College of Engineering
The College of Engineering is a place of extraordinary talent, with faculty, students, alumni, and staff who care about the outcomes of their work.
By emphasizing authentic, experiential engineering experiences within our curriculum, we equip students with the knowledge, skills, and passion to advance innovative solutions to today’s most complex engineering challenges. Through a variety of degree programs at the undergraduate level, we produce top-notch engineers who are grounded in integrity, ingenuity, and a keen understanding of the inter-relatedness of global economies, cultures, and natural system. Our family collaborates across disciplines to leverage synergies in teaching, research, and innovation. And we cultivate strategic partnerships to turn research results into new companies and products that create jobs while helping people to lead better lives.
Dept. of Architectural Engineering
- Tel. +82-63-220-2629
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Dept. of Architecture (five-year program)
- Tel. +82-63-220-2653
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Dept. of Mechanical Engineering
- Tel. +82-63-220-2619
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School of Mechanical Automotive and Convergence Engineering
- Mechanical Automotive Engineering, Energy Engineering
- Tel. +82-63-220-2620
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Dept. of Fire Safety Engineering
- Tel. +82-63-220-3121
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Dept. of Materials Science and Chemical Engineering
- Tel. +82-63-220-2649
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Dept. of Electrical and Electronic Engineering
- Tel. +82-63-220-2660
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Dept. of Information and Communication Engineering
- Tel. +82-63-220-2733
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Dept. of Civil and Environmental Engineering
- Tel. +82-63-220-2665
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Dept. of Architectural Engineering
Architectural engineering is a field of study to realize the most beautiful, the most functional, with the highest stability and economical. In this major, students will learn the theoretical and practical applications of architecture, to become architectural professionals who are able to design and construct buildings.
Name | Jung DongJo | |||
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Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2621 | jung2621@jj.ac.kr |
Name | Kim Sang-Jin | |||
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Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2904 | kimsj@jj.ac.kr |
Name | Ahn Byung-Ju | |||
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Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2624 | bjahn@jj.ac.kr |
Name | Han Sun-Jin | |||
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Position | Assistant Professor | |||
Specializations | Structural Mechanics, Mechanics of Materials, Reinforced Concrete Design | |||
Contact | +82-63-220-2319 | sjhan1219@jj.ac.kr |
Course No. | Course Name | Course Information |
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16450 | CalculusⅠ | In Calculus I we study about basic notions of differentiation and integration. Its contents are th e followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, ets. |
16451 | CalculusⅡ | In Calculus II , we study the following contents: Plane analysis, parametric equations and polar coordinates, vector analysis, etc. |
08945 | Architectural Environment Planning | Theory for relating elements of the environment to architecture and the basic application of environmental design in building. |
12358 | Creative engineering design | The objective of the course is to educate stedents the basic design methods to solve problems creatively.The course provides opportunities to improve designs through collaborative efforts of design team. |
16453 | Architectural CADⅠ | Theories and practical applications of computer-aided architectural design. |
06010 | Architectural General Structure | Construction methods, architectural detail, geological survey, foundations, masonry structure, steel reinforced concrete structure, plaster, opening, etc. |
16454 | Architectural Design | Exercises in drawing as presentation and re-presentation and brief review of the history and theory of drawing. |
16457 | Building Construction | The contents of this subject are strengths and weaknesses, contents, and instructions of methods that are applied to building constructions. Students attending a lecture analyze construction case studies on building constructions. |
14696 | Structural Analysis | This course introduces to an overview of building structures that includes elementary statics and mechanics; structural systems; construction considerations; and the interdependence of architectural and structural design. |
08940 | Achitectural Planning | Analysis of basic program and conditions required for simply-programmed buildings, such as a house, and its application to architectural design. |
12471 | Building Materials | The contents of this subject are basic theories and test methods of material on building construction, such as strengths and weaknesses, distinguishing characteristics, performance, and physical properties. |
16448 | Planning of Architectural Environment | This subject learns how to use and utilize energy in buildings and learns the basics of green remodeling through energy simulation. In particular, we learn how to perform energy simulation using ECO2-OD programs. |
16449 | Engineering Mathematics | This course is intended to introduce students of engineering and phsics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
12883 | Ecological Environment Planning | This course deals with fundamentals and design methods of building ecology plan. Passive building design using natural environment is very important in life. Students can become familiar with basic concepts of building environment. |
14845 | Engineering Mechanics | This course introduces architecture students to an overview of building structures that includes elementary statics and mechanics; structural systems; construction considerations; and the interdependence of architectural and structural design. |
16447 | Architectural CADⅡ | In this subject, a three-dimensional 3D architectural design is learned using a CAD program. In particular, the lecture focuses on drawings necessary for practical practice to avoid interference from structures, construction, and facilities. |
10194 | Scheduling and Time Management on Building Construction | The contents of this subject are scheduling, progress measurement, resource allocation, 3BS (Work Breakdown Structure; WBS, Cost Breakdown Structure; CBS, and Organization Breakdown Structure; OBS), resource leveling and time management technology in building construction projects. Students attending a lecture analyze construction scheduling case studies of them. |
10195 | Experiment of Structural Matirials | Analysis of physical characteristics of architectural materials by testing. |
06525 | Building Regulation | Applied methods and legal requirements for buildings, urban planning, parking lots, and so on. |
16455 | Building Equipment SystemⅠ | This course deals with fundamentals and design methods of building equipment system. Students can become familiar with water supply, drainage, gas system, water heater system and electric, and learn the basic concepts of building system. |
16456 | Building Equipment SystemⅡ | This course deals with practical applications of building equipment system. Students can become familiar with the basic concepts of air conditioning system, heating and cooling. |
12470 | Estimation | For building construction, it is necessary to estimate material quantity and cost of building project based on construction plans such as plan, elevation, section and specifications. Construction cost (e.g., material, labor, and equipment cost) are decided by the result of the estimation. The contents of this subject are the estimation method of material quantity and cost based on construction plans. Students attending a lecture study total estimation method as an advanced course. |
12881 | Structural Planning | Lectures and practice on basic concepts of structural engineering, forces, features of structures, methods of solving static problems. |
07188 | Steel Structure | Steel is the primary material of modern architecture aside from reinforced concrete. The course gives lectures on the systems and designs of steel structure, and on joint behavior and their application to high-rise buildings and industrial buildings. |
12468 | Design of Reinforced Concrete Structures 1 | In this class, you will study on the design method of reinforced concrete(RC) of beams based on the ultimate strength design(USD). It will give you basic knowledge about the design method of RC structural members. |
12648 | Reinforced concrete Structure Design(2) | Design of columns under eccentric axial load, foundations, and retaining walls; ultimate strength design, and analysis of prestressed concrete. |
13045 | Capstone Design | This course is a capstone design of mechanical & automotive engineering. Plan, design, and model several parts through a sequential process of concept-engineering-design to develop a mechanical product, which has certain object and function. Also, acquire overall practical capability based on industrial educational cooperation. |
14420 | Construction Management | A life-cycle of a building construction project is composed of feasibility study, conceptual design, detailed design, bidding, procurement, construction, start-up, maintenance/utilization, and termination phase. A construction manager carries out a unique role at these phases. The contents of this subject are theories and technologies of construction management. Students attending a lecture analyze construction management case studies of construction projects. |
10334 | Environment of Equipment System Planning | Understanding whole parts of architectural environment and design methods of environment and mechanical system. |
16458 | Retrofit of Building and Field Training | Review of reinforcement for Building and remodelling |
10184 | Member Design of Buildings using Package Program | Determination of section shape and section size using MIDS that is software for structure analysis and structure design. |
Dept. of Architecture (five-year program)
Since beginning of time, architecture has been an important standard in assessing the levels of culture. The future, how-ever, will be about the artistic perspectives of architecture. To maximize the values of architecture, it must be regarded as an essential part of the culture and designed as such. The department aims to educate and train great architects of the future, with courses focusing on from traditional architecture to state-of-the-art, advanced buildings. Architectural ma-jors are quite independent and attractive as it serves as the basis for obtaining architectural licenses, where one can start their own companies. Moreover, the architects often don’t have a retirement age. JJ University’s architectural major is a 5-year, internationally certified program.
Name | Lim Yong-Min | |||
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Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2905 | limas@jj.ac.kr |
Name | Kim Junyoung | |||
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Position | Associate Professor | |||
Specializations | Architectural Studio / Sustainable Design / Architectural History / English in Architectural Practice / Site Design | |||
Contact | +82-63-220-2578 | junyoungkim@jj.ac.kr |
Name | Choi Youngjun | |||
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Position | Assistant Professor | |||
Specializations | - | |||
Contact | +82-63-220-2147 | yjchoi17@jj.ac.kr |
Name | Shim, Sebo | |||
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Position | Assistant Professor | |||
Specializations | Architectural Studio, Architecture Material, Modern Architecture History, CAD, Professional Practice | |||
Contact | +82-63-220-2295 | seborius@jj.ac.kr |
Name | Ham Sungil | |||
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Position | Assistant Professor | |||
Specializations | - | |||
Contact | +82-63-220-2314 | siham@jj.ac.kr |
Course No. | Course Name | Course Information |
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09308 | Architecture Presentation Technique(1) | As the expression tool of construction concept it learns a construction relation technique and applies the photograph in construction the accident which and and expression ability and to sleep it cultivates it does. |
09312 | Architecture Presentation Technique(2) | As the expression tool of construction concept it learns a construction relation technique and applies the photograph in construction the accident which and and expression ability and to sleep it cultivates it does. |
12507 | Architecture, Art & Humanities | The subject pursues to enable the students to apply various kind of methodologies of architectural design by providing the characteristics of architecture with understanding the essential relationships between the architecture and other jenres such as art(music, dance, play, painting, sculpture, etc) and liberal art(politics, economy, culture, society, etc). |
09309 | Basic design(1) | As the preparation phase description below for a architectural design construction moulding to sleep it cultivates nine and 2dimension plan expression abilities which burn and it does. |
09313 | Basic design | Construction idea it cultivates the ability which it expresses with 2 dimensions and 3 dimensions an originality plan method and it researches. |
12499 | Architectural Form Analysis | With studying and exercising technique related to figure, scale and proportion, the class request students to understand geometrical principles which constitute the basic tools for architectural order. |
12886 | Design Computing in Architecture | The conversation of the constructing a building is achieved through the plan. and The language in the constructing a building business from the people to be the degree. It is important that we understand an expression method accurately with the component of the constructing a building of a plan. What they are important class to make how the plan is and lower classes students will express. We progress to the goal to double the ability we apply the computer and to express. |
12508 | Structural Analysis in Architecture | Construction methods, architectural detail, geological survey, foundations, masonry structure, steel reinforced concrete structure, plaster, opening, etc. |
12500 | Architectural Design Process | Principles of building design and space arrangement of housing, office buildings, apartment houses, and other building complexes. |
09317 | Architectural Design Studio(1) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09322 | Architectural Design Studio(2) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09318 | History of Western Architecture | Changes in western architectural types by periods and research on their historical development |
09321 | History of Korean Architecture | Investigation it tries the Korean construction which reaches to a today from ancient times with tube poetic and will apply the public notification attribute of traditional construction in escape whole country U direct plan the method which and it burns it buys |
16139 | Digital Technologies in Architecture | Among lots of method to express the constructing a building. The computer various and creative design practical use. The computer software analysis for the presentation and research. We breed various to a computer training a constructing a building presentation ability a architecture ability. |
09340 | Building Codes | To explain the law which the construction law and eastern Enforcement Ordinance and enforcement regulation, construction law enforcement regulations and the land accommodating law, the city planning law and the other building is related and in order to apply in building plan. |
09339 | Architectural Design Studio(3) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09342 | Architectural Design Studio(4) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09344 | Building Construction | Applied construction methods, equipment utilization, resource leveling and computerized cost estimation for high-rise office building project. |
12511 | English in Architectural Practice | Construction design objection, urban setting, the survey side of structure back military merit each field the foreign nation specialty book it leads and it lectures. |
09349 | Building Materials | Plan of the building, in order to have the knowledge which is sufficient against the material which is used from space-time it researches the manufacturing method, a quality and the strength test method back of the construction works material.. |
12509 | Housing Architecture | Study of neighborhood units based on housing theory and praxis, apartment and building blocks planning. Also how roads, buildings, and gardens are organized. |
12514 | Public Design | Public design is to enhance the design quality of exterior space all the street furnitures outside of the buildings. It includes the design enhancement of sign, bench, bus stop shelter, pedestrian bridge, public sculptures and ornaments, etc.. So students need the thinking of what shall be the esthetics, city context, design unity in urban space. We will discuss all those about. |
12512 | Interior Design | It is the aim for interior design that to make a space as a comfortable, aesthetic, safe and economical, but most of all to be functioned for it’s purpose. Students could be learned through this class for the space program, finishing materials, color plan, lighting, furniture and equipment for all space needed. |
12502 | Structural design in Architecture | This class is concerned with more in-depth understanding and development of designs for buildings informed by the technical and historical knowledge related to the meaning and usage of structural systems and the act of construction. The lectures focus on the application and integration of knowledge acquired in structural mechanics course and covered various structural systems and geometric structure types (such as cable nets, domes, shells, and air-supported structures) are introduced. There is an overall objective of gaining insight into architectural forms associated with structural system. |
09347 | Architectural Design Studio(5) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09351 | Architectural Design Studio(6) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
13845 | Building Systems | Theory for relating elements of the environment to architecture and the basic application of environmental design in building. |
15019 | Practice in Architectural Profession | Directness it visits in industrial site and it experiences with to be various, width accumulates a wide site knowledge it prepares the meter. |
09338 | History of Modern Architecture | Architecture from early 19th-century Europe, America and Korea to the 1950s. |
17351 | Urban Analysis | Fundamental directions, theories and practices for urban design. |
12503 | Sustainable Design in Architecture | EOC Architectural design is for sustainable process between human and nature to make minimize industrial pollution and to make a space to be pleasant.Student could be learned site condition, selection materials and construction, maintenance, energy saving, minimizing industrial pollution, efficiency, harmonizing circumstance and etc. to become more considerable for the ECO |
17350 | Behavioral Psychology in Architecture | As architecture is enclosure in which people live their lives, it is essential for designers to consider environment psychology and human behavior. The goal of this class is to understand the interactive relationship between physical environment and psychological reaction. |
09341 | History of Contemporary Architecture | Evaluation of built and proposed works, ideological theories about contemporary architecture |
17145 | Architectural Design Studio(7)(Capstone Design) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
09551 | Architectural Design Studio(8) | Analysis and application of required data (space, program, scale, etc.) through the design of buildings in a complicated context dealing with city and other social and architectural requirements. |
17144 | Geographic Information System | It introduces the concept and a role of landscape architecture and with the human being with natural relationship it finds the knowledge in the center it will be able to apply in building program. |
12505 | Aesthetics Of Architecture Details | The Art of Architectural Detail studies the logic of architectural construction based on the understanding of architectural materiality. The lecture's ultimate goal is to explore the logical and creative use of architectural materials as a means of architectural manifestation and to examine the architectural expression of the effect rendered by them. The class is largely comprised of three parts: the study on architectural materiality, the case study and modeling of the architectural detail of existing buildings, and the application of architectural detail. |
15018 | Architectural Practice & Management | DireDirectness it visits in industrial site and it experiences with to be various, width accumulates a wide site knowledge it prepares the meter. |
09316 | Traditional Architecture | It understands the peculiarity of the construction which in the same time when it understands the universal quality which the traditional construction keeps appears in our area constructions and it does to sleep. |
Dept. of Mechanical Engineering
The Department of Mechanical Systems Engineering aims to educate specialists in mechanical systems engineering who have the ability to solve the integrated problems using mechanical engineering knowledge with creativity.
Specific educational objectives are as follows.
● First, educate students with engineering knowledge and the capability of its practical use.
● Second, cultivate creative talents with problem-solving abilities.
● Third, train volunteer leaders with ethical awareness and responsibility.
The Department of Mechanical Systems Engineering reflects the characteristics of the modern industry in the curriculum, which emphasizes the systematic approach rather than each unit element. Through design education including mechanical engineering theory, computer-based analysis, laboratory exercises, and capstone design, the creative mechanical systems engineers will be trained in the fields of thermal fluid/energy system, mechatronics/robotic system, and advanced production/processing/design.
Course No. | Course Name | Course Information |
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16462 | Calculus | In Calculus we study about basic notions of differentiation and integration. Its contents are th e followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, ets. |
16463 | Physics and Experiments | Physics & Experiment is the basis of all majors in science and engineering. Covers topics in mechanics (such as motion, Newton's laws, conservation laws, work, energy, systems of particles, and rotational motion), in mechanical waves (such as oscillations, wave motion, sound, and superposition), in thermal physics and in fluid mechanics. |
16460 | Engineering Mathematics | This course is intended to introduce students of engineering and phsics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
15014 | Mechanical Computer Aided Design(1) | Basics of computer-aided design (CAD) for mechanical engineers are treated. These are the interactive computing in the design process, role of graphics in CAD, two-dimensional graphics; computer graphic operations, including curve generation and splines and three-dimensional graphics; including data structures, rotation, translation, reflection, isometric and perspective projection, hidden line removal, shading, surface generation, solid modeling concepts, object-oriented programming. |
15458 | Solid Mechanics(1) | Solid mechanics is a branch of applied mechanics that deals with the analysis and the technique of design for engineering structure and machine of various kinds of solid bodies subjected to various types of loading. It can be developed a basic technique of applied analysis for a design of engineering structure. |
16461 | Introduction to Electrical and Electronic Engineering | This course covers fundamentals of electrical and electronic engineering that are applied to automation system and mechatronics system. |
15461 | Dynamics | Newton’s second law, momentum and energy equations are studied to understand the relations for force and motion of rigid body. |
15465 | Statics | This subject provides the analysis ability for fundamental static mechanics problems by making students understand the concept of vector and force equilibrium. |
15459 | Solid Mechanics(2) | A continuation of the solid mechanics with an emphasis on applications that involve combination loads, stress and strain rate problems for the various beam and shaft. |
15460 | Experiment for Mechanical Engineering | Fundamental experiments for mechanical engineering are learned by practice through engineering experimental basics in this subject. |
15746 | Machine Design | A Machine is a combination of mechanisms and other components which transforms, transmits, or utilizes energy, force, or motion for a useful purpose. Examples are engines, turbines, vehicles, hoists, printing presses, washing machines, and movie cameras. One purpose is to present of knowledge that will be useful for the analysis and design of mechanical components, particularly for performance, strength, and durability. Further, this subject is to provide an opportunity for the student to develop competence and confidence in applying available equations to the design of mechanical components. |
15744 | Experiment for Measurement Engineering | Fundamental principles and theories for engineering measurement system and measurement methods are studied. Various computer data acquisition methods in mechanical engineering are also studied. |
15787 | Air Conditioning System | Fundamentals of refrigeration theory, vapor compression and absorption, refrigeration components and systems, psychrometric theory, analysis of cooling and dehumidifying coils are studied. Heating and air conditioning systems: equipment selection, system arrangement, load calculations, advanced psychrometrics, duct and piping system design, air distribution system design, indoor air quality are treated. |
15745 | Mechanical Computer Aided Design(2) | This course is to learn the process of designing models with CATIA from conceptual sketching, through to solid modeling, assembly design, and drawing production. This student will gain an understanding of the parametric design philosophy of CATIA through this extensive hands-on course with numerous practice exercises. |
15786 | Manufacturing Process | This course teaches the fundamental principle of manufacturing processes to produce various manufactured articles, that is cast, plastic working, machining, and special working. |
15747 | Mechanical Vibration | The subject explains the cause and effect of vibration and the vibration control method. The vibration theory on the one, two and multi degree freedom systems are also introduced. |
15748 | Kinematics | This course is a detailed treatment of the analysis and synthesis of planer mechanisms including kinematics and dynamics of mechanisms, and cam design. By the end of the semester, the student will have gained a basic knowledge of mechanisms and will have sufficient understanding of the issues and methods to synthesize them in engineering design processes. |
15783 | Heat Transfer | Three kinds of heat transfer mode are to studied. Physical principles of heat conduction, convection and radiation are to be understand. Governing equations for these heat transfer phenomena are derived and their solution techniques are learned to have temperature and heat flux distributions in thermal engineering system. |
15749 | Hydraulic and Pneumatic Power Engineering | This course is designed to learn the principle of operating and dynamic characteristic of hydraulic power system. To provide a fundamental knowledge of the construction and characteristic of hydraulic motors, hydraulic control valves, hydraulic actuators and promote the ability to understanding of hydraulic circuits. |
15837 | Compuattional Thermal Fluid | Numerical analysis for heat transfer and fluid mechanics of mechanical systems are to be studied. Also the up-to-date engineering analysis software will be learned to have the ability to apply it to the problems of engineering application. |
15782 | Control Engineering | This subject uses the control theory to explain the transient and steady state responses, the frequency response and the stability, and provides the bases for the analysis and design of control system and for modelling of dynamic system. |
15825 | Robot System | This course will concentrate on robot manipulators, which are the base of other robotic systems, and cover basic principles in robotics such as coordinate frames, statics, (inverse and forward) kinematics, (inverse and forward) dynamics of robotics, manipulator Jacobian, singularity, redundancy, trajectory planning and basic control. |
15828 | Mechatronics | The principles and basic theory of digital and analog circuit theory are studied to have design ability of mechanical systems for mechanical control and applications. |
15832 | Capstone Design | This course is a capstone design of mechanical systems engineering. Plan, design, and model several parts through a sequential process of concept-engineering-design to develop a mechanical product, which has certain object and function. Also overall practical capability based on industrial educational cooperation to be acquired. |
School of Mechanical Automotive and Convergence Engineering
The Department of Mechanical and Automotive Engineering aims to educate and train design and production experts who may contribute to the development of the automotive and mechanical industry, through training students with skills in automotive system design, analysis, and production, as well as research all the necessary mechanics of energy production, conversion, delivery, and usage. The department aims to train multipurpose professionals who can operate of CAD/CAM/CAE based on automotive mechanics, able to lead the automotive industry of the future.
Course No. | Course Name | Course Information |
---|---|---|
16465 | Engineering Mathematics(1) | This course is intended to introduce students of engineering and phsics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
05968 | Dynamics | Dynamics is composed of kinematics and kinetics: in the former a motion is analyzed based on the geometry only without considering force, and in the latter the force itself is the analysis object. This subject explains the kinematics and kinetics of particle rigid body. |
07092 | Thermodynamics | Application of the first and second laws of thermodynamics to closed and open systems and to cyclic heat engines. This includes the development of procedures for calculating the properties of multiphase and singlephase pure substances |
12342 | Fluid Mechanics | This course is designed to develop the fundamental disciplines common to several branches of fluid mechanics such as stress-strain relationship acts on the fluid surface, the analysis methods and description of fluid dynamics. Hydrostatic, the conservation law of mass and momentum transfer, the basic concept of fluid dynamics, the fluid friction of pipe and duct flow are included to the application of the theory to realistic problems. |
07087 | Mechanics of Materials | Mechanics of materials is a branch of applied mechancics that deals with the analysis and the technique of design for engineering structure and machine of various kinds of solid bodies subjected to various types of loading. It can be developed a basic technique of applied analysis for a design of engineering structure. |
10581 | Computer Aided Design | A course emphasizing the basics of computer-aided design (CAD) for mechanical engineers. Interactive computing in the design process. The role of graphics in CAD. Two-dimensional graphics; computer graphic operations, including curve generation and splines. Three-dimensional graphics, including data structures, rotation, translation, reflection, isometric and perspective projection, hidden line removal, shading, surface generation, solid modeling concepts, object-oriented programming. |
16339 | Engineering Mathematics(2) | For students studying graduate level physics, a number of topics including the Laplace transforms, Functions of a complex variable, and Fourier series. |
12340 | Applied Thermodynamics | A continuation of the thermodynamics with an emphasis on applications that involve imperfect gases, gas-vapor mixtures (psychrometrics), or chemically reacting gases (combustion). |
12341 | Applied Mechanics of Materials | Mechanics of materials is a branch of applied mechancics that deals with the analysis and the technique of design for engineering structure and machine of various kinds of solid bodies subjected to various types of loading. It can be developed a basic technique of applied analysis for a design of engineering structure. |
07088 | Statics | This subject provides the analysis ability for static problems by making students understand the concept of vector and force equilibrium. |
16196 | Automotive Engineering and lab | This course study to understand the basic principles of automobiles and the latest technologies that are being developed. Especially, we will introduce and study technical contents such as engines, electric devices, power transmission devices, steering and suspension devices. |
10192 | CAD Application | This course is to learn the process of designing models with CATIA V5 from conceptual sketching, through to solid modeling, assembly design, and drawing production. This student will gain an understanding of the parametric design philosophy of CATIA V5 through this extensive hands-on course with numerous practice exercises. It is expected that all new users of CATIA V5 will require this course. |
16199 | Experiment of Mechanical Engineering | Experimental study on basic fields of mechanical engineering |
05986 | Mechanical Design | A Machine is a combination of mechanisms and other components which transforms, transmits, or utilizes energy, force, or motion for a useful purpose. Examples are engines, turbines, vehicles, hoists, printing presses, washing machines, and movie cameras. One purpose is to present of knowledgethat will be useful for the analysis and design of mechanical components, particularly for performance, strength, and durability. Further, this subject is to provide an opportunity for the student to develop competence and confidence in applying available equations to the design of mechanical components. |
16195 | Machinery Dynamics | This course is a detailed treatment of the analysis and synthesis of planer mechanisms including kinematics and dynamics of mechanisms, and cam design. By the end of the semester, the student will have gained a basic knowledge of mechanisms and will have sufficient understanding of the issues and methods to synthesize them in engineering design processes. |
16200 | Automatic Manufacturing process | In this course, you will learn about automated production manufacturing techniques for realizing automation of machine tools. In this course, you will learn how to use G-code and M-code for automation of production, and learn how to use D/B to automate production and manufacturing technology and optimal techniques for improving productivity. |
16203 | Numerical Analysis | Numerical methods for solving Nonlinear equations, Systems of Simultaneous equations, Eigen value problems, Interpolating polynomials, Differentiations and Integrations, Ordinary Differential Equations, Partial Differential Equations will be treated. |
07149 | Oil Hydraulics | This course is designed to learn the principle of operating and dynamic characteristic of hydraulic power system. To provide a fundamental knowledge of the construction and characteristic of hydraulic motors, hydraulic control valves, hydraulic actuators and promote the ability to understanding of hydraulic circuits. |
12443 | Applied Fluid Mechanics | This course is designed to develop the fundamental disciplines common to several branches of fluid mechanics such as stress-strain relationship acts on the fluid surface, the analysis methods and description of fluid dynamics. Hydrostatic, the conservation law of mass and momentum transfer, the basic concept of fluid dynamics, the fluid friction of pipe and duct flow are included to the application of the theory to realistic problems. |
07154 | Control Engineering | This subject uses the control theory to explain the transient and steady state responses, the frequency response and the stability, and provides the bases for the analysis and design of control system and for modelling of dynamic system. |
08857 | Mechanical Vibration | The subject explans the cause and effect of vibration and the vibration control method. The vibration theory on the one, two and multi degree freedom systems are also introduced. |
16468 | Programming Languages | This course provides students with underlying principles in the design and implementation of programming languages. Lectures use a variety of existing general-purpose programming languages orlginated from different programming paradigm: imperative, functional, logical, and objects-originated programming. |
16101 | Manufacturing Process | This course is to learn the fundamental spheres as well as elementary knowledge to elevate ability to train in practice business through theory and experiment/practice on the fundamental principle and processing on the way to produce various manufactured articles, that is cast, plastic working, machining, and special working. |
05971 | Mechatronics | The principles and basic theory of applied electrical/electronics engineering I mechanical engineering for mechanical control and applications. |
13047 | Thermal and Combustion Engineering | This subject is to provide an opportunity for the student to study the fundamental principles and improve the design ability about thermal energy transition and utility system. Further, Combustion principles and process of each fuels which be utilized in energy system will be provided for the students. |
16201 | Heat Transfer | Steady state and transient analysis of conduction and radiation heat transfer in stationary media. Heat transfer in fluid systems; forced convection; free convection; phase change. Heat exchanger design and selection. |
16103 | Turbomachinery | Fluid machinery is classified with the mover and turbine as an energy converting system between the fluid energy and mechanical energy. This course is designed to learn for the systematic understanding of the fundamental principles of fluid machinery and the ability to apply it to the problems of engineering application. |
16204 | Electric vehicle | This course Introduce the directions and status of research and development on advanced automotive technology. In particular, we will introduce the future vehicles from three perspectives: eco-friendly vehicles, IT-based intelligent vehicles, and IT-based autonomous vehicles. Learn the overall skills of electric vehicles. |
16198 | Vehicle Control Engineering | Technology on operation, control, and management of vehicle controls, power and data bus control, development of self-diagnostic functions. Sub-technologies learn operation software design technology, high speed digital data bus control technology, system power control technology, fault-diagnostic system design technology, etc., especially the highway driving support system (HDA), core technologies of autonomous driving, as well as the contents of rear-side alarm system (BSD), automatic emergency braking system (AEB), lane departure warning system) and LDWSWS. |
16469 | Eco-friendly Engine Engineering | The subject teaches the principle of gasoline engine and diesel engine ,the characteristic of combustion and fuel and the disign method of engine etc.. Especially the application and theory on the power generation vehicle are also introduced. |
16341 | Capstone Design | This course is a capstone design of mechanical & automotive engineering. Plan, design, and model several parts through a sequential process of concept-engineering-design to develop a mechanical product, which has certain object and function. Also, acquire overall practical capability based on industrial educational cooperation. |
Dept. of Materials Science and Chemical Engineering
The Department of Carbon and Nano Materials Engineering aims to educate and train experts who will lead the nan-otechnology industry, a core technology of the future. With strong foundations in basic chemistry, physics, and mathe-matics, the department further intensifies the students’ ability in learning and researching the world of nanotechnology, a world smaller than 1/300,000 of a hair. The department also aims to set a founding ground for students to become experts of various sectors in nanotechnology by educating applicable nanotechnology so that the students can learn how nanotechnology is applied in semiconductors or display industry.
Course No. | Course Name | Course Information |
---|---|---|
17036 | Physical ChemistryⅠ | Dynamics of particle, work and energy, law of energy conservation, rotational movement, measure of length, balance of power, free falling, single pendulum, centrifugal force, measure of inertial efficiency, law of Joule, measure of linear expansion are studied and experimented to understand fundamentals of physics. |
11716 | Introduction to Material Science | - Introduction to organic or inorganic materials- Introduction on their manufacturing processes- Applications |
06960 | Engineering Mathematics | This class will cover basics on mathematics such as differentiation, integration, matrix, differential equations, etc for engineering education. |
17033 | Instrumental Analysis | In this subject we will introduce various type of nano-materials, synthetic technology, their physicochemical properties, their applications, etc. |
12344 | Analytical Chemistry for Nanotechnology and Environmental Technology | In-depth study of theories & practices for constituent equipments, detection principles, and applications of the spectroscopic, electrochemical, and surface analytical instruments and chromatography. |
17037 | Physical ChemistryⅡ | In order to understand the basic structure and properties of materials, students study thermodynamics, chemical reaction Engineering, phase diagram, chemical equilibrium, chemical kinetics. |
17042 | Experiments in MaterialsⅠ | Experimental Nanocarbon materials -Nano particle synthesis by sol-gel method -Carbon nanotube (CNT) dispersion and chemical property -Synthesis of self assembled monolayers |
17044 | Organic ChemistryⅠ | Students learn principles of basic structure of orgnic compounds and organic reactions, and understand applications of industrial organic synthetic processes. |
17045 | Organic ChemistryⅡ | Students will learn the advanced knowledge of organic chemistry |
17158 | Electrochemistry | Electrochemistry plays a crucial role in various applications such as batteries, fuel cells and environmental management. This lecture will cover electrochemical cells and cell reactions. |
16059 | Polymer Engineering | Students will study syntheses, characteristics and applications of polymeric compounds. And recent research trends and applications of carbon polymeric materials will be treated and studied. |
14360 | Material Science and Venture Creation | - Enabling the students to get the knowledge of material characterization method and their applications.- Guiding how to fabricate the final products and how to link the activity to build up the company |
16209 | Materials Science and Applications | In order to improve performance of materials, we need deep knowledge of materials basic properties. In this lecture, students will study mechanical, electrical, deteriorative, thermal, magnetic and optical properties of materials. |
17043 | Experiments in MaterialsⅡ | Students will prepare carbon composites and evaluate their properties |
12046 | Applied Nanoscience | Introduction of fusion technologies based on nanotechnology- NTBT : fabrication of biochips using nanolithography and MEMS- NTRT : application of radioactive isotopes |
13747 | Mechanics of Materials | Mechanics of materials is a branch of applied mechancics that deals with the analysis and the technique of design for engineering structure and machine of various kinds of solid bodies subjected to various types of loading. It can be developed a basic technique of applied analysis for a design of engineering structure. |
16069 | Introduction to electronic materials | In this course, students will learn about diodes, bipolar junction transistors, MOSFETs and semiconductor properties. |
16091 | Carbon fibers | This class aims at the understanding of high-performance carbon fibers, especially of reinforced fibers. |
17049 | Carbon Materials | The purpose of this lecture is to study carbon synthesis and industrial applications for understanding fundamental principles and features of carbon materials. |
17050 | Modern Physics | Basic principles on Quantum Physical Chemsitry and spectroscopy |
12343 | X-ray Crystallography and Chemistry of Inorganic Materials | This course covers the principles of chemical bonding and molecular structure and the chemistry of non-metals, transition metals.Introduction to X-ray crystallography and practical aspects of crystal structure of inorganic materials. |
12051 | Special Topics in Nanoengineering | Special Topics in Nanoengineering |
13312 | Field Experience in Nano Technology | For senior students to get opportunities to apply their knowledge on their major subject to industrial application and to accumulate wider and more verstile field-knowledge. |
17038 | Semiconductor Process | In this class, students will learn baiscs of carbon fibers, nanotubes, and graphene, ranging from the kind, manufacturing process, and the application. |
08848 | Semiconductor Physics | Introduction to semiconductors: crystals, energy bands, charge carriers and doping, the Fermi Level, carrier lifetime and mobility, and optical properties. Electronic devices: p-n junction, diodes, transistors; optoelectronic devices: light emitting diodes (LED's), diode lasers, and detectors. |
16064 | Special topics on composite materials | This class aims at the understanding of the basic concepts and characteristics, including properties of constituents and typical composite materials. Students will study an overview of the current status of composites technology. |
17039 | Introduction to Biomaterials | Applications of Carbon Nanomaterials for the following electronics industry will be introduced with the series of experiments to fabricate a simple device and charectrize their properties. - Organic photovoltaics, Display, Transparent conducting film, supercapacitor |
17040 | Materials Colloquium | The purpose of this subject is to instruct students the status and prospect of the carbon industry by inviting professional speakers |
12055 | Special Topics of Material Engineering | In this subject, the seniors will select the latest scientific topics and discuss them. |
17389 | Energy Materials Colloquium | The purpose of this course is to instruct students the status and prospect of the carbon industry by inviting professional speakers. |
16068 | Thermodynamics in materials | Application of the first and second laws of thermodynamics to closed and open systems and to cyclic heat engines. This includes the development of procedures for calculating the properties of multiphase adn single phase pure substances. |
17048 | Applications of electronic materials | Students will learn about applications of electronic materials such as semiconductor, display and battery |
15185 | Capstone Design | Students base their active learning on a more effective and efficient time management system based on their active learning attitude. It is a curriculum that provides more efficient and comprehensive understanding of organic compounds by conducting experiments on organic compounds and conducting experiments on various chemical reactions. Based on hands-on experience, I hope that the understanding of the history of the field will improve, and that it will improve accordingly. |
14061 | Carbon technology trends seminar(3) | The purpose of this subject is to instruct students the status and prospect of the carbon industry by inviting professional speakers |
13534 | Carbon Materials Engineering | Nomenclature, reactivity, and electronic properties of organic compounds widely used for electronic materials. |
14023 | Synthesis and Application of Carbonaceous Materials | This lecture will focus the preparation methods and application areas of carbon-based materials (Carbon fibers, artificial graphites, carbon blacks, activated carbons, and nanostructured carbons). This lecture can give students useful information about physico-chemical evaluating methods for carbonaceous materials. |
17159 | Chemical Engineering Process | This lecture focuses on design, operate and optimize processes for the production and processing of chemical substances. Students will learn about raw material processing, reaction engineering, separation and purification. |
Dept. of Fire Safety Engineering
Department of Fire Safety Engineering consists of professional faculty, with wide range resources, domestic and foreign networks and experience from the field, with great research accomplishments and passion. The department’s aim is to educate and train professionals who are able to grow continuously, and not just towards graduating them. Students are verified of their capabilities in license, language, and major abilities through graduation objective system agreed by the student, their parents and professors. Educate what needs to be known and learned, rather than what the professor knows. At our Department of Fire Safety Engineering, experts who are involved with the government, corporations, research institutes, and relevant industries are engaged in master’s/doctoral degree programs, carrying out joint researches and studies. They may serve as the bridges for the undergraduate students to find work or expand their major after graduation.
Name | Chung-Seog Choi | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-3119 | choi365@jj.ac.kr |
Name | Kim Dong-Hyun | |||
---|---|---|---|---|
Position | Associate Professor | |||
Specializations | Fire Dynamic / Disaster Management / ICT-IOT Applied Systems for Disaster Management / Wildland Fires Management / Fire Hydranct Facilities | |||
Contact | +82-63-220-2233 | 72donghyunkim@jj.ac.kr |
Name | LEEJAEJOON | |||
---|---|---|---|---|
Position | Assistant Professor | |||
Specializations | - | |||
Contact | +82-63-220-2220 | safety_lee@jj.ac.kr |
Name | Kim Sung Hwan | |||
---|---|---|---|---|
Position | Assistant Professor | |||
Specializations | - | |||
Contact | +82-63-220-2180 | sh.kim@jj.ac.kr |
Course No. | Course Name | Course Information |
---|---|---|
16657 | Engineering MathematicsⅠ | This course is intended to introduce students of engineering and phsics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
16659 | Calculus | In Calculus I we study about basic notions of differentiation and integration. Its contents are th e followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, ets. |
16660 | Introduction of Natural ScienceⅠ | Introduction to the basic engineering thery for analysis of natural science. There are physics, Chemistry, biology, astronomy, physical geography by field of natural science, and so on. Study special quality in field that is understand general principle of natural phenomenon and convergence technolgy. We will study about electricity,automobile, airplane, tap piped water, electron machinery, radio & TV, telephone, cold room & cold storage, internet, house hold electrical appliance, functional materials, etc. |
16661 | Introduction of Natural ScienceⅡ | Introduction to the basic engineering theory for analysis of natural science. There are physics, chemistry, biology, astronomy, physical geography by field of natural science, and so on. Study special quality in field that is understand general principle of natural phenomenon and convergence technology. We will study about electricity, automobile, airplane, tap piped water, electron machinery, radio & TV, telephone, cold room & cold storage, internet, house hold electrical appliance, functional materials, etc. |
12351 | Fire Protection Code | Introduction to the fire service code, the fire protection code, and the hazardous material safety code etc. |
12068 | Fire Protection Fluid Mechanics | Fluid mechanics is the study of how fluids move and the forces on them. Fluid mechanics can be divided into fluid statics, the study of fluids at rest, and fluid dynamics, the study of fluids in motion. |
12066 | Fire Protection Electric Circuit | An fire electric circuit is an electrical circuit that also contains active electronic devices such as transistors or vacuum tubes. Electronic circuits can display highly complex behaviors, even though they are governed by the same laws as simple electrical circuits. Electronic circuits can usually be categorized as analog, digital, or mixed-signal (a combination of analog and digital) electronic circuits. |
12069 | Fire Protection Extinguishing agents | A fire extinguisher is an active fire protection device used to extinguish or control small fires, often in emergency situations. Typically, a fire extinguisher consists of a handheld cylindrical pressure vessel containing an agent which can be discharged to extinguish a fire. |
12064 | Theories of Hazardous Chemicals | Introduces the most up-to-date techniques for soil remediation, including chemical fixation/stabilization, soil vapor extraction, thermally enhanced vapor stripping, biodegradation, and air spargingwritten in a style accessible to nonspecialists. Desc4ibes the ex shu technique of thermal desorption of soil contaminants-a low-cost aftemative to incineration for the removal of organics. |
12062 | Introduction of Electric Engineering | Electronic discipline that deals with the behavior and effects of electrons (as in electron tubes and transistors) and with electronic devices, systems, or equipment. In many areas, electronic engineering is considered to be at the same level as electrical engineering, requiring that more general programmes be called electrical and electronic engineering |
16658 | Engineering MathematicsⅡ | For students studying graduate level physics, a number of topics including the Laplace transforms, Functions of a complex variable, and Fourier series. |
12455 | Fire Protection Administration | Introduction to the administration plan, the management and the personnel administration, the financial administration and the policy formation etc. of public fire service organizations. |
13658 | Industrial Satety Engineering(1) | The purpose of this course is to provide the students with an understanding of industrial safety and accident prevention. By this course the student will gain knowledge of hazards in work place, management's liability and role in risk reduction, and the responsibilities of government or organization. The educational goal is to introduce students to the technical means in regard to prevent and reduce injuries or accidents in work places, because it directly or indirectly threatens a right to live for mankind. |
13657 | Industrial Safety Engineering(2) | The purpose of this course is to provide the students with an understanding of industrial safety and accident prevention. By this course the student will gain knowledge of hazards in work place, management's liability and role in risk reduction, and the responsibilities of go |
12652 | Design and Inspection of Fire Protection Systems | Introduction to the design and construction of fire extinguishing and alarm system, supervision on construction of fire protection systems, and inspection technique in these systems. |
12452 | Fire Alarm Systems Engineering(1) | Introduction to the knowledge for analysis of fire alarm systems engineering. Fire fighting electrical device is process that clear relation of device in what circuit. In this process, we will handle about automatic fire alarm system, structure of broadcasting equipment and operation principle, electric circuit of extinguishment, control method of system, gear of fire fighting system, etc. |
13656 | Fire Alarm System Engineering(2) | In this process, we will study about composition of the fire fighting power, kinds of electric wire, capacity calculation and application. |
12655 | Fire Protection Electrical Experiments | Introduction to the experimental method for application of fire protection electrical experiments. There are compose analogue and digital circuit(color coding, interchange Chip, Amp etc.). In this process, we will study process tester usage, voltmeter and conjunction of galvanometer, electric leakage circuit and composition of alarm system, etc. |
11531 | Fire Safety Theory | Introduction to the Fire Safety Theory through the administration plan, the management and the personnel administration, the financial administration and the policy formation etc. of public fire service organizations based on Fire law. And introduction to the technical and engineering theory for fire practice through design and construction of fire extinguishing and alarm system, supervision on construction of fire protection systems, and inspection technique in these systems. |
12451 | Water and Gas based Fire protection Systems Engineering | Introduction to the technical codes, working principle and the design on water-and-gas-based fire protection systems such as fire sprinkler, fire hydrant, CO2 and Halon of gaseous fire extinguishing system etc. |
12061 | Heat and Mass Transfer | This discipline provides a central vehicle for the exchange of basic ideas in heat and mass transfer for the beginners of engineers. Particular emphasis is focused on basic ideas of Heat and mass transfer. Topics covered include, new methods of measuring and/or correlating transport-property data, energy engineering, and environmental applications of heat and/or mass transfer. |
12653 | Electrical Safety Engineering | Introduction to the basic knowledge for a concept analysis of electrical safety. In this process, we will handle about prevention of electric shock accident, work safety of electrical device, electricity fire prevention, electrostatic disaster and prevention, automation equipment, etc. |
12067 | Fire Dynamics | An Introduction to Fire Dynamics include the conditions necessary for ignition and steady burning of combustible materials to occur, how large a fire has to become before fire detectors and sprinkler heads will operate, the circumstances that can lead to flashover in a compartment. |
12901 | Fire Dynamics | Introduction to the investigation on fire origin, fire cause, ignition source etc. |
11532 | Structural Safety and Law | Introduction to fire evacuation, fire wall, fireproofing, smoke movement and combustion products etc. in buildings. |
12899 | Fire and Explosion Protection Engineering | Introduction to fire and explosion protection technologies and theories. Topics include a review of flammability limit concentrations for flammable gases and dusts; thermochemical equilibrium calculations of adiabatic closed-vessel deflagration pressures, and detonation pressures and velocities; pressure development as a function of time for closed vessels and vented enclosures; the current status of explosion suppression technology; and vapor cloud explosion hazards. |
12453 | Facility Engineering for Hazardous Material | Introduction to the standards of facilities and basic design theory by the hazard classes of hazardous materials in regard to the facilities for the storage or treatment of hazardous materials regulated in the hazardous materials safety law. The facility to get rid of static electricity, hazardous materials tanks and different kinds of safety installations etc. are included. |
12903 | Electric Fire Engineering | Introduction to the basic engineering theory for judgment of electrical fire. Electricity fire engineering is field that explain a phenomenon about electric current and heat. Electricity fire engineering is process that cause and results connecting with elements in a system. In this process, we will handle about Joule's law, principle of electricity fire, control and safety system, structure of devices, composition of electrical devices, etc. |
12900 | Product Safety Engineering | Introduction to the safety design technology of product such as automobiles and home electric appliances and product liability. |
13314 | Capstone Design | Introduction to solutions of a "real-world" engineering problems to real fire protection and fire fighting through the knowledge of fire safety engineering based on creative design and major knowledge acquired in class. The development of creative thinking and a real practice of creative design related to fire protection are included. |
12904 | Fire Modelling and Simulation | Introduction to current fire modeling techniques for building fire safety assessment, and application of various computer-based fire models to representative problems. |
12902 | Fire Risk Assessment | Introduction to the technical method that analyze and evaluate risk factor of fire in buildings and industrial work places etc. |
Dept. of Civil and Environmental Engineering
Civil engineering is a field that contributes to the enhancement of quality of life of citizens by planning and upgrading social environments, and constructing SOC infrastructures. In this department, students will learn the fundamentals and applications of civil and environmental engineering, geared towards working-level experiences of civil engineering. Also, the department’s aim is to pursue a continued innovative education that responds to the needs of the industry, by providing opportunities for practicum and computer utilization.
Name | Lee Jae-soo | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2662 | jscivil@jj.ac.kr |
Name | Kim Young-min | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2661 | youngmk@jj.ac.kr |
Name | Lee Myung-kue | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2721 | concrete@jj.ac.kr |
Name | Chung Heung-jin | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | Computational Mechanics / Finite Element Method / Numerical Anaysis / Structural System | |||
Contact | +82-63-220-2755 | hjchung@jj.ac.kr |
Name | Yoo Kyu Seon | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2579 | k-yoo@jj.ac.kr |
Name | Kwon Yong Seok | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2292 | jisankys@jj.ac.kr |
Course No. | Course Name | Course Information |
---|---|---|
16805 | CalculusⅠ | In Calculus(1) we study about basic notions of differentiation and integration. Its contents are the followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, etc. |
16806 | CalculusⅡ | In Calculus(2), we study the following contents: Plane analysis, parametric equations and polar coordinates, vector analysis, etc. |
16807 | Physics and ExperimentsⅠ | Physics & Experiment(1) is the first semester of a two-semester sequence primarily for engineering and physical science students. Covers topics in mechanics (such as motion, Newton's laws, conservation laws, work, energy, systems of particles, and rotational motion), in mechanical waves (such as oscillations, wave motion, sound, and superposition), in thermal physics and in fluid mechanics. |
16808 | Physics and ExperimentsⅡ | Vibration and wave, electricity and magnetism, AC circuit and electromagnetic wave, reflection and refraction of light, wave optics, special relativity, atomic physics, quantum physics are studied, and the principles of physics are understood through experiments and observations. |
16809 | General Chemistry | Elementary of concepts of general chemistry is introduced. Atomic theory, nomenclatures, quantitative chemistry, chemical reaction, periodic tables are major concerns. |
16810 | Computer Programming Basics | This course provides students with underlying principles in the design and implementation of programming languages. Lectures use a variety of existing general-purpose programming languages originated from different programming paradigm: imperative, functional, logical, and object-oriented programming. |
16486 | Structural Engineering Basics and Laboratories | Study the definition, classification and application of structural engineering, load and construction, and investigate structural elements and types. In order to study structural engineering, the concepts of force balance, strain, and displacement will be studied, and measurement methods will be learned through experiments. |
12356 | Basic Design For Civil and Enviromental Engineers | This course is designed to develop the fundamental disciplines about basic design for various engineering parts. The process and basic concept for design are included to the application of real engineering. |
16803 | Engineering MathematicsⅠ | This course is intended to introduce students of engineering and physics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
16804 | Engineering MathematicsⅡ | This course is for engineering students to enhance design capability by studying Laplace transform, vector and matric analysis, and Fourier series, integral, and transform. |
16812 | Probability and statistics | We study the basic concept of the probability based on the sample space and the mapping in probability experiments. Based on that concept, we learn the data processing, probability characteristics, random variables theory and modeling, counting process, statistical inference and confidence, reliability, random signal and the engineering approach for system process. |
07114 | Elementary Hydraulics(1) | This course include basic fluid mechanics for water resources engineering such as characteristics of fluid, hydrostatic mechanics, hydrodynamic mechanics and the analysis of steady flow in pipe. |
07116 | Applied Mechanics(1) | Basic topics in the statics; topics include forces, moment, section property, member forces in trusses, shear and moment diagrams. |
07115 | Soil Mechanics(1) &Lab | This course is for an undergraduate student in civil engineering and aims st the clear explanation, in adequate depth, of the fundamental principles of soil mechanics. |
07429 | Elementary Hydraulics(2) & Lab | This course include basic fluid mechanics for water resources engineering such as the analysis of pipe network system, stedy flow in open channel and measurement of water flow characteristics. |
07442 | Applied Mechanics(2) & Lab | Basic topics in the analysis, behavior and design of trusses and framed structures under static loads; topics include member forces in trusses, shear and moment diagrams, deflections, simple applications of the force method and slope-deflection; introduction to computer applications |
08016 | Soil Mechanics(2) &Lab | his course is for an undergraduate student in civil engineering and aims st the clear explanation, in adequate depth, of the fundamental principles of soil mechanics. |
16811 | Computer Programming and Practice | Practice using the library for basic Python grammar and data analysis basic knowledge for civil engineering design. Machine learning and deep learning in the future by using Pandas, Numpy, and Tensorflow libraries that can handle data, and sklearn and statmodel. |
06280 | Foundational Surveying | It understands the distance measurement where becomes the basic of objection and measurement of justice and classification and the base piece back of measurement and each measurement, the datum point measurement where becomes the standard of horizontal hand weaving location all lwu foundation the terrain information interpretation for U all construction plan cultivation khey. |
12447 | Environmental Engineering and Lab | This is a fundamental class for studying Water supply and wastewater engineering. Environmental Engineering and Lab. deal with concept of environment, causes of pollution such as population, food, energy, ecosystem and water chemistry. Also, the simple experiment will be occurred. |
05873 | Steel Structures | Application of basic principles to design of steel structures; design of tension memebers, columns, beams, beam columns, and connections; beams and frames. |
17160 | Structural Analysis | Learn how to calculate the reaction force and member force of an external structure, review the simple structural displacement calculation method by elastic and energy methods, and examine the structural analysis process of statically indeterminate structures. |
06327 | Foundation Engineering | This course has two primary objectives. First, to present basic concepts and fundamental principles of foundation. Second, to integrate modern learning principles in understanding the various topics in soil mechanics. |
07275 | Water Supply and Wastewater Engineering | Civil & Environmental engineers should supply with clean water and remove the pollutant from wastewater. Theories for the design and operation of treatment plant of water supply and wastewater treatment will be taught. |
06101 | Hydrology | This course include the component of hydrologic cycle such as precipitation, evapotranspiration, infiltration, groundwater flow and rainfall-runoff analysis using unit hydrograph. |
07268 | Water Resources Engineering | This course include design method for hydrologic structures such as flood routing, statistical method, frequency analysis and drought analysis. |
12714 | Reinforced Concrete Structure Design and Lab | Applications to the design of reinforced concrete structures; design of members in shear, columns and slabs; footings. Provide the two laboratory works including the design, manufacturing and testing of simple beam and the bond strength test. |
12446 | Reinforced Concrete Materials and Lab | Concrete ; aggregates, properties of fresh and hardened concrete, mix design, test of workability, compressive strength test. Reinforcement ; stress train curve, tensile strength test, bond strength. Applications to the design of reinforced concrete structures; design of beams in flexure. |
06890 | Construction Engineering | The toe worker work which relates in engineering works space-time, construction process plan, foundation worker, the concrete worker and the tunnel worker, against a dam worker back general construction spatial-temporal field it explains |
13029 | Prestressed Concrete Structure | Concepts of prestressing; deflection of beam, strand, tendon, sheath. Calculation of prestressing loss ; shrinkage, creep, relaxation. Applications to the design of prestressed concrete structures; design of flexural members. |
13031 | Design of Bridge | Bridge analysis and design with regulation of KSCE.Bridge members under combined loads; connections, welded and bolted; moment-resistant connections; plate girders, conventional behavior, and tension field action. |
05566 | Traffic Engineering | Traffic Engineering |
13049 | Road Design | This course is a subject for highway design techniques. The topics of this course are as follows; Characteristics of the vehicle and road, Highway capacity and LOS, Geometric design of highway facilities, Intersection, Interchange, Pavement and maintenance. |
08866 | Computational Structural Design | Theory and application of the finite element method; stiffness matrices for triangular, quadrilateral, and isoparametric elements; two- and three-dimensional elements; |
08868 | computing Hydrosystem Design | From the strong will which it sees is applied most the flood which plentifully - to educate the structure and a use method of the HEC-1 which is an outflow floodgate curve interpretation program and the HEC-RAS from water resources engineering practical affairs and in order after going the work it will be able to apply, and the ability which is the possibility of treating the multi program of the water resources engineering which relates with a this it cultivates. |
13030 | Computational Geotechnical Design | Against the general contents against the toe infrastructure and a fundamental plan it treats. The strong will which specially, it sees to use the computer and to draw up to use and and actual training to lead and and and practical experience to sprout and and and in order to gain, an electric computer program and. |
13540 | Capstone Design | Objection of this course is strengthening the self-directed learning ability of the course member through team activity for searching the problem, restrictions and working it out with the help of tutor. |
07120 | wastewater engineering | The needs for wastewater treatment increase according to the strict regulation and increment of public concern. This class will study the treatment process from the production of wastewater from home or factory to discharge of treated water. |
07712 | Environmental-Facility Design | Based on the theory for clean and safe water supply, physicochemical and biological treatment processes are designed by students itself. This is focused on real wastewater treatment facilities. |
Dept. of Electrical and Electronic Engineering
The mankind, in the beginning, had lived a lifestyle that did not use any type of energy, and progressed slowly to times when we began to use dried bush or trees as sources of energy and to the modern day of using fossil fuels such as oil or coal, and now we’re on the verge of transition into an era where we’ll be using renewable energy such as solar heat, solar light, or wind. This renewable energy, are likely to be realized through projects called Intelligrid, or Smartgrid. The De-partment of Electrical and Electronics Engineering’s objective is to define itself as an academic discipline which educates to make energy sustainable, the biggest element of our civilization’s survival.
Name | Jeon Yongseog | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2515 | yjeon@jj.ac.kr |
Name | Choi Joon-Young | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2657 | joon@jj.ac.kr |
Name | Lee Song-keun | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2723 | songklee@jj.ac.kr |
Name | Kim Eun-Soo | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | Power Electronics / Power Electronics Application Engineering / Electrical Engineering Lab | |||
Contact | +82-63-220-2906 | eskim@jj.ac.kr |
Name | LEE DONG WOOK | |||
---|---|---|---|---|
Position | Assistant Professor | |||
Specializations | - | |||
Contact | +82-63-220-2157 | dongwlee@jj.ac.kr |
Course No. | Course Name | Course Information |
---|---|---|
30118 | null | This course deals with theory and application education related to power inverter and converter drive using microprocessor and digital control technology. |
16786 | Calculus I | In Calculus 1 we study about basic notions of differentiation and integration. Its contents are th e followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, ets. |
16787 | Calculus II | In Calculus II , we study the following contents: Plane analysis, parametric equations and polar coordinates, vector analysis, etc. |
16788 | Physics and ExperimentsⅠ | Physics and Experiments1 is the first semester of a two-semester sequence primarily for engineering and physical science students. Covers topics in mechanics (such as motion, Newton's laws, conservation laws, work, energy, systems of particles, and rotational motion), in mechanical waves (such as oscillations, wave motion, sound, and superposition), in thermal physics and in fluid mechanics. |
16789 | Physics and ExperimentsⅡ | Dynamics of particle, work and energy, law of energy conservation, rotational movement, measure of length, balance of power, free falling, single pendulum, centrifugal force, measure of inertial efficiency, law of Joule, measure of linear expansion are studied and experimented to understand fundamentals of physics. |
16790 | General Biology | Structure material, cell that is standard unit of living things, metabolism, and copper that accomplish life. Learn and understands about functions of structure of plant. |
16791 | General Chemistry | Elementary of concepts of general chemistry is introduced. Principles, theories, rules, and parts of applied chemistry are studied. Acids-Bases, oxidation-reduction, electro-chemistry, and chemical reaction are major concerns. Experimental in chemistry carries out the electrochemical experiments such as electrochemical cell, electrochemical writing, electrolysis, conductivity, and ISE, and experiments for physical chemistry such as kinetics and molecular modeling, and inorganic chemical experiment such as electrochemical series in ligand field theory. |
16792 | Programming Languages I | This course provides students with underlying principles in the design and implementation of programming languages. Lectures use a variety of existing general-purpose programming languages orlginated from different programming paradigm: imperative, functional, logical, and objects-originated programming. |
16793 | Programming Language II | This suvject deals C-laugage which is generally used for solving engineering provlem, detailed subjects are language grammar, developing tool environment setup, compiler utilization, debugging, etc. with this subject, students gets basic skills to jump up to the high level programming application. |
16474 | Engineering MathematicsⅠ | This course is intended to introduce students of engineering and physics to those areas of mathematics which, from a modern point of view, seem to be most important in connection with practical mechanical problems. |
16475 | Engineering MathematicsⅡ | For students studying graduate level physics, a number of topics including the Laplace transforms, Functions of a complex variable, and Fourier series. |
12353 | Basic Design Engineering | Learn the importance of design in the upcoming courses. Learn the design and design method through a simple circuit and a experiment. Learn the importance of the design by fabrication of a trial product |
08928 | Electromagnetics(1) | This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: both static and time-varying electric fields, capacitance, electric potential, current, and conductors. |
10164 | Electrical Engineering Lab. | This set of student labs are designed to allow anyone to recreate simple experiments to explore electronics and Electrical Engineering concepts by using power source, electronic devices and measurement system. |
08064 | Circuit Theory(1) | In circuit theory resistors and capacitors and inductors will be learned. A circuit including such elements will be analyzed and the method of the voltage and the current calculation will be learned. |
10736 | Digital Electronics | This class explores fundamental concepts of digital systems at all levels. We will examine simple logic circuits, programmable logic, and microcontrollers. We will look at how to design decoder, multiplexer, flip flop, counter, register. Also we will look at how to how to build them, how to program them, and how to use them within a complete system. |
07697 | Semiconductor Engineering | This course provides the fundamentals necessary to understand semiconductor device characteristics, operations, and limitations. This course permits the student to develop a deeper understanding of how essential physics, quantum mechanics, the quantum theory of solids, semiconductor material physics. |
09226 | Electromagnetics(2) | This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: magnetism, inductance, time-varying electromagnetic fields, Maxwell's equation, transmission line, plane wave, guided and unguided waves; resonance; and forces, power, and energy. |
10152 | Electrical Engineering Basic Lab. | - Independent and dependent voltage and current source- Resistors, Capacitors, Inductors, Diodes- Kirchhoff's current and voltage laws, Ohm's law. - Parallel or series combinations of elements, voltage dividers, current dividers. - Thevenin and Experiment to design and analyze circuits includingNorton equivalent circuits to simplify the analysis process. - Maximum power transfer to a load. And, educate the Pspice as a computer tool to verify a design |
07262 | Circuit Theory(2) | A transient analysis and ac calculation using phaser will be taught. Laplace transform and transformer and three phase circuit will be learned. |
06069 | Electronics Circuits(1) | In electronic circuit a circuit including transistor and diode will be analyzed. Rectfying circuit and BJT Amplifier circuit will be learned |
08111 | Automatic Control Systems | Automatic control systems presents a comprehensive treatment of the analysis and design of control systems. |
08637 | Microcomputer | This course provides a broad understanding of microcontroller features and options. These topics have been selected to facilitate the comprehension of the general functions most widely used in real-time controllers and are accompanied by lab exercises. After a brief overview of the C compiler, topics include hardware and software development techniques, interrupts, timers, memory bus interfacing, synchronous & asynchronous serial communications, A/D conversion, I/O interfacing of a keypad & LCD panel, inter-processor communication, and fuzzy logic control. |
10157 | Distribution Engineering | This course is an introductory course in the field of electric power distribution systems. Material encountered in the subject includes: Fundamentals of power distribution electric circuits and electromechanical apparatus. Power electric circuits, magnetic circuits, lumped parameter electromechanics. |
10154 | Transmission Engineerring | This course is an introductory course in the field of electric power systems and electrical to mechanical energy conversion. Material encountered in the subject includes: Fundamentals of energy-handling electric circuits and electromechanical apparatus. Modeling of magnetic field devices and description of their behavior using appropriate models. Power electric circuits, magnetic circuits, lumped parameter electromechanics. Modeling of synchronous, induction and dc machinery. The course uses examples from current research. |
09782 | Electrical Machines | Electrical machines deal with essentials information that should be a part of the knowledge of transformers, DC machines and AC machines. |
10155 | Electrical Machines Control | Electrical machines control learns the basic theory and the operational characteristics of motors, generators, transformers and power converters through experiments. |
07248 | Electronic Circuits(2) | MOS transistor and circuit including MOSFET will be taught. Differential amplifer and high frequency characteristics will be aanalyzed and learend. |
08122 | Eletronic Circuit Lab. | This course offers students a facility to perform the design and test of analog circuits using discrete components and integrated circuits. The lab is designed to give the students experience with real test equipment while assembling and testing a working, PCB based, dual power supply. |
07699 | Modern Control Theory | Modern control theory presents a comprehensive treatment of the analysis and design of discrete time control systems. |
15184 | New and Renewable Energy | Study about the new and renewable energy source to solve a fossil energy exhaustion and an environmental problem |
17155 | Electrical and Electronic Materials Engineering | This lecture convers the basic fundamental physics and characteristics of modern electronic materials with metalic, insulating, and semiconducting. The students will understand properties and practical device applications of these materials with this lecture. |
12660 | Power System Engineering Lab. | Power system engineering Lab. for those who early has classes of electrical power transmission engineering and distribution engineering. Transmission lines, transformers, electrical motors, generators, and protective relaying systems are included in the componennts of the Lab. The knowledge would be well organized if they already know about power system engineering. |
08929 | Power Electronics | Fundamentals and applications of power semiconductor devices, circuits and controllers used in systems for electronic power processing.-Identify the characteristics and applications of power semiconductor devices. -Operation fundamentals and analyze of AC-DC rectifier circuits and DC-DC converter circuits for power converter applications |
09601 | Power Electronics Application Engineering | -Design and experiment of the non-isolated power supply (Buck, Boost Converter) and the isolated power supply (Forward, Full-Bridge Converter) - Identify the application of appropriate power conversion topologies. -DSP applications |
10156 | Electronic Circuit Practical Lab. | Laboratory experiments reinforce concepts: Analysis and design of amplifier circuits; Frequency response of transistor amplifiers; Feedback amplifiers; Operational amplifiers: internal structure, characteristics, and applications; Stability and compensation. |
07325 | VLSI Design | Integrated Circuit Design is designed to introduce the student to the integrated circuit design and layout field. The student is introduced to the integrated design and manufacturing process, CMOS technology basics, symbols and schematics of basic circuits, layout concepts and the use of PC-based design tools. |
13545 | Capstone Design | In the capstone design course students experience the application of electrical and electonic engineering principles to the development, design, operation and evaluation of all major process equipment. Students are allowed to work in small team to proceed the assigned design project. |
Dept. of Information and Communication Engineering
The Department of Information and Communication Engineering aims to educate and train H/W and S/W technicians, technology marketing professionals of the IT sector that society needs by teaching students wired and wireless commu-nications technology, mobile communication technology, image communication technology, internet and multimedia communication technology, etc., to efficiently process various types of communication services such as voice, image, and text, in response to our current and future technology needs.
Name | Kim Dong-wook | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2726 | dwkim@jj.ac.kr |
Name | Kim Ho-Joon | |||
---|---|---|---|---|
Position | Professor | |||
Specializations | - | |||
Contact | +82-63-220-2781 | junekim@jj.ac.kr |
Name | Lee Seokhan | |||
---|---|---|---|---|
Position | Associate Professor | |||
Specializations | - | |||
Contact | +82-63-220-4640 | seokhan@jj.ac.kr |
Course No. | Course Name | Course Information |
---|---|---|
16478 | CalculusⅠ | In Calculus(1) we study about basic notions of differentiation and integration. Its contents are the followings: Limits and Continuity, Derivatives and its applications, Integrals, Exponential and Logarithm functions, Technic and Applications of Integrals, Sequences and Series, etc. |
16480 | CalculusⅡ | In CaculusⅡ we can get the basic mathematical concept of major subjects. We study integration, power series, partial derivatives, multiple integral, matarix, vector, derivative equations, etc. |
15999 | Programming Language(1) | This course provides students with underlying principles in the design and implementation of programming languages. Lectures use a variety of existing general-purpose programming languages originated from different programming paradigm: imperative, functional, logical, and object-oriented programming. |
16476 | Introduction to the IoT | In this course, the students will learn basic electronic circuits and various sensors, and perform diverse experiments to develop IoT systems using the open source platform. |
14699 | Introduction to Information & Communication | As a basic subject for information and communication technology, it deals with the general concept on information and communication. Therefore, it will be basis of the related major subject |
10588 | Capstone Design | This course provides projects regarding the electronic / communication engineering fields. It covers all relevant procedures ranging from design and production of projects to technical reporting. |
09568 | Web Programming | In this course, we study the basic concept of Internet. Unlike general application programming, we practice Internet programming operating on Web. |
07157 | Computer Networks | There are details about the upper layer, protocols, standards, and interfaces, based on the basic concept of data communication. This course is concerned with the mode of operation of the different types of data network that are used to interconnect a distributed community of computers and the various interface a standards and protocols associated with them. Also, describe the function and operation of the additional protocols that are needed to enable a set of aplication programs to communicate with one another to perform specific distributed application functions. |
16207 | Programming Language(2) | This subject deals C-language which is generally used for solving engineering problem, detailed subjects are language grammar, developing tool environment setup, complier utilization, debugging, etc. with this subject, students gets basic skills to jump up to the high level programming application. |
16205 | Circuit Theory and Experiments | A transient analysis and ac calculation using phaser will be taught. Laplace transform and transformer and three phase circuit will be learned. |
16342 | Computer Aided Design and Practice | This course covers 2D and 3D drawing technique using CAD. The students will study basic geometric theories and learn techniques for creating various structures and drawings. The students will also develop CAD skills by performing exercises of diverse example drawings. |
16206 | Engineering Mathematics | In this course, students study basic engineering mathematics and develop basic mathematical skills for various system design. |
12071 | Basic Electronics | Study and practice of basic electronic circuit such as transistors, diode, FET circuits. |
08791 | Digital System | This couse offers Digital circuit theory including AND, OR gates, FF, Counter, ADC , Registers and MUX |
10738 | Micro Processor and Practice | This subject deal with microcomputer, This course provides students with the knowledge and skills needed to develop AVR applications |
17156 | TCP/IP Practice | This course studies the detailed protocol structure focusing on the hierarchical structure of the TCP/IP protocol, a standard protocol for networking. In addition, this course covers the basics of network programming based on the TCP/IP protocol. |
16479 | Communication Theory | This course covers signal and spectrum analysis, analog modulation and demodulation theory including AM, FM, PM. |
15466 | IoT and Sensor | In this course, we will study characteristics of various sensors, and practice various technologies for establishing Internet environment of objects by connecting various sensors to objects. |
16477 | JAVA Programming | This course studies JAVA programming, an object-oriented programming language. The students will study object-oriented model programming and learn programming techniques for JAVA class implementation. |
15023 | Experiment in Networking | This subject covers building of different computer networks, including LAN and WAN, etc. |
08656 | Digital Communication | This couse offers Digital communication theory including ASK, PSK, QPSK through the basic communication theory. And deals with optimum filter, Error probability, error detection and correction, equalization, multiplexing, sinchronization, and spread spectrum techniques. |
12114 | Mobile Programming | Like the hand phone and the PDA the process which develops the application program which is used in portable radio set actual training it leads and it studies. |
05528 | Antenna Engineering | This subject studies the principle of the antenna. |
15024 | Experiment in Information & Communication | In this course, the students make some experiments to understand Communication Circuits. for example, an oscillator circuit, an amplifier circuit, AM, FM, PLL etc. |
15200 | Network Security | Study technical mechanisms, security policies, components, to secure networks. |
16130 | Machine Learning | In this course, we study machine learning which is the basis of artificial intelligence. This course introduces various machine learning techniques and AI algorithms and implements them using programming languages such as Python. |
16299 | Smart Factory | This course introduces the technologies and tools used to design, build, and manage smart factories. Students learn about different levels of plant management architecture, from operational planning to production operations. |
17157 | Image and Deep Learning | This course covers the basic theories of digital imaging and deep learning technologies. Additionally, this course covers techniques applied to image classification and applications using deep learning techniques. |
06390 | Mobile communications | Mobile Communications covers all area of wireless communication networks such as wireless local communication , Wireless telephone, cellular system, paging system, TRS , and sattellite communications. |
15199 | Imbedded System | This subject deals with Embedded system architecture and environment. Also the subject covers the system intialization programming, device driver, I/O device control. |
12915 | Capstone Design | This course deals team organizing, object setup, gathering resources, experimenting, data processing, and presentation in order to perform a communication system design project including the results of basic design and elementary design. |