Faculty of Information Technology

1.Electronic Science and Technology (including experimental class)

Objective:We provide innovative applied professionals with solidscience and professional foundation, good humanistic qualities,professional ethicsandaninternationalvision. Students shouldbe able to adapt to the development needs of the capital, track and learn new technologies and knowledge,andengagein design and development, process preparation, packaging inspection and operation management in relatedfields of solid devices,integrated circuits and systems.

Curriculum:

Core courses: Integrated Circuit CAD, Integrated Circuit EDA, FPGADesign, RFIntegrated Circuit Analysisand Design, Circuit Analysis, Analog Electronic Technology, Digital Electronic Technology, Microcomputer Principlesand Applications, Semiconductor Device Principles, Semiconductor Physics, Solid State Physics, Quantum Mechanics, etc.,60 coursesin total.

Featured courses: Integrated Circuit Analysisand Design, Semiconductor Device Physics.

Career:Students can choose toengage indesign research and technical management in high-tech fields such as microelectronics and optoelectronics, andthey areparticularly suitable for companies in the design, production and system integration of ultra-large-scale integrated circuits.

2..Electronic Information Engineering (including experimental class)

Objective:Oriented tothe development needs of the country, especiallyofthe capital Beijing in the field of information technology,this program aims toprovide high-quality professionals of engineering withsolid mathematical knowledge,basic engineering knowledge,and knowledge ofprofessional theory andcomputer software and hardware application system development in the field of electronic information. Students are required to have practicalandprofessionalcomprehensive applicationcapabilities,be qualified forsystem design and development, operation maintenance, test analysis, engineering project implementation and management of electronic systems, signal information processing and related fields, andbe able toundertakeresponsibilities ofsocial economy, law, scienceand technologyand sustainable development,andlead the team tomakeachievements in creative engineering practice activitiesastechnology and management backbone.

Curriculum:

Core courses: Circuit Analysis, Analog Electronic Technology, Digital Electronic Technology, Signalsand Systems, Digital Signal Processing, Communication Circuit Principles, Communication System Principles, Modern Detection Technology, Automatic Control Principles, Computer Control Systems, Random Signal Analysis, Computer Software Foundation, Principlesand Applications Of Microcomputers, Embedded System, Electromagnetic Fieldsand Microwave Technology, Integrated Circuit Analysisand Design, etc.

Featured courses: Self-Study Courses, Bilingual Courses, Digital Electronic Technology, Digital Image Processing, Television Principles, Optical Fiber Communication Principles, DSPTechnologyand Applications, etc.

Career:Students areable to engage in technical research, engineering design, product development, technical management and support of electronic information and related industries. Graduatescan choose towork in scientific research institutes, high-tech companies at home and abroad, government agencies and institutionsin orrelated to the electronic informationtechnologyindustry.

3.Computer Science and Technology (including Experimental Class)

Objective:In accordance with higher professional standards, we focus onimproving students' innovative ability,comprehensive quality,innovative spirit and practical ability. Weteach studentsaccording to theirmerits, and promotetheirpersonality development.Studentsare encouragedto participate in the research work of the mentor’sresearch grouptoobtain high-level scientific research training, and they are supposed to be professionalswith solid basic professionalknowledge and outstanding professional capabilities.

Curriculum:

Core courses: Advanced Mathematics, Linear Algebra, College Physics, College English, Probability and Mathematical Statistics, Advanced Language Programming, Collection and Graph Theory, Algebra and Logic, Object-Oriented Programming, Data Structures and Algorithms, Database Principles, Compilation Principles, Operating System Principles, Introductionto Software Engineering, Principlesof Computer Composition, Microcomputer Interface Technology, Digital Logic, Computer System Structure, Computer Network, etc.

Featured course: Freshman seminars: designed to enable freshmen to recognize their majors, stimulate theirthirst for knowledge,curiosity and interestinresearch,form thehabits of active thinking, discussion and inquiry learning, and promote the formation of an exploration-basedfreshmenyear,understand the work of well-known professors andappreciatetheir style. Such courses mainlycombineclassroom teaching and discussion.Presided by the teacher, the discussion between teachers and students and between students and students is conducted in a flexible and diverse organization and teaching method, staringwith professional cognitionandfocusing on topics of common interest to teachers and students.

Weemphasizethe discussioninthe learning process;Aseries of self-study elective courses under the guidance of teachers: C ++ Language Programming, Assembly Language Programming Courses; Specified Formal Languageand Automatic Introduction, Calculation Methods, Operations Research, Mathematical Modelingand Other Mathematical Elective Courses; Database New Technology, Linux Operation System Principles, Network Management Principlesand Implementation Technologies, TCP/ IPProtocol Analysisand Application, Network Planningand Design, Digital Image Processing, Pattern Recognition, Data Warehouse, Data Mining, Parallel Computing,E-Commerce, Next-Generation Internet Technology, Multimedia Technology,Computer Control Principlesand Technology, Digital System Design,and Information Security Law Foundation, etc.

On this basis,weorganizestudents to undergo a series of rigorous training in engineering practice links to improve students' innovative ability, including Physics Experiments, Digital Logic Experiments, Curriculum DesignofAdvanced Language Program , Curriculum DesignofData Structureand Algorithm Analysis, Curriculum DesignofComputer Theory, Course DesignofHuman-Computer Interaction, CourseDesignofSystem Software, Course DesignofEmbedded System Principleand Technology, Course DesignofComputer Network, Computer Scienceand Technology Professional Internship, etc.Meanwhile, bilingual courses:Digital System Design, Advanced Operating Systemare also provided to improve students'professional English proficiency, andtostrengthentheirprofessional Englishskillswhile studying professional courses.

Career:Students can choose to engagein the research and design, development, management and maintenance of computer software and hardware systems, computer networks and communication systems in various fields of the national economy.

4.Software Engineering

Objective: This programfocuses ondevelopingadvanced professionals who can adapt tothe country’s economic construction and social developmentandexcel in ethics, intellect,andphysique, and havea solid theoretical foundation and good professionalquality,awide knowledgeofapplication, a higher level offoreign language applicationskills,and strong capabilitiesofsoftware development and engineering practice.From the second year, the major is divided into three directions: software technology and applications, embedded software and systems, and big data. Students can choose course modules according to their own development needs.

Curriculum:

The main courses set for this major areAdvanced Language Programming, Object-oriented Programming (C ++), Discrete Mathematics, Digital Logic, Introductionto Software Engineering, Data Structureand Algorithm, Computer Composition Principles, Database Systems, Operating Systems, Computer Networks, Software Processesand Project Management, Compilation Principles, Software Testingand Quality Assurance, Object-oriented Modelingand Analysis, Algorithm Designand Analysis, Software Designand Architecture. For first-year freshmen, the school and enterprise jointly set up classes,Freshmen SeminarsandA Glance at Internship,so thatthey canhave a certain understanding of the future development and employment prospects of the IT industry and software engineering.For sophomores,curriculum modulesare setaccording to theprofessionaldirection, and students can choose different professional directions according to their own development needs.

Curriculum modules of embedded software and system: Embedded System Design Principles, Embedded Microprocessor Structure, EDADesign Technologyand Tools, Embedded Operating System, Embedded Software Development Technology, Internetof Things Technologyand Application.Apart fromthe public practice courses of software engineering,we also setcomprehensive design practice courses and featured courses taught by foreign experts in English, such as: Mobile Development Practice Basedon Andriod, Creative Design PracticeofElectronicsBasedon Arduino, FPGA-Based Digital Circuit Design, Soc Embedded Operating System Designand Practice, Embedded Softwareand System Engineering Training, etc. Wecooperatewith domestic and foreign companies to strengthen engineering training, emphasizethe new educationconcept of "learning in doing"ofCDIO,focuson the practical teaching process,set upa number of internal and external internship bases,and havea good graduation design environment and conditions.

Course modules for software technology and applications: Java Programming, Web Middleware Technology, Data Mining, Introductionto Artificial Intelligence, Introductionto Information Security, Agile Software Development, Human-Computer Interaction Technology, IntroductiontoGridand Cloud Computing, Technologyand Applicationsof IoT, Digital Image Processingandotherprofessionalcourses.Atthesame time, we set correspondent matched courses:Supporting Program Design Practice, Software Engineering Development Practice, Mobile Software Development, Web Development Practice, Software Testing Practice, Network Communication Programming, Comprehensive PracticeofLarge-Scale Software EngineeringDevelopmentand other practice andcomprehensivetraining courses. Some of the core courses are conducted in bilingual teaching. Each semester's practical courses adopt the method of school-enterprisejointtraining, some of whichare taught byenterprise experts or carriedoutin the manner ofenterprise training at the internship base inside and outside the school.Seniors are arrangedwithenterprise internship and graduation design.

Course modules in the direction of big data: Introductionto Big Data Technology, Cloud Service Engineering, Information Resource Planning, Python Program Development, Information Service Management, EnterpriseEntrepreneurial ManagementofBig Data, ApplicationandPracticeofBig Data Industry.Web Development Practice, Database Application Experiment, Software Testing Practiceand ApplicationandPracticeofBig Data Industry and other practical and comprehensive training courses.Some of the core courses are conducted in bilingual teaching. Each semester's practical courses adopt the method of school-enterprisejointtraining, some of whichare taught byenterprise experts or carriedoutin the manner ofenterprise training at the internship base inside and outside the school.Seniors are arrangedwithenterprise internship and graduation design.

Career: Graduates in three directions of software engineering majors are suitable for engaging inapplication software development, software technology development and service, information system operation and maintenance, and information managementinvarious enterprises,institutionsandstate agencies(including information science, communications, computer, automation, intelligent technology, medical treatment, consumer electronics, automotive electronics, aerospace, etc.);they canalsoworkin areas such as the Internet of Things, mobile communications, smart home, mobile internet, and aerospace, etc., or continue to further their study.

5.Software Engineering (experimental class- embeddedsystems)

Objective:Closely integrated with the industry, we aim to provide high-level, internationalized, and applied professionalsin the direction of embedded systems, whoexcel in ethics, intellect,andphysique, havea solidmathematical foundation and software engineering technology foundation,master the basic knowledge, basic skills and design methods of embedded systems, and have good ability to analyzeand solveproblems and use foreign languages.As a special experimental classof the "MOEInnovation Experimental AreaofJoint Training ModelofApplied ProfessionalBJUT-Xilinx Software Engineering (Embedded System) ", the outstanding engineering cultivation modelenablesstudentsto be innovative and to have cutting-edge knowledge ofembedded software, embedded hardware, SoC and embedded applications, understand and apply the latest technology in the industry.After graduation, students have the ability to engage in application-oriented embedded system design.

Curriculum:

Core courses: Seminarsfor Freshmen, Advanced Language Programming, Digital Logic, Discrete Mathematics, Circuitand Electronic Technology, Computer Composition Principles, Assembly Language Programming, Computer Networks, Data Structure And Algorithm, Computer System Structures, Operating System, Database Principles, Introductionto Software Engineering, Analysisand DesignofIntegrated Circuit, Software Architecture, Compilation Principles, Digital Image Processing, Introductionto Information Security, Introductionto Artificial Intelligence, Cutting-Edge Technologyof The Internetof Things, Short-range Wireless Communication Technology, Human-Computer Interaction Technology, etc.

Featured courses: Embedded System Design Principles, Embedded Microprocessor Structureand Application, EDADesign Technologyand Tools, Integrated DesignofFPGA-based Hardwareand Software, Embedded Operating System, Integrated DesignofEmbedded System Hardwareand Software, Frontier Series CoursesofEmbedded System, etc. At the same time, courses taught directly in English by foreign professors are: Fpga-Based Digital Circuit Design, Soc Embedded Operating System Designand Practice, and courses taught by enterprise experts are: Creative Design PracticeofArduino-based Electronic, Android-BasedMobile Development Practice, etc.

Career: After graduation, students canchoose to engage indevelopment, design, research, management, education and teachingofinformation science and technology (including information science, communication, computer, automation, intelligent technology, medical, consumer electronics, automotiveelectronics, aerospace, etc.)inthe IT industry and high-tech companies, scientific research institutes, colleges and universities and other enterprises and institutions.

6.Digital Media Technology

Objective:Through learning and practice,this major requires students to masterthe basic concepts, theories and methods of computer science and technology, software engineering, digital media technology, and digital art design. We aim to provide inter-disciplinary professionals whoexcel in ethics, intellect,andphysique, combine computer science and art design, have the ability todesignanddevelopsoftware andinnovatedigital artdesign, with awide knowledgeofapplication, a higher level offoreign language applicationskills,and strong capabilitiesofengineering practice.Through "upgradingteaching with works", "testing the teaching process with teaching results", "improving students’levelwith scientific research" and "undergraduate teachingmentor mechanism (sixth to eighth semester)", we carry outsystematicinter-disciplinary teaching practice which isconsistent with thedigitalmedia technology teachingpattern, withthe combination of theory and practiceandinnovative thinking and digital art design as the core,torealize the integration of computer science and art design.

Curriculum: The main courses of thisprogramare: Freshman Seminarsand Cognitive Practice, Basic Arts (Sketchingand Original Painting), Basicsof Color Science, Discrete Mathematics, Introductionto Software Engineering, Computer System Platform, Object-oriented Programming (C ++), Java Program Design, Computer Graphics, Layout Art Design, Interface Design, 3D Art Design, Database Application, Designand PracticeofIOSSystem Application Program, Designand PracticeofAndroid System Application Program,C # Programming, Introductionto Animation, Animation Movement Law Practice, 3D Computer Graphicsand 3D Technology, ApplicationofMotion Capture System, Game Engine Analysis, Game Development Design, Game Development Practice, Virtual Reality Technology, Work Practice, Graduation Design. In order torespond tothe smooth progress of theoretical teaching and experiment, training and practical activities,this program is equipped withvirtual reality laboratory, animation laboratory, motion capture laboratory, film and television laboratory, recording laboratory and digitalentertainment development laboratories, etc.,enabling us tocarry out systematic theoretical and practical teaching activities with innovative thinking and work design as the core.

Career:Graduatesof this programare suitable forengaging insoftware development and productionof digital mediadesign, digital game design, scientific visual design and virtual reality design,or working oncreation, education, design practice andcommunicationininterdisciplinary fields;theycan also continue to study for a master's degree in software engineering and related disciplines.

7.Communication Engineering

Objective:Oriented to the needs ofnational new generation information technology industry innovation and the needs of Beijing to build a national science and technology innovation center and build a "high-precision" economic structure,we aim to provide high-qualityprofessionals who dedicate to work,havelegal awareness and social responsibility, masterbasic theoretical knowledge and professional skills in communication engineering,havestrong self-learning ability, practical ability and innovative awareness;who canengage in equipment research and development, network design, operation management, project implementation and other work in the field of communication and related information technology;whocancarry out industry application innovation work in the eraofthe "Internet + ".

Corecourses:

Fundamentalsof Circuit Analysis, Analog ElectronicsTechnology, Digital ElectronicsTechnology, Signaland System, Digital Signal Processing, Communication Circuit Principles, Communication System Principles, Information Theory Foundations, Microcomputer Principlesand Applications, Multimedia Data CommunicationTechnology, Mobile Communications, OpticalFiber Communications, Satellite Communications, Modern Exchange Technology, Introductionto Modern Communication Technology, Embedded System, DSPTechnologyand Application, and other basic courses and professional courses.

Featuredcourses:Practical training is an important feature of this major.Apart fromthe experiment modules and course designofregular courses,we also offer avariety of comprehensivepractice andtraining (electronic engineering design, comprehensive trainingofsignal and information processing, communication system design training, etc.),and variouskinds of extracurricular professional competitions and internships in off-campus internship bases.

Career: This major focuses onprovidingwide-caliberprofessionalsfor various industries. Graduates can choose careers in communication engineering, electronic engineering, information engineering, computer communication and other professional fields.Their career choicesinclude communication operators, communication equipment manufacturers, well-known enterprises in the field of information and communication, and the Internet,finance, aerospace and other related industries.

8.Microelectronics Science and Engineering (Experimental Class)

Objective:We aim to develop technical professionals of engineering who havea broad theoretical foundation, solid professional knowledge and practical ability in microelectronics science and engineering, an international perspective, awarenessofenvironmentalprotectionand energy conservation, innovation awareness, teamworkspirit, social responsibility anddedication to work,and have the ability toengage in the design, manufacture of various electronic components, integrated circuits, and even integrated electronic systems,and the research, development and management of new products, technologies and processes in the fields of microelectronics.

Curriculum:

Core courses: Integrated Circuit Design,Electronic Design Automation for Designing Integrated Circuits, FPGADesign, Integrated Circuit Principlesand Design, Signaland System, Electromagnetic Fieldsand Electromagnetic Waves, Circuit Analysis, Analog Electronic Technology, Digital Electronic Technology, Microcomputer Principlesand Applications, Semiconductor Physicsand Device Physics, Advanced Physics Seminar, etc.

Featured courses: Integrated Circuit Principles and Design, Semiconductor Physics and Device Physics.

Career:Students can engagein design research and technical management in high-tech fields such as microelectronic devices, optoelectronic devices, and circuits (including integrated circuits).

9.IoTEngineering

Objective:We provide senior engineering and technical professionals whocanengagein the fields of construction, application, maintenance and management of the IoTsystem, etc., andundertakingsystem planning and design, application development, product manufacturingoftheIoTinfrastructure,heterogeneous network interconnection,design, development andsystem integration of IoT intelligent applications,etc.

Curriculum:

Core courses: Advanced Mathematics, Linear Algebra, College Physics, College English, Probabilityand Mathematical Statistics, Advanced Language Programming, Collectionand Graph Theory, Circuitand Electronic Technology, Digital Logic, Data Structureand Algorithm, Principlesof Computer Composition, Computer Network, Operating System Principles, Database Principles, Introductionto IOTEngineering, RFIDTechnology, Wireless Sensor Networks, Embedded Development Technology, M2M Technologyand Applications, Sensor Technology, Digital Signal Processing, IOTSecurity Technology, Next-Generation Internet Technology, TCP/IPProtocol Analysisand Application, and Cloud Computing.

Featured courses:We offercourses such asfreshmenseminars, self-study courses, innovative practice, and comprehensive design of information security.In the lectures, discussionand new foreign language teaching materials are added to improve teaching efficiency and education quality.We also offer courses:Circuitand Electronic Technology Experiments, Digital Logic Experiments, Elective CoursesofPractical Links, Advanced Language Programming Design, Computer Composition PrincipleandCourse Design, Data Structureand Algorithm Course Design, Computer Network Course Design, Comprehensive Design Courseof Project, IoTEngineering Internship, etc. At the same time,bilingual courses: Digital System Designand Introductiontothe Semantic Webare also offered toimprovestudents'professionalforeignlanguagelevelandstrengthenprofessional Englishwhilestudyingprofessionalcourses. Self-Study Courses: Assembly Language Programming, M2M Technologyand Application, are part ofthefeaturedcourses.

Career:Studentscan engage in the development of IoTsystem support platforms and developmentofmiddlewareandapplications, provide enterprise services in the IT field, and managetheIoT ingovernment, scientific research units, and other non-IT companies.

10.InformationSecurity (including experimental class)

Objective:Asan interdisciplinary subject involving computer, communication, mathematics, law, and management, the program mainlystudies science and technology to ensure information security.We aim to providesenior professionals in information security who can engage in the fields of computers, communications, e-commerce, e-government, and e-finance.

Curriculum:

Core courses:We offerbasic mathematics courses,maincoursesofcomputer, and information security courses,which mainly include: Advanced Mathematics, Linear Algebra, Setand Graph Theory, Probability Theoryand Mathematical Statistics, Information Security Mathematics; Data Structureand Algorithm Analysis, Computer Theoryand Assembly, Operating System, Computer Network Foundation, Computer System Structure, Digital Logic, Database Principle, C++ Language Programming Methodand Other Courses; Information Security Architecture, Information Theoryand Coding, Cryptography, Routingand Switching Technology, Network Securityand Protection, Network Design, Security Agreements,Fundamentals ofInformation Security Law.

Featured courses:We offercourses such asfreshmenseminars,self-study courses, innovative practice, and comprehensive design of information security.In the lectures, discussionand new foreign language teaching materials are added to improve teaching efficiency and education quality.We also offer courses:OSSecurity Analysis, Digital Identificationand Authentication System, Firewall Technology, Computer Virus Prevention, Information Security Standards, Trusted Computing Foundation, Application Server Security, Wireless Network Security Technology, Information Hiding, Database Security, Digital Signal Processing, Digital System Design, etc. A series of practicalcourses werealsoset up, including Security Protocol Course Design, Comprehensive DesignandInternshipofInformation Security Major. A self-study course under the guidance of teachers:NetworkDesign; at the same time,we setbilingual courses:ComputerNetworkFoundation,and FirmwarePrinciples, to improve students’professionalEnglishlevel, and strengthen professional English while studying professional courses.

Career:Graduates canengage in the research, design, development and management of various information security systems and computer security systems in government agencies, national security departments, banks, finance, securities, and communications,and work oncomputer applications in the IT field.

11.Automation

Objective:Oriented tothe economic and social needs of the country andthe capitalBeijing,weadhere tothe principle of"setting foot inBeijing, integratinginto Beijing,influencingthe whole country, andgoing global",and we aim to provide high-quality professionals witha good sense of social responsibility and morality,who are willing andableto serve society, andcan expand their knowledge and abilities through continuing education or other lifelong learning. Graduates,competitive in automation and related fields, have the ability tocontinue to study for a master’s degree, and can effectively playtheirrolesas a member or leader in a team. Students are supposed to have the ability to think independently, beskilledat communication, be brave to innovate, and be able to engage in engineering design, technology development, system operation management and decision-makingrelated tomotion control, process control, automated instruments and equipment, etc. in industrial enterprises,andscientific research institutes, etc. Five years after graduation,students should havethe ability to be the person in charge of technical or management work in an automated professional project.

Curriculum:Guided by the concept of"strong foundation, widecaliber, andemphasis onpractice",we mainly offer courses: Circuit Analysis Foundation, Digital Electronic Technology, Analog Electronic Technology, Automatic Control Theory, Signaland System, Microcomputer Principleand Application, Single Chip Computerand Interface Technology, Computer Software, Detection Technology, Digital Signal Processing, Process Control System, Motion Control System, Computer Control System, Intelligent Control Technology, Embedded System, IntroductiontoRobot, Computer Networkand Application, etc.

Career:We focus on providingwide-caliberprofessionals, who can havestrongadaptability and wide employmentopportunities, be able to work indomestic and foreign high-tech companies and large enterprises and institutions, various scientific research institutes andeducational institutions, etc.In recent years, with the rapid development of the artificial intelligence and robot industries,the demand forprofessionalshas been increasing year by year.Intelligent robots targetedathome services, education, entertainment, and security are becoming new growth points in the global economy, and are valued and supported by governments of all countries, whichprovide ample employmentopportunities forgraduates,and therefore,this is alsoone of the majors with the largest demandin Beijing. The employment rate of graduatesreaches 100%, of which the proportion of people studying foramaster's degree at home and abroad is increasing year by year, whicharrived at41% in 2018, and the proportion of students going abroad to study foramaster's degree andadoctor’s degree accounts for15%. Graduates with excellent grades can be recommended to study for a master's degree in domestic 985 and 211 universities and institutes of the Chinese Academy of Sciences.

12.Robot Engineering

Objectives:robot engineering is a new engineering specialtybasedonautomation-the strong national first-class specialty and Beijing branded specialty-which is deeply integrated with automation, computer, machinery, electronics, especially artificial intelligence,targetingat the international scientific and technological frontier and the major strategic nation-building needs. It aims to cultivate high-quality innovative talents who are proficient in basic theory and professional knowledge of robots, healthy in the physical body, sound in character, extensive and thorough in the foundation and who are with outstanding potential, innovative thinking, global vision and social responsibility for the development of the innovative country and innovative city of Bejing.

Curriculum:the specialty of robot engineering major has constructed a four-in-one innovative talent training system, including “industry, university, research and competition”. With the tutorial system, this specialty helps to cultivate each students’ ability in innovative practice throughout the whole process. The student of this major mainly studies the Fundamental Principles of Robots, Principles of Automatic Control, Microcomputer Principles and Interface Technology, Robot Perception Technology, Robot Mechanism Design, Robot Dynamics and Control, Machine Learning and Intelligent Optimization, Robot Intelligent Interaction Technology, Information Communication Network and Application and Artificial Intelligence Technology. They will also research intelligent perception, system design, intelligent control, intelligent interaction mode and other scientific issues of intelligent robots.

The enrollment and training program of robotics engineering specialty includes:3 + 1 Double Training Program, including studying for the top-notch program at Tsinghua University for 3 years and return to Beijing University of Technology in the 4thyear;3 + 1 + 1 Program, where senior students can study at State University of New York at Buffalo and be given priority to be admitted when they apply for the UB master’s degree in the 5thyear;3 + 1 Program, excellent senior students can study at Miguel University of technology in Finland and obtain double diploma;2 + 2 Programwhere excellent junior students can study at the University Of Dundee in the UK and obtain a double diploma.

Career:Robot engineering can prepare students with extensive employment and strong resilience, the important characteristics of the new interdisciplinary engineering major. The graduates of this major will be engaged in the engineering design, technology development, system operation management and decision-making, enterprise management, scientific research and other related fields of robotics and artificial intelligence in universities, scientific research institutes, administrative institutions, financial institutions, high-tech companies and other departments.

In light of the rapid growth of the intelligent robot industry, which has become a new growth of the global economy, China and Beijing regard the intelligent robot industry as the leading industry in response to a new round of scientific and technological revolution and industrial transformation. There is a huge gap of R &D talents in the intelligent robot industry, which provides ample employments for graduates of this specialty.