection technology, optical information acquisition technology and devices.
(II) Curriculum
Specialized courses related to the research field of doctoral degree: Advanced Optics, Guided Wave Optics, Particle Measurement Technology, Optical Fiber and Communication Technology, Optical Waveguide Coupling Theory, Modern Optical Technology and Sensors, etc.; In addition, a review of the international development and dynamics related to the doctoral degree research work will be hosted by professors, and doctoral degree students will report on the progress of their research work regularly.
Should have solid basic theories of systems engineering and systematic specialized knowledge; strong computer application skills; master a foreign language, proficient in reading specialized literature and writing abstracts for dissertations; and have the ability to apply systems engineering theories and techniques to engage in scientific research or practical engineering work.
Three, the scope of business
(a) The scope of research in the discipline Systems engineering theory and methods, behavioral analysis of complex systems, socio-economic systems engineering, system modeling and simulation, operations research and decision-making, optimization theory and application, comprehensive integration of man-machine systems.
(2) Curriculum Operations Research, Control Theory, Management, Systems Science, Decision Analysis, Management Information Systems and Decision Support Systems, Transportation Engineering, Artificial Intelligence, Principles of System Dynamics, Information Engineering, Analysis and Design of Algorithms, Fuzzy Statistics and Fuzzy Decision Making, Combinatorial Optimization, Stochastic Processes, Land Use and Transportation Systems, Modeling and Simulation of Systems, Theory and Technology of Computer Networks, Analysis of Complex Systems, Analysis of Economic Systems. Complex Systems Analysis, Economic Systems Analysis (Macro and Micro), etc.
IV. Major Related Disciplines
System Science, Control Theory and Control Engineering, Management Science and Engineering, Transportation Engineering, Information and Communication Engineering, Computer Science and Technology, Psychology, Applied Mathematics, Applied Economics.
IV. Major Related Disciplines
Physics, Instrumentation Science and Technology, Electronics Science and Technology, Computer Science and Technology, Mechanical Engineering, Information and Communication Engineering, Materials Science and Engineering, Biomedical Engineering.
Systems Engineering (081103)
Overview of the discipline
Systems engineering is a comprehensive engineering and technology discipline that rationally organizes, controls, and manages all kinds of systems from a holistic point of view in order to solve the increasingly complex social and practical problems. The emergence of systems engineering technology has greatly improved mankind's ability to understand the world and transform the world. With the development of society, its role will be more important and prominent. Systems engineering to industry, agriculture, transportation, military, resources, environment, economy, society and other fields in a variety of complex systems as the main object, systems science, control science, information science and applied mathematics as the theoretical basis, computer technology as a basic tool, to optimize for the main purpose of the use of quantitative analysis based on the combination of qualitative and quantitative integrated approach, research and solve the general system analysis, design, control and management problems. It is a research and solution of system analysis, design, control and management problems with generalization. Systems engineering and control science, management science, information science, economics and computer science have close links.
Second, the training objectives
This discipline cultivates engaged in a variety of systems organization and management, including planning, planning, scheduling, forecasting, decision-making, optimization and other work of senior specialists.
Refrigeration and cryogenic engineering (080705)
I. Overview of the discipline
Refrigeration and cryogenic engineering discipline is mainly the study of the principles and methods of obtaining, and maintaining the temperature below the ambient temperature, the realization of the condition of the instrumentation and equipment required, as well as the study of the engineering applications of the conditions of the temperature below the ambient temperature. Depending on the temperature, it can be further divided into two fields: refrigeration engineering, which deals with problems below 120 K, and cryogenic engineering, which deals with problems above 120 K. The discipline is also specialized in the field of refrigeration engineering. This discipline is closely related to the national economy and people's life, with the development of China's national economy, its position is more and more important. This discipline has a wide range of applications in many fields such as machinery, metallurgy, petroleum, chemical industry, food preservation, artificial environment, biomedicine, cryogenic superconductivity and space technology.
This secondary discipline and several neighboring secondary disciplines have **** the same disciplinary basis and intrinsic connection, but there are different from the neighboring disciplines of the research content. Some of the research content of this discipline and fluid machinery and engineering and chemical process machinery, some of the research content is relatively close to the interdisciplinary cross-penetration.
In 1981 and 1986, the university was awarded the first master's degree and doctoral degree in refrigeration and low temperature engineering. In 1988, the university produced the first graduate student who received a doctoral degree in refrigeration and low-temperature engineering in China.
This specialty is a provincial and ministerial-level key discipline, and its scientific research achievements have been awarded the National Natural Science Award, the First Prize of Scientific and Technological Achievements of the former Ministry of Machinery Industry, and the Second Prize of Scientific and Technological Progress of Shanghai Municipality. Teaching has been awarded the second prize of the National University Excellent Teaching Achievements, the first prize of Shanghai excellent teaching materials and other awards.
In addition to fresh graduates of the refrigeration program, this program especially welcomes other interdisciplinary candidates and people with practical experience in related industries and research departments to apply.
II. Cultivation Objectives
Degree recipients should have a solid theoretical foundation and systematic professional knowledge in the discipline of refrigeration and low temperature engineering; be familiar with the research direction and development trend of recent refrigeration and low temperature technology; master the testing, information processing and analysis technology and computer application technology in the field of refrigeration and low temperature; have the ability to engage in scientific research; and be able to solve the problems and solve the practical problems in the field of refrigeration and low temperature engineering. They have the ability to engage in scientific research; they can solve the problems in the field of refrigeration and low-temperature engineering in theory or practice and have new insights; they have the scientific attitude and style of being rigorous and realistic; they can master a foreign language more proficiently and can read the foreign language materials in this specialty. Master's degree holders can be competent in teaching, scientific research, engineering and technical work or corresponding scientific and technological management in their own disciplines or neighboring disciplines.
Third, the scope of business
(a) The scope of research in the discipline
Refrigeration and cryogenic equipment and systems, freezing and freeze-drying process mechanism, cryogenic biomedical technology, cold storage and transportation technology, automatic control and computer simulation of refrigeration and cryogenic systems, measurement technology and test equipment of refrigeration and cryogenic engineering, refrigeration, air-conditioning and cryogenic technology in the related field of applications, and energy conservation.
(2) Curriculum
Basic Theory Introduction to Modern Mathematical Methods, Modern Testing Techniques, Refrigeration and Cryogenic Technology, Cryogenic Biomedical Technology, New Technology for Refrigeration and Air Conditioning Applications, Academic Report on Power Engineering, Advanced Thermal Engineering, Numerical Heat Transfer.
Specialized Courses Refrigeration Heat Transfer Intensification of Heat Exchangers, Refrigeration System Testing and Control, New Technology of Refrigeration Compressors, New Environmental Friendly Processes, Freezing and Drying Technology of Pharmaceuticals and Foods, Freeze-Drying Technology of Pharmaceuticals and Foods, Refrigeration and Air Conditioning Unit Simulation, Absorption and Adsorption Refrigeration Principles and Applications, Heat Pump Technology, and Freezing and Chilling of Foodstuffs.
The curriculum should reflect the strengthening of theoretical foundations, broaden professional knowledge, and improve the ability to operate experiments
Four, the main related disciplines
The secondary disciplines within the first-level disciplines: Engineering Thermophysics, Thermal Engineering, Power Mechanics and Engineering, Fluid Mechanics and Engineering, and Chemical Process Mechanics. Related disciplines in the first level of heating, gas supply, ventilation and air conditioning engineering and other secondary disciplines.
Printing Engineering
Introduction of Printing and Publishing Key Disciplines
I. Overview of Disciplines
Printing and Publishing Key Disciplines has two second-level disciplines of Optical Printing Engineering, Media Management doctoral program, and master's degree granting authority of Communication Studies. The Digital Communication Laboratory of the General Administration of Press and Publication (GAPP) is a key laboratory, and the Modern Communication Science Experimental Teaching Center is a Shanghai-level experimental teaching demonstration center. 2006, the General Administration of Press and Publication (GAPP) and the Shanghai Municipal People's Government signed an agreement to *** build the Publishing and Printing College. College is the State General Administration of Press and Publication of printing and publishing senior personnel training base, is the China Publishing Science Research Institute Shanghai research base. Shanghai Printing Group, Shanghai Tobacco Industry Printing Plant and many other large publishing and printing groups, companies, publishing houses, etc. set up technology research and development, production, learning and research and personnel training base in our hospital.
This key discipline covers the undergraduate majors of Printing Engineering, Packaging Engineering, Digital Printing, Publishing and Editing, Communication, Advertising, Animation, etc., and is closely related to the majors of Art and Design and Industrial Design. The predecessor of the Printing Engineering program was the Printing Technology program of Shanghai Printing School, which was founded in 1953. The predecessor of Editing and Publishing is the Publishing Major established in 1959. Digital Printing is an out-of-catalog major applied for by the university, and is currently the only institution in China that has independently set up this major.
The discipline of Printing and Publishing is mainly concerned with the study of modern technology, working principles and methods in the fields of modern printing technology, modern publishing and communication and printing optical engineering, and the study of modern printing, publishing and communication working equipment, instruments and devices and their optimal working conditions, the best working conditions to give full play to the effectiveness of the equipment, and so on. The discipline focuses on scientific research on cutting-edge technology and application issues in the fields of digital printing, digital publishing and digitization of printing and publishing. The number of books per capita or the consumption of printing paper has become one of the important indicators of a country's modern civilization.
This discipline involves seven of the nine major fields that the "Outline of the National Cultural Development Plan for the Eleventh Five-Year Plan Period" clearly puts forward as the key areas of development, and also involves the four major cultural industry projects that the state has been focusing on, which are the key cultural development areas in China in the 21st century, especially in Shanghai, Beijing and other central cities. It is the key cultural and creative industry in China, especially in Shanghai, Beijing and other center cities in the 21st century, which is closely related to the national economy and people's life. With the development and improvement of China's national economy and social and cultural life, the status of the discipline will be more and more important. This discipline involves news media, mobile streaming media, digital printing and publishing, on-demand printing and publishing, new media, intellectual property rights (copyright), publishing culture and economy, China's outstanding cultural heritage and its optical engineering, mechatronics, management science and engineering, computer science and engineering and many other fields.
This discipline focuses on new media publications such as paper publications, web publishing, mobile publishing, etc. Taking printing and reproduction technology as a link, it forms an organic whole of the related fields of technology, creative design, copyright service, distribution and dissemination, etc., realizes the fusion and cross-penetration of the various professional fields within the discipline, and condenses the characteristics of this discipline, which is in a leading position in the country.
The discipline now has four leading talents in China's press and publishing industry, 18 experts with full senior professional and technical titles, nearly 37 experts with deputy senior titles, and more than 20 renowned experts, scholars and professors employed in the industry. The scientific research achievements of the leaders and main members of this discipline have been awarded the National Natural Science Award, the former Ministry of Machinery Industry Science and Technology Achievement Award, Shanghai Science and Technology Progress Award, Shanghai Teaching Achievement Award and many other awards. Teaching has been awarded the National Colleges and Universities Excellent Teaching Achievement Award, Shanghai Excellent Textbook Award and many other awards.
The main research scope of the discipline
Modern Printing Technology, Anti-counterfeit Printing Technology, Printing Optical Engineering, Packaging Creative Industry, Publishing Culture and Publishing History, Economy of Publishing Industry, Digital Communication, Digital Printing and Publishing, On-demand Printing and Publishing, Cultural and Creative Industry Policies and Development Strategies, Animation and Comic Industry and Policies, Printing Integrated System, Composite Publishing System, Green Publishing and Printing, Printing Equipment Manufacturing and Automation. and printing, printing equipment manufacturing and automation, and so on.
Medical Device Engineering
In September 2005, "Medical Device Engineering" was approved as a key discipline in Shanghai. Our medical device discipline is the first in the country to carry out the training of medical device professionals, and has a high reputation in the industry. In the construction of the discipline in recent years, the college has formed a scientific research echelon with a reasonable structure of age, education and title, including biomechanics and medical device engineering technology, medical information and medical instrumentation, medical device thermal science and other professionals, through screening the team, optimizing the candidates and introducing talents. At the same time, more than ten talents with doctoral degrees have been introduced.
Advantages, Characteristics and Development Prospects of Main Research Directions
1. Biomechanics and Medical Device Engineering
This research direction is mainly based on biomechanics, and researches on the application of biomechanics and thermodynamics in the areas of blood flow circulatory system, artificial heart valve testing, human prostheses, drug preparation technology, and fire fighting medicine. This research direction in the myocardial bridge simulation, endothelial cell stress culture and coronary atherosclerosis formation mechanism and other research has achieved a series of results, belong to the domestic and foreign innovative research in this field; in the artificial intelligent lower limb, new drug preparation process and other fields also has certain research characteristics. Biomechanics, thermodynamics is the important foundation of medical device engineering, and its combination with medical engineering in the blood circulation treatment and detection instruments, artificial prosthetic limbs and new drug preparation and other medical equipment development and application has broad prospects for development.
2, medical information and medical instrumentation
Medical information and medical instrumentation direction of the main research on the human body physiology and pathology of information detection and imaging, and the information obtained for processing, analysis and exchange of new technologies and new methods, to understand the life process and improve the level of clinical diagnosis to provide a new means. In recent years, a number of high-quality research results have been achieved in the above related fields, among which a series of researches have been carried out in medical high-frequency ultrasound imaging, computer-aided diagnosis of medical images, magnetic *** vibration functional imaging (MRI) and its processing, etc., and some of the results are at the leading level in China. Medical diagnostic instruments for medical information detection and imaging is an important element of medical equipment, will have broad prospects for development.
3, medical device thermal science
Medical device thermal science application of low-temperature engineering and biomedical combination of cell/tissue preservation, oncology cold and hot treatment, medical device development and other aspects of the basic and applied development research. Thermal science of biological systems and cryogenic biomedicine has a history of more than 20 years in our university, and a series of important results have been achieved in the optimal design of cryogenic cold knife, the prevention of blood vessel cryogenic fracture, calorimetric biosensor measurement technology, cryopreservation of living organisms, cryomedical surgery and other aspects of a series of important results, ranking at the international advanced level. This direction provides effective technical means and theoretical basis for the design and improvement of medical devices, preservation of tissues and organs, development and storage of drugs, etc., and maintains technological advantages in many fields with great development potential.
Overall objectives and expected results of discipline construction
Strive to improve the overall strength of the discipline and realize the breakthrough of master's degree through three years of key construction of the discipline.
To cultivate a number of young academic backbones with certain influence and achievements in China, as well as an academic echelon focusing on disciplinary construction and scientific research, and to construct a solid talent plateau for further disciplinary development.
Formation of experimental research bases of a certain scale and multidisciplinary intersection. Construction of public **** basic research experimental platform (including medicine, mechanics, thermology and machine, light, electricity and other specialized basic disciplines) and specialized research experimental platform (including biomechanics and medical device engineering, medical information and medical instrumentation and medical device thermal science).
Strive to cultivate one or two special scientific research projects in each of the three research directions that have a leading level in China in that direction.
To make the discipline in the research funds, high-quality papers, the conversion rate of research results, and the combination of industry-university-research with enterprises and other similar disciplines in the forefront of domestic institutions.
==== Key Disciplines of Shanghai Municipal Education Commission ====
Refrigeration and Low Temperature Engineering (080705) (Same as above)
Optical Engineering (0803) (Same as above)
Management Science and Engineering (1201)
I.Discipline Overview
Management Science and Engineering is a first-level discipline in the management discipline category
Management Science and Engineering is a first-level discipline in the management category. The discipline focuses on the study of management theories, methods and tools that are compatible with the development of modern production and operation, science and technology, economy and society. Applying modern scientific methods and technological achievements, it clarifies and reveals the laws of management activities, develops management theories, methods and tools, and improves the efficiency of management. And in response to new management problems arising from the constant changes in the world economy, research and innovation to establish new management theories and methods, and to promote the development of the discipline of management science and engineering to a higher level.
Shanghai University of Science and Technology (formerly Shanghai Mechanical College) established a master's degree program in systems engineering in 1984, a master's degree program in industrial engineering in 1991, and a doctoral program in management science and engineering in 1998, and is the only school with a doctoral program in the first-level discipline of management among the non-focused colleges and universities in Shanghai.
The discipline point now has 20 professors, including 16 doctoral supervisors and 10 associate professors. The discipline point has extensive cooperation and academic exchanges with the United States, Germany, Canada, and Taiwan and Hong Kong. The discipline attaches great importance to scientific research activities, has completed the National 863 project, the Natural Science Foundation Committee project and various provincial and municipal funds for more than 50 projects, published more than 500 papers in secondary academic journals, won a national science and technology awards, provincial and ministerial science and technology awards for 20, more than 30 projects in the research program, of which more than 10 provincial and ministerial level major key projects.
Second, training objectives
Management Science and Engineering is a discipline that closely integrates management theory and management practice. The discipline cultivates the overall development of moral, intellectual and physical, and has a high management quality, reasonable knowledge structure, strong research ability and the ability to solve practical problems of senior specialists.
With a broad and solid foundation of management theory, mastering systematic and in-depth knowledge of management, and being able to correctly use management methods, qualitative and quantitative system analysis methods and corresponding engineering methods to solve the relevant theoretical and practical problems in management. On this basis, they should have a broad understanding of the latest international developments in the relevant fields, and creatively put forward new correct views, theories and methods or scientifically utilize the latest research results to creatively solve important practical problems. To be able to independently carry out business work, teaching work and engage in relevant scientific research, and to have the foundation and ability to continue to learn, innovate and improve. Strong foreign language ability, can skillfully use one major foreign language to read the literature and materials of the discipline and write professional papers, with good listening and speaking ability, with the level required for international academic exchanges. Physical health, able to work and study tasks.
3. Scope of Practice
(1) Scope of Research in the Discipline
The main research areas of our discipline are:
1. Management Science: research on operations research algorithms and their applications, research on intelligent algorithms for combinatorial optimization, especially ant colony algorithms, research on methodology in decision-making sciences, especially research on fuzzy decision-making methods, research on enterprise production ( operation) management and control, intelligent loading and distribution algorithms combined with logistics and transportation, and their software.
2. Industrial Engineering: Advanced Manufacturing Technology Theory and Application Research, Enterprise Knowledge Management Theory, Methods, Tools and Applications, Enterprise Management Model, Complex Manufacturing System Operation Management, Modern Equipment Maintenance Management Research, Logistics and Supply Chain Management Research.
3. Management Engineering (including business administration): management engineering and behavioral sciences, the intersection of management engineering and economics, knowledge evaluation research, management mechanism design technology research, industry-specific management engineering methodology research.
4. Systems Engineering: Transportation Systems Engineering, Intelligent Transportation Systems Engineering Research, Regional Planning, Complex Systems Modeling and Optimization, System Dynamics, Urban Traffic Pollution Control
5. Information Management and Management Information Systems: Systems Analysis Methods and Tools, Knowledge Acquisition, Mining, Evaluation, and Management, Research on Supply and Demand Networks on the Internet and Applications, and Information Security Management.
6. Science and Technology Management: Research on the development strategy of high-tech industries, research on technological innovation mechanism, research on innovation system of small and medium-sized enterprises, knowledge management, etc.
(II) Course Curriculum
Frontier of Management, Frontier of Economics, and Methodology of Scientific Research.
Four, the main related disciplines
Management under the category of business administration, agricultural and forestry economic management, public **** management and related secondary disciplines; economics under the category of applied economics and related secondary disciplines; science under the category of mathematical sciences, operations research and cybernetics, probability theory and mathematical statistics, and system sciences and the secondary disciplines under the category of science.