3 Structural 3 CE 6223 Experiment Methods 3 12 Engineering

4 CE 6201 Advanced Environmental-based 3

Planning

1 CE 6311 Planning of Public Transport 3 2 CE 6312 Urban & Regional Transportation

3 Transportation

12 3 CE 6313 Pavement Materials Technology

3 Engineering

4 CE 6202 GIS & Remote Sensing 3 1 CE 6341 Planning & Analysis Construction

12 Construction 2 CE 6342 Construction Engineering System

Operations

3 Engineering

3 CE 6343 Human Resources Management 3 1 CE 6354 Tunnels Engineering

3 2 CE 6355 Stability in Geotechnique

3 Geotechnical

12 3 CE 6356 Rocks Engineering

3 Engineering

4 CE 6357 Reliability Analisys 3

Thesis

No Code

Course

Credits Field

1 TKS 6101 Thesis 10 All Field

132 Educational Guidelines of Faculty Engineering Brawijaya University 2017 - 2018

Course Name

: Research Methods

Course Code

: TKS 6101

Study Load

: 2 Credit/ SKS

Subject : Science and Technology and Research. The role of research in the development of science and technology of machinery. Basic principles and research design. Research Proposal and its preparation. How to write research reports and scientific publication articles. Research ethics. Role of appropriate statistics for analysis of research results, the role of numerical methods or finite element methods in civil engineering research.

INTEREST IN STRUCTURE ENGINEERING Course Name

: Structure Engineering Mathematics

Course Code

: TKS 6108

Study Load

: 2 Credits/ SKS

Properties

Purpose : After following this course students may have advanced mathematical knowledge required for structural analysis. Subject

: The use of matrix for structures computation. Solving the problem of linear simultaneous equations. Solving the problem of homogeneous simultaneous equations. Simple operation of the matrix. Cofactor matrix, Adjoint matrix, The determinant of the matrix, Inverers matrix, Invariant matrix. Vektor, Understanding the vectors, Operation vector, Coordinate system, Basis Vector. Tensor, Understanding the tensor, Tensor operation. Transformation of vector and tensor. Scalar function with vector variabler; tensor function. Derivative functions; extreme value of the function. Integral Functions; The differential theorem in structure mechanics. Differential Equations in structure mechanics.

Simple Differential Equations. 1 nd orde linear differential equation. 2 orde homogenious differential equation. Completion of Differential

st

Equation with laplace transform. Partial Differential Equations. Completion of Differential Equation with Fourier series. Variation Calculus. Functional and Variational completion. Optimization Model.

Functional analysis of variation calculus, Eulier Langrange Equation, Hamilton Principle, The approachment of Varesional method –Ritz & golden method, Least square method, Kavarovich method, Rayleigh – ritz method, classical optimization, Simplex Method, Linear programming (software)

Course Name

: Advanced Materials Technology

Course Code

: TKS 6109

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course students can develop the concept of materials technology for structural planning.

Subject : Material as structural materials, cement based materials, polymer based materials, metal-based materials, rheology of material. Material of concrete-grain distribution, Admixture of additional material, Normal concrete mix design, Properties related to strength, Fresh & hard concrete, Mechanical properties, Diobility, Mechanism, Factures, Influency factors on concrete, Bamboo, Wood, Composite material, stytocan -> tensile strength of weight and shapes, Material of column with spiral, Properties of hybrid fiber reinforced cement – based composite (HFRCC), HPC High Performance Concrete & NPC, Concrete – filled FRP tubular.

Course Name

: Advanced Steel Structure

Course Code

: TKS 6110

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students can explain conceptually

the various behavior of steel structure.

Subject : Behavior of Steel Materials, Behavior and Safety Structure, Theory of a thin walls structure, Column with point load, Column beams, Local buckling in steel profiles, Steel frame, Connection/ joint behavior, Composite structure. Column buckling, Elasticity bearing pads, Semi frame, Flexible joint, Flexible frame, Beam – Evulumn, Elastic Behaviour of Members, The Differential Equations of Bending, Summary of the First Order Elastic Solutions, Beans Response of Bean to Load, Lateral Torsional Buckling of a Simple Beam, In Elastic Beams, Columns + Beam columns, Accelerated Chloride Threshold Testing – Part II : Corrosion Resistant Rainforcement.

Course Name

: Structure Reliability

Course Code

: TKS 6112

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students can analyze the structure

reliability accurately and comprehensively.

Subject : The role of probability theory in engineering, Deterministic and probabilistic approach in engineering, Probabilities Mathematics, Probability in sample space; Exclusive and non exclusive events. Conditional probability, Definition of statistic free of total probability; Discrete and continuous probability distribution, Normal distribution, Log normal distribution, Binomial distribution, Geometric distribution, Exponential distribution, Geometric hyper distribution, Cumulative probability, Tables of probabilities, Distribution of random variable functions. Random variable single function, The function of two variables of statistic independent random. The function of two variables correlated random. Variable function , Estimation of probability distribution parameters, with simulation of Monte Carlos, Extreme statistics; Extreme value issues in planning, Gumbel classification, Subject : The role of probability theory in engineering, Deterministic and probabilistic approach in engineering, Probabilities Mathematics, Probability in sample space; Exclusive and non exclusive events. Conditional probability, Definition of statistic free of total probability; Discrete and continuous probability distribution, Normal distribution, Log normal distribution, Binomial distribution, Geometric distribution, Exponential distribution, Geometric hyper distribution, Cumulative probability, Tables of probabilities, Distribution of random variable functions. Random variable single function, The function of two variables of statistic independent random. The function of two variables correlated random. Variable function , Estimation of probability distribution parameters, with simulation of Monte Carlos, Extreme statistics; Extreme value issues in planning, Gumbel classification,

Course Name : Finite Element Method

Course Code

: TKS 6104

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course students can absorb knowledge about basic concepts, calculation procedures and computation of finite element method on structural elements which commonly found in structure engineering.

Subject : Introduction, Basic concepts, Introduction to matrix; Understanding the finite element; Model of discretization, Theory of elasticity; The relationship of strain stress, Strain compatibility, Boundary conditions, Non linear problem, Form of element; Nodal local; One dimensional element, Two-dimensional element, Triangular elements, Quadrilateral element, Another form of element, The function of the form and its transition, Arrangement of elements and the results, The process of assembling the elements and computation, Programming the finite element method, Application on 1 dimensional element and stability issues, Application on two dimensional elements, plate/ slab. Application on the shell. 3-dimensional stress analysis, analysis of structural dynamics. Ordinal differential equation, Error Analysis, Functional energy, Pascal differential equation, Application of short columns, Application of beam + portal, Computing the beam, Advanced computation, Types of FE (Spring element), Beam Element, 2D Space (global system), FEA Frame Structure, Plane Strees and Stom, Types of Element, Dynamic Structure, Advanced elementation.

Course Name

: Advanced Numerical Method

Course Code

: TKS 6224

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can apply the numerical

method on structural problems.

Subject : Systems of linear or matrix equations; Non homogeneous and homogeneous forms, Interpolation, Differentiation and numerical integration, Ordiner differential equation, Differential Equations System, Subject : Systems of linear or matrix equations; Non homogeneous and homogeneous forms, Interpolation, Differentiation and numerical integration, Ordiner differential equation, Differential Equations System,

Numerical integration, Ordinary differential equations, Linear differential equations, Orde – m, Partial differential equations; Hyperbolic Partial differential equations, Postbolic Partial

differential equations, Deflection of the beam with taylor, Interpolation at shear stress, Deflection with finite differential stress, Advanced Plate, Varying bearing pads and load condition.

Course Name

: Continuum Mechanics

Course Code

: TKS 6225

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students could conduct advanced analysis, especially in the form of 3D continuum from elastic state to experience the destruction of both the classical and variational balance method.

Subject : Basics of continuum mechanics, stress and strain tensor, The laws of physics conservation, The equation of motion and balance, The principle of virtual work, Principles of thermodynamics, Law and behavior of materials, Field elasticity, Linear thermoelasticity, Viscoelasticity, Elasticity limit, Plasticity, Viscoplasticity, Variational methods / energy on elasticity and plasticity, Fracture (material damage), Crack, Fatigue. Vectors and tensors, Stress and strain tensor, vector and tensor transformation, switching and strain, Tensor definition green tensor definition langrange, Displacement of linear strain tensor, Stress tensor, Terms of balance, Tensor elementisitas plane stress & plane stom, Relation of deformation force of anisotropic material, The basic concept of fluid, Plasticity, Viscollacity, Cases of plasticity and viscollacity of the concrete, Variational method of elasticity case, Case of plasticity, The case of polymer viscollacity, Fatigue, Cases of steel, concrete and materials composite, Discussion of journal articles on composite

materials.

Course Name

: Structure Stability

Course Code

: TKS 6206

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students could conduct structure

stability analysis more comprehensively.

Subject : The concept of balance, Stability and instability, Elastic buckling and inelastic columns, Method of analysis, Energy method (Ritz & Galerkin). Finite differential method, The finite element method, Column beams, Lateral buckling and torsion of the beam, slab buckling, Truss stability.

of old orde analysis divergence techniques, Tekuk elastis jepit sendi dan bebas, Inelastic buckling, Rayleigh Ritz energy method, Method of Raylesh Ritz polynomial, Galerkin Method, Finite differencial method, Metode elemen hingga, Column buckling of the space,

Beam buckling-space column, Plate/slab technique of finite differential method, Plate/slab technique of finite element method, Buckling energy method of couple plate/slab, Casual buckling.

Course Name

: Dynamics and Earthquake Engineering

Course Code

: TKS 6216

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can explain the response and behavioral structures due to vibration load and understand structural analysis due to the load. .

Subject : General overview of structural dynamics; introduction, discretization method, Formulation of the motion equation. Discrete and distributed free degrees system; Method of lumped-parameter element, Distributed element model with virtual displacement principle; Generalized SDOF system. Free vibration response. Harmonic vibration response. Response to periodic liberation. Impulsive load response. Nonlinear response. Response of the structure due to earthquake. Solution equation of motion searching (natural frequency), Dynamic magnification factor -> responance, System with SDOF Dampers, Response to dynamic loading, Impuls loading & Dynamic integral, Free vibration of the shear retaining building, Analysis with stodota & holzer method (Shear building) Analysis with stodota & holzer method (Shear building), Mass, Damping, Stiffness, generalized, Loads with special shapes, Function shape, EDM generalized, Numerical analysis.

Course Name

: Structure Experiment Method

Course Code

: TKS 6214

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course students can apply experimental methods in the field of structure. Provides the ability to plan and execute and analyze experiments based on structural modeling theory .

Subject : Experiment work. Introduction to the structure model. Structure model theory . Model scale; model classification. Modeling process. Dimensional analysis. Related theories. Elastic model; Materials and analysis. Inelastic model; Materials and analysis. Analysis of models and equation principles. The effect of size. Laboratory techniques; Laboratory instrumentation . Type of load, Static and dynamic loading; Loading system. Loading for different types of structural models. Reliability and accuracy of the structure model. Application of structure modeling. Structure modeling theory,

B uckling Ham’s Theories, Setting

Up in the field, Stran Gauge; Analysis, Graph. Example of Experiment Model, Research; Analysis, Numerical, Eksperimental Method, Preparation for Experimental Research, Experiment Design, Experiment Measurement Tool, Structural

Field Research, Experimental Research Proposal.

Course Name

: Bridge Structure

Course Code

: TKS 6215

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students can design concepts and construction of bridges for the purpose of certain interests. Subject

: Election of load and standard of the bridge, Methods of structural design and steel bridge components, Concrete and composite. Method of design and construction of cantilever bridges, Repair and improvement of bridge repairs. Loading of PPJJR + BMS, Selection & Design of superstructures, Principle of cable stayed bridge, Application of PPJJR for bridge, Blaring of bridge elastomeric, Precast prestressed bridge, Analysis of cable bridge, Design concept; General, Loaders, Moodstyle, Analysis

& design. Steel arch bridge. Concrete curved/ arch bridge + Steel pipe containing concrete. Suspension/ hanging bridge, Cable stayed

bridge. Single tower cable stayed bridge. Bridge research.

Course Name

: Plasticity and Crack Mechanics

Course Code

: TKS 6117

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course students can apply the theory of plasticity and crack mechanics in the structural context. Subject

: Plastic behavior in tension and press, Criteria of melting and collapse/ failure, The relationship of strain stress, Metal plasticity, Plasticity of concrete, Boundary analysis. Effects of crack and tip collapse/failure, Mehods of ELFM, EPFM, The concept of crack propagation analysis. Understanding the Mechanics of Cracks, Effect of crack & notch; collapse, Linear elastic fracture mechanic (LEFM), Elastic plastic fracture mechanic (EPFM), Constant amplitude crack growth in a structure, Analysis to crack growth in reinforced concrete, Application of fracture mechanics to RC, Exercise crack growth analysis, Intro to plastic analysis, Plastic moment of the section, factors affecting Mp, Factor analysis of simple material, Structural methods, The method of virtual work, Melting criteria.

Course Code

: TKS 6116

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students can arrange the concept of plate and shell design for a particular purpose. Subject

: Classic plate, Isotropic & artotropic plate, Layered plate, Shear deformation, Translational shell, The shell of rotation and

combination shell, Method of analysis.

Course Name

: Structure Reliability

Course Code

: TKS 6112

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course, students can analyze the structural

reliability accurately and comprehensively.

Subject : The role of probability theory in engineering, Deterministic and probabilistic approach in engineering, Mathematical of probability, Probability in sample space; Exclusive and non exclusive events. Conditional probability, The understanding of statistics free of Total probability; Discrete and continuous probability distribution, Normal distribution, Log Normal Distribution, Binomial distribution, Geometric distribution, Exponential distribution, Geometric hyper distribution, Cumulative probability, Tables of probabilities, Distribution of random variable functions. Random variable single function, The function of two variables of statistic independent random. The function of two variables correlated random. Variable function , Estimation

of probability distribution parameters, with simulation of Monte

Carlos, Extreme statistics; Extreme value issues in planning, Gumbel classification, Asymptotic distribution of type I II III; Convergent criteria, Graph of probability of gumbel and logarithmic; Extreme value parameter estimation, The probability distribution of structural loads, Dead load, live load, wind load, Highway loads, Earthquake loads, The probability distribution of structural geometry, Random variable of stresses, Random variable of material properties, Nominal value of planning, Safety number, risk and safety index, Risk of failure on nominal value of planning,

Model function of the failure shape, The safety index for the resistance and normal distributed load/ log normal, The relationship between the safety index and the safety factor. The concept of reliability, Probability theory, Beta indeks, Design and tensor beta, Beta Carlo Simulation, Reliability risk analysis.

Course Name

: Advanced Concrete Rheology

Course Code

: TKS 6217

Study Load

: 2 Credit/ SKS

Properties

Purpose : After following this course students can understand the concrete

rheology for a particular purpose of interest.

Subject : Rheology of material, Steel, Concrete, Rheological model, Constitutive equation of concrete material, Application on reinforced concrete material.

INTERESTS IN TRANSPORTATION ENGINEERING Course Name

: Transportation Modeling

Course Code

: TKS 6125

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students can develop the concept of

planning and modeling in transportation.

Subject : Problems, Roles and functions of transportation in human life. Components and Relationships between Transport Components. Moda & Transportation Infrastructure. The systems approach and its application in transportation planning: Modeling Concepts, System modeling, Problems and formulation,. Transport Modeling Concepts: Model of generation and Trip Attraction, Movement Distribution Model, Model Selection of Moda and Travel Route. Transportation Travel Analysis, Transport Planning and Transport Management, Transportation modeling in transportation planning, The link between modeling and decision math, Problem determination for modeling, Data in transport modeling, Presentation of "For Step Model" Part I , Presentation of “For Step Model” Part II , Best Practical modeling in USA, System modeling (introduction land use – transport), Land use – transport

model steps to develop modeling, Statistics and modeling of koregra regresi.

Course Name

: Operations Research

Course Code

: TKS 6120

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students can apply optimization techniques to analyze the (relevant) development issues which involving various interests.

Subject : Concepts and methods of optimization: Linear Programming, Goal Programming, Dynamic Programming, Network Optimization, Simulation methods, Computer simulation, Decision Analysis : AHP, Multicriteria Analysis, Queue Model, Single and Double Service queue with the distribution of poisson, Markov Chain Analysis, Monte Carlo. Modeling of transportation problems, Modeling of transport problems regarding assignment methods, Exercise of Transport issues & assignment problems, Queue theory and its application, Project management with CPM and PERT, Introduction to dynamic programs, Task of transport problem, gaining theory and dynamic programs, Supletion Method.

Course Name

: Transportation And Environment

Course Code

: TKS 6128

Study Load

: 2 Credit/ SKS

Properties

Purpose : After attending this lecture students can analyze contextually the actual cases of environmental impact associated with transportation.

Subject : The philosophy of environmental impact assessment, Environmental impact assessment related to transportation (air and sound pollution). Environmental Development, Environmental Regulation, Understanding the Impact. Description of Project/Activity. Environment color/Hue. Methods of Identification and Impact Assessment. Impact Evaluation on Climate and Air Components. Evaluate the impact on Earth Components (Topography, Cutting Materials, Geological Processes). Impact Evaluation on Biotic Components (Flora and Fauna). Impact Evaluation on Socio-Economic Components. Impact Evaluation on Socio-Cultural Components. Impact Evaluation on Public Health Components. Environmental Management and Monitoring Plan. Ecology of Population. Energy Resources. Enviromental Planning. Environmental Issues in Indonesia. Background, Concept and Implementing the Sustainable Development. Instruments of Protection and Environmental Management. Regulations on the Environment. AMDAL. RKL & RPL.

Course Name

: Advanced Highway Engineering

Course Code

: TKS 6126

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students are expected could perform analysis, design and maintenance of highways on the advanced level. Subject

: Law no. 38/2004 on the Road, Feasibility Study of Highways, Technical Feasibility Evaluation, Economic Feasibility Evaluation, Other factors, Road Marking System (road fund), Flexture and Rigid Design, Damage and Maintenance of the road, Pavement Performance, Road Maintenance and its Problems, Implementation of Performance-Based Contracts, Road Performance Evaluation Method, Concept of Service Performance, Roughness of the Road, Tools used, Roughness data usage for evaluation, Road maintenance Programming, Criteria used, Measurement Method. Road damage, PMS, Continuing PMS, Evaluation of road handling, Presentation on road damage, Evaluation of roads with paving, AHP App, Road performance - Evaluation techniques, Case Studies of road performance evaluation, Overstayed road maintenance the case study in tulungagung, Modeling of road damage, Final Exam of the Semester/ UAS.

Course Name

: Advanced Traffic Engineering

Course Code

: TKS 6127

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students are expected could perform the

advanced traffic planning and management.

Subject : Characteristics of vehicles and drivers; Road segment includes planning, operational analysis and arrangement; Intersections include planning, operational analysis and arrangement: Intersection coordination; Bundaran (Rotary Intersection), Environmental Aspects of the Traffic. Traffic engineering problem, Elements of traffic, Traffic characteristics: speed, vol, Traffic management -> priority management, Traffic management techniques, ERP and andalalin, Traffic characteristics: density – hub speed – flow – density, Urban roads + inter-city, Inter-city road + freeway, Study of intersection, Final Project Presentation – Final Exam of the Semester / UAS.

Course Name

: Urban and Regional Transportation

Course Code

: TKS 6130

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture, students are expected to be able to understand the theory/concept of urban and rural transportation planning as an integral material of urban and regional planning.

Subject : Context of Transport Planning, Sustainable Transportation, Transport Planning and Decision Making, Characteristics of

Urban Transport System, Characteristics of Urban Movement, Power Management for Decision Making, Urban Public Transport, Rural Transportation, Social dimension in Transport Planning, The Role of Social Aspects in Rural Transport Planning, Priority Process Using Participatory Methods. Rural Transportation, Transport Planning, Development of Regional Transportation, Case Study of Transportation Development, Sustainable Urban Transport System Planning, Road Tax as a Form of Sustainable Transportation System, Urban Public Transport in USA, Rural Transportation; With the Society, Discussion I : Development of Sustainable Transport in Urban Areas, Discussion II : Sustainable Transportation in Indonesian Urban Areas. Discussion III : Sustainable Transportation Application in Indonesian Urban Areas. Discussion IV: Sustainable Transportation in Indonesia.

Educational Guidelines of Faculty Engineering Brawijaya University 2017 - 2018

Course Name

: Technology of Pavement Material

Course Code

: TKS 6223

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture, the students can evaluate and test the pavement material for the purpose of road pavement planning. Subject

: Soil as pavement material. Various kinds of evaluation and soil testing for pavement materials. Testing and planning of hot mix asphalt. Field review & discussion, The foundation layer, CBR & Soil Classification, Soil improvement, Materials for the airport, Discussion of asphalt problema Report, Presentation layer content & Landslide, Ductility of penetration, Test of marshall, Marshall.

Course Name

: Transportation Infrastructure

Course Code

: TKS 6203

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can design & evaluate on the

important transportation infrastructure.

Subject : The basic concept of transportation planning, Method of programming and design priorities, Development of transport

facilities: Rail Road, airports and ports, Terminal of passengers and goods, Road Infrastructure Facility, Road signs. Port Facility. Port Facility Planning. Highway Infrastructure I. Highway Infrastructure II. Road Infrastructure Planning. Discussion on the Development of Transport Infrastructure. Discussion of Port Management. BRT (Best Rapid Transport), MNS Rapid Transport. Road Infrastructure Damage. Intersection, Planning & Regulations. Round the bout.

Course Name

: Transportation Planning Studio

Course Code

: TKS 6131

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can perform a complete planning or evaluation of the system and transportation facilities. This course is as preparation for the writing of Thesis.

Subject : This course focuses on training students on the processes that must be implemented at the time of planning of a system or transportation facility. Introduction to the topic of research. Research for the topic of research. The draft of the preliminary report contents. Draft of preliminary report. Presentation of Preliminary Report. Finalization of Preliminary Report. O-D Survey Considerations. Continue the Analysis Needs Attention with Timetable. Exposure of survey results. Check the survey analysis. Prepare the Final Task.

Educational Guidelines of Faculty Engineering Brawijaya University 2017 - 2018 143

The format of the final report revisions analysis. Add the conclusions, recommendations, suggestions. Add suggestions, insert the final draft presentation, Presentation of the final report, correct the conclusion.

Course Name

: GIS application

Course Code

: TKS 6240

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can perform a complete planning or evaluation of the system and transportation facilities. This course is as preparation for the writing of Thesis.

Subject : Introduction, SAP and Assessment System, Introduction to GIS 1; Hardware, Software, GIS definition, Software of GIS. Cartography Introduction, GIS for Area Planning, Introduction to GPS, Introduction to Remote Sensity 1 – Basics of sensing, Introduction to Remote Sensity 2 – Analysis of Sensing Data, LIDAR / ALSM and its Application, GIS Completion for Erosion, Making the watershed limits Using Arc View 3.3, Spatial Analysis, 3DAnalysis, Thyologic Modelling, Digitization Process, Overshot, Undershot, Dxf – Shp, Calculation of Case

Sample Erosion, The use of Table – Query field – Calculte in Arcview 3.3, The Making of ARLKT with GIS.

Course Name

: Transportation & Land Use

Course Code

: TKS 6241

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can arrange the concept of land use by accommodating the interests of transportation. Subject

: Land-use System Introduction; Urban transport system; Land use includes the concept of planning and development as well as problems; Interaction between transportation and land use; Introduction of Transport needs model. Understanding the land use, Its benefits to transportation. Spatial dimension and transportation. LU and Transportation Interaction in Japan. Spasial Interaction (theory and reality). The planning of LU and integrated Transportation. System of Transportation and TGL – theory and practice (micro). Interaction of LU and urban transport -> Case Study in Malang City. Integration of transportation planning and space structure (case study of jatim selatan). Indonesian LU – Transport System. System approach in effort to solve

transport problem. Simple model.

Course Name : Urban and Regional Infrastructure Facilities

Course Code

: TKS 6247

Study Load

: 3 Credits/ SKS

Properties

Purpose : After completing this course, students are expected to be able to understand the theory / concept of urban and rural transport planning as an integral material of urban and regional planning.

Subject : Context of Transport Planning. Sustainable Transportation. Transport Planning and Decision Making. Characteristics of Urban

Transport System. Characteristics of Urban Movement. Data Management for Decision Making. Urban Public Transport. Rural Transportation: Social dimension in Transportation Planning, The Role of Social Aspects in Rural Transport Planning. Priority Process Using Participatory Methods. Sustainable development in Urban planning, Strategic planning, Urban settlement, Waste management in Jakarta, Solar energy in China, Flats management and supporting infrastructure, Public transport in urban transportation system contact, Project planning of urban public transport, Presentation of student assignments, Infrastructure and public services, Presentation of the task of public transport facility planning, Flood management and implementation of appropriate urban infrastructure road, Terminal planning & intermodality, Determination of terminal location, Public transport project planning, Determination of selected projects with

multicriteria analysis, Task + material presentations.

Course Name

: Pavement Engineering

Course Code

: TKS 6246

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can develop effective

pavement management system.

Subject : Road pavement material (Concrete Asphalt, Split Mastic Asphalt, Asbuton, Cement Concrete, etc.), Geotechnical aspects, Traffic load, Planning of pavement thickness (empirical and analytical), rigid pavement, Pavement Management System. Pavement performance influence factors, Industrial Floor, Case Study of the Planning, Completing the Airport Pavement Planning, Airport pavement planning, Hardener of the road pavement, Design variable : Base ground, Planning variable : traffic, Planning variable : Enviromental Reliability, Planning of flexible pavement – AASHTO 93.

Course Name

: Planning of Public Transportation

Course Code

: TKS 6242

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students can perform a complete planning or evaluation of the system and transportation facilities.

This course is as the preparation for the writing of Thesis.

Subject : History of Public Transportation, Public Transport and City Growth, Classification of public transport, Facilities and Infrastructure of public transport, Public transport stops, Performance (Operation, Performation, Capacity, Productivity) of public transport, Performance (cost, efficiency, utility) of public transport, Route system and route classification, Hierarchy and route capacity, Route evaluation criteria and route service criteria, Route planning and route criteria, Route network configuration and planning, Distance between route and route network system, Transport costs, Grouping the costs, Business costs, Basic determination, reasonable transport rates, Tariff type, tariff of passenger and freight transportation, Management & administration of public transport. Issues of Urban Transportation in Indonesia, Issues of public transport and development plans in Indonesia, Public transport market factors, Demand of public transport, Structuring of public transport in Surabaya, Feasibility study of the BRT corridor, Urban public transport in Syria, Review of public transport practices either in Europe & Canada, Route, Number of fleets, Performance of public transport + TOD, BRT in Caribia-Bopola & Brisbane. The problems of public transportation, Issues of public transport, Public transportation in the USA, Public transport fares/ tariff, Sustainable transportation in major cities in Indonesia, Regarding the mass public transport, Design and quality of BN transit services in

Western Europe, Development of sustainable transportation on Malang city public transportg, Public transport reform policy case study: Surabaya, Development of mass public transport in Malang Raya, Terminal Performance & Quality Evaluation.

INTEREST IN CONSTRUCTION MANAGEMENT Course Name

: Operations Research

Course Code

: TKS 6120

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course the students could apply optimization technique to analyze the relevant development issues which involve various interest.

Subject : Concepts and methods of optimization: Linear Programming, Goal Programming, Dynamic Programming, Network Optimization, Simulation methods, Computer Simulation, Decision Analysis: AHP, Multicriteria Analysis, Model of queue, Single and double service queue with poisson distribution, Markov Chain Analysis, Monte Carlo. Graph method, Simplex method, Duality, Queue, Transportation, Service, Operational Research; Mathematical Model, Probability Model. Modeling in Operations Research, Simplex -> standard parameters, Tapping stone & MSDI,

Developments Operation Research, Selection Theory.

Course Name

: Advanced Project Management

Course Code

: TKS 6121

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students can apply the principles of

management on project management.

Subject : Project management and construction management. Program vs Project; Problem analysis on project planning; Application of logical

steps. Organizational structure, Schedule Planning; Project time; Work Networking; Block chart. Computer applications in scheduling planning. Monitoring and reporting system. Budget plan.

Course Name

: Human Resource Management

Course Code

: TKS 6122

Study Load

: 3 Credits/ SKS

Properties

Purpose : After attending this lecture students can master various human resource management concepts both strategic and operational, bridging the integrity of the human resource management system with other systems within the organization.

Subject : Introduction to HR, HR Challenges ahead, Workface diversity , Career planning and development, Compensation strategy, Safety, Health and labor relations. Intoduction to human resource management, HR Planning, Job analysis & classification, Maintenance of human resources, Job orientation, Education & training, Maintenance of labor; Incentives & work safety, Performance, Occupational safety and health, Incentives and productivity, Compensation.

Course Name : Cost Estimation and Project Accounting

Course Code

: TKS 6123

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course provides knowledge of the principle of estimation in the construction project and the accounting principles used. Subject

: Decisions based on economic principles, Decisions in uncertain conditions, Investment in construction projects, Designing the project cost estimation, cashflow forecasting and budgetary control, Financing of the business, Financial performance, Project financing. Project cycle - > costs estimation, Ways of measurement, Times & money, Project criteria, Project cashflow, Accounting & Cost, Accounting & Finance, Financial Statements etc., Cost, Concept & Complication, Cost Analysis Method & CVP analysis, Productivity Cost + Case, Review of Objective Tool.

Course Name

: Quality Management

Course Code

: TKS 6124

Study Load

: 3 Credits/ SKS

Properties

Purpose : After following this course students are expected could apply the principles of quality control on the implementation of construction works and consultants.

Subject : National construction services policy, Definition and scope of quality management. The basics of statistics for quality control, Statistical methods for process control; Control chart, Cusum, Moving average, Capability process analysis, Sampling method for job acceptance, Benefits of implementing the quality management system. Quality management system, Analysis policy, ISO Policy, Application of Quality Management System, Beta Concept of Quality The Determinants of Quality Variation, Measurement of Chart Pareto Quality, Ishihowa Diagram Control Chart, Quality Management Quality Attribute, Quality Improve, Half Factor Quality Improvement vane.

Course Name

: Legal & Environmental Aspects

Course Code

: TKS 6217

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course provides a general basis of law and legislation relating

to construction, contracting and risk.

Subject : Risks in construction business, Legal principles, Construction contracts, Liabilities, Laws relating to land acquisition, Claims management, (claim prevention management), Dispute resolution, and insurance in the construction industry. Legal Environmental Issues in Indonesia, nfrastructure Information; Definition of the infrastructure as a system of life, Understanding the legal & environmental aspectsRelation of development and Environment and its impact, Sustainable development, The concept & purpose, Stockholm Declaration 1973 and its Paradigm Development, Protection of environmental management in Indonesia, Environmental management system in Indonesia, ISO 14000 + description of activity plan, Environmental color and impact analysis, Paradigm of Economic Growth Development and its grown impact, Lapindo film and discussion, Paradigm of principle - analysis of environmental impacts, Scoping & estimating the environmental

impacts, Forecast & Evaluation of the impact, Government Regulation No. 27/1999 on EIA/AMDAL as the principle of early development of the principle of recombination.

Course Name

: Project Performance Management

Course Code

: TKS 6218

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course aims to provide knowledge about the latest techniques to assess the productivity, forecasting the optimum level of productivity, and strategic management applications in achieving optimum productivity.

Subject : Performance evaluation method, Key performance of indicators, Budget allocation system, Measurement of productivity, The

increase in productivity during the design and implementation.

Course Name

: Reliability of Infrastructure System

Course Code

: TKS 6219

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course provides the knowledge of concepts and methods for evaluating the reliability of the infrastructure to ensure the security and performance of the infrastructure system.

Subject : The probability distribution to model the time to collapse, Modeling and analysis of multicomponent systems, Ease of maintenance, Reliability management. The concept of reliability, Pdf, Cdf, Variance, Contingency distribution, Exponential distribution, Normal distribution, Reliability, Safety Limits, Probability distribution (continous distribution), Application of infrastructure reliability, Normalization -> data distribution -> Reliability index beta, Partial normalization, Non normal distributions -> reliability index beta, Reliability to catchment area + reliability of Rusunawa UMM, Reliability of green direction analysis for Watershed, Analysis of the reliability of the watergates, The reliability of the port foundation.

Course Name

: Disaster Handling Management

Course Code

: TKS 6220

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course provides knowledge of concepts and methods for

disaster management in general.

Subject : Why more need to learn about disaster management ?, Understanding the disaster and its mitigation, Types of disasters and earthing disaster, Earthquakes & its derivative, The problem of disaster management in Indonesia, Law No. 24 2007 on disaster management, Disaster Risk Analysis, Disaster Management, Hazard Potential (Disaster Prone Map), Map of disaster: Aceh, North Sumatera, Flood Disaster, Management of disaster handling in several cities in Indonesia, Forest fires, Fire

prevention strategy.

Course Name

: Infrastructure Management

Course Code

: TKS 6221

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course aims to provide knowledge of management

applications in infrastructure maintenance.

Subject : Definition of infrastructure, Issues and problems in infrastructure management, The process of infrastructure development and management, Infrastructure components, Planning, Need assessment, an performance indicator. TQM application in infrastructure management, Social aspect, in infrastructure, Legal and institutional aspects. Understanding the Infrastructure, Port Infrastructure, Planning of Port, Highway infrastructure, Highway infrastructure II, Planning of Higway infrastructure, infrastructure Management, Discussion Infrastructure Management, Infrastructure Challenges, TQM, Advanced TQM, Introduction of needs assessment.

Course Name

: Implementation Technique

Course Code

: TKS 6222

Study Load

: 3 Credits/ SKS

Properties

Purpose : This course aims to provide knowledge about engineering techniques of ordering goods and materials in the implementation of construction.

Subject : Forecasting methods and market analysis, Supply models; The deterministic model, The probabilistic model, Material requirement planning (MRP), Supply in process, Measurement of inventory/ supply value, Inventory control system. Pengantar implementation techniques, Rigid pavement, Implementation of cast pole, Implementation of measurement & silting, Implementation of turap, Development of tasks; Retaining wall, Movement, Wood Construction, Development of tasks: Roof leaking, Failure of retaining walls, Precast, Development of tasks: Lightweight steel roof, Road improvement, Installation of girden, Scaffolding construction, Wall construction, Floor plates/slabs, Ceiling, Roof.

INTEREST IN GEOTECHNICAL ENGINEERING Course Name

: Earth Dynamics and Earthquake Engineering

Course Code

: TKS 6133

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Characteristics of Seismic movement, Vibration Theory, Land Behavior due to Cyclic Load, Earthquake, Sand Liquefaction, Measurement of Characteristics of Soil Dynamics, Criteria for Foundation Planning Due to Dynamic Loads, Analysis of Vibration Foundation by Approach, Vibration Foundation: Theory of Elastic Half Space (EHS)

(Vibration Theory For Foundation Above Elastic Media) and Lumped Parameter System, Dynamic Analysis of Foundation Due to Impulse Load + Geotechnical Considerations, Isolation of the Foundation

Due to Dynamic Load, Pile Analysis Due to Dynamic Loads, Dynamic Soil Pressure and Soil Retaining Wall

Course Name

: Advanced Foundation Technique

Course Code

: TKS 6134

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Introduction of Plastic Theory For Planning, Tensile strength on Soil, Planning of Mat Foundation, Planning of foundation above develop soil, Planning of Soil buried Structure, Cellular Cofferdam Planning, Deep Foundation Planning and selection of Foundation type, Pathology of Foundation, Use of

programs and tasks.

Course Name

: Engineering Mathematics

Course Code

: TKS 6135

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Linear Differential Equations, Differential Equations System, Solving Differential Equations by means of a series, Laplace transform, Fourier series, Fourier integration, and Fourier transform of Partial Differential Equations, Complex Numbers and Analytical Complex Functions, Complex Integration, Comformal Mapping, The Use of Complex

Analysis on Potential Theory, Vector Calculus, Integral of Lines, Integral of Surface and theorems of Vector Integral

Course Name

: Advanced Soil Testing

Course Code

: TKS 6232

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Soil Formation, Field Test (lectures and field practicum), Laboratory test (lectures and field practicum), Advanced Soil

Strenght, Empirical Estimation, Practicum and report writing.

Course Name : Finite Element Method for Geotechnical Applications

Course Code

: TKS 6233

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Introduction, Concept of Finite Element Method, Deformation and One Dimensional Stressses, Behavior of pile foundation due to axial load, 1D consolidation, Foundation of lateral piles, Analysis of Wave Propagation at Pile, Triangle and quadrilateral elements with one degree of freedom, MEH for seepage analysis, Problem of two-dimensional deformation and basic equations of solid mechanics, Constant Strain Triangel (CST) and its app on plane stress cases, Quadrilateral element and its application on plane strain problem, Soil modeling: model of Mohr-Coulomb, Hyperbolic models and Critical State models, MEH for excavation/ cutting and tunnel analysis, Interface element, member elements and beam elements, MEH for soil structure interaction analysis (3SKS), Computer program application.

Course Name

: Soil Behavior

Course Code

: TKS 6231

Study Load

: 3 Credits/ SKS

Properties

Purpose

Subject : Introduction, Stress Path, Basic relationship of soil constitutive,

hyperbolic model, Critical State.

Course Name

: Tunnel Technique

Course Code

: TKS 6234

Study Load

: 2 Credit/ SKS

Properties

Purpose

Subject : Introduction, Behavior of Tunnel Materials, Calculation, The stability of the tunnel and the tunnel wall, Tunnel in soft soil,

Preparation of location for tunnel, Tunnel Execution.

Course Name

: Rock Mechanics

Course Code

: TKS 6236

Study Load

: 2 Credits/ SKS

Properties

Purpose

Subject : Introduction, Identification and classification of rocks, Indexs and Engineering Properties of Rocks, Weak Plane on Rocks, Rock Strenght and Failure Criteria, Application, Introduction of rocks in the field.

Course Name

: Rock Mechanics

Course Code

: TKS 6236

Study Load

: 2 Credit/ SKS

Properties

Purpose

Subject : Introduction, Identification and classification of rocks, Indexs and Engineering Properties of Rocks, Weak Plane on Rocks, Rock Strenght and Failure Criteria, Application, Introduction of rocks in the

field..

Course Name

: Stability In Geotechnical

Course Code

: TKS 6235

Study Load

: 2 Credit/ SKS

Properties

Purpose

Subject : Fundamentals of water flow in porous medium, Soil shear resistance and stress path, Theory and concept of calculation method of slope stability and retaining wall, Theory and concept of total and effective stress analysis approach and selection of suitable soil parameters, Effects of stress and OCR path, critical conditions, Application for stability analysis on construction of embankment, excavation, and global stability on the retaining wall with seepage, Various types of soil retaining structures on excavation in the

Staged Construction on soft soil embankment design.