M.Tech (Transportation Engg.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD (Established by an Act No.30 of 2008 of A.P. State Legislature) Kukatpally, Hyderabad – 500 085, Andhra Pradesh (India) R13 M.TECH. (TRANSPORTATION ENGINEERING) COURSE STRUCTURE AND SYLLABUS I YEAR - I SEMESTER Code Group Subject Traffic Engineering and Management Transportation Infrastructure Design Urban Transportation Policy Planning for Sustainable Development Pavement Material Characterization Elective –I Elective- II Transportation Engineering Lab -1 Seminar Total credits (6 theory + Lab) Subject Traffic Analysis Land Use Transportation Modeling Highway Project Formulation & Economics Pavement Analysis and Design Elective – III Elective –IV Transportation Engineering Lab - II Seminar Total credits (6 theory + Lab) Subject Comprehensive Viva voce Project Seminar Project Work Total credits Subject Project Work and Seminar Total L 4 4 4 4 4 4 0 0 P 0 0 0 0 0 0 4 3 C 3 3 3 3 3 3 2 2 22 C 3 3 3 3 3 3 2 2 22 C 2 2 18 22 C 22 22 I YEAR -II SEMESTER Code Group L 4 4 4 4 4 4 0 0 P 0 0 0 0 0 0 4 3 II YEAR -I SEMESTER Code Group L 0 - P 3 - II YEAR -II SEMESTER Code Group L - P - Elective- I & II Applied statistics Engineering of Ground. Project management Remote sensing and GPS for Transportation Engineering. Advanced Concrete Technology Transportation System Management Elective- III & IV Intelligent transportation systems Pavement Construction Maintenance and Management Optimization Techniques GIS Applications in transportation Engineering Environmental Impact assessment for Transportation Projects Rural Roads M.Tech (Transportation Engg.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Tech – I year I Sem. (Transportation Engineering) TRAFFIC ENGINEERING AND MANAGEMENT Unit I: Traffic Studies (Part- I) : Basic principles of Traffic, Volume, Speed and Density; Definitions and their interrelationships; Traffic Volume studies - Objectives, Methods of Volume counts, Presentation of Volume Data; Speed studies- Types of Speeds, Objectives, Methods of speed studies, Statistical Methods for speed data Analysis, Presentation of speed data. Delay Studies; Head ways and Gap Studies - Headway and Gap acceptance, Origin and Destination Studies. Unit II: Traffic Studies (Part-II) : Parking Studies: parameters of parking, definitions, Parking inventory study, Parking survey by Patrolling method; Analysis of Parking Survey data; Accident studies- Causative factors of Road accidents, Accident data collection: Accident analysis and modeling;, Road Safety Auditing, Measures to increase Road safety. Unit III: Capacity and LOS Analysis: Introduction to Traffic capacity, Analysis concepts, Level of Service, Basic definitions, Factors affecting Capacity and LOS, Capacity of Urban/Rural Highway, With or without access control, Basic freeway segments - Service flow rate of LOS, Lane width or Lateral clearance adjustment; Heavy vehicle adjustment; Driver population adjustment. Unit IV: Signal Designing – Fixed Time signals, Determination of Optimum Cycle length and Signal setting for Fixed Time signals, Warrants for Signals, Time Plan Design for Pre-Timed Control- Lane group analysis, Saturation flow rate, and Adjustment factors, Uniform and Incremental Delay, Vehicle Actuated Signals, Signal Coordination. Unit V: Transportation System Management - Measures for Improving vehicular flow – one way Streets, Signal Improvement, Transit Stop Relocation, Parking Management, Reversible lanes- Reducing Peak Period Traffic - Strategies for working hours, Congestion Pricing, Differential Toll Policies. References: 1. Traffic Engineering and Transportation Planning – L.R. Kadiyali, Khanna Publishers 2. Principles of Highways Engineering and Traffic Analysis - Fred Mannering & Walter Kilareski, John Wiley & Sons Publication 3. Fundamentals of Transportation Engineering - C.S.Papacostas, Prentice Hall India. 4. IRC Codes 5. Traffic Engineering - Theory & Practice - Louis J.Pignataro, Prentice Hall Publication. 6. Traffic Engineering by Roger P.Roess, William R. Mc. Shane, Elena S.Prassas , Prentice Hall,1977. 7. Transportation Engineering - An Introduction - C.Jotin Khisty, Prentice Hall Publication 8. Fundamentals of Traffic Engineering – McShane & Rogers. 9. Highway Capacity Manual -2000. Highway Engineering. design standards. Transition Curve setting methods. C. Capacity and Level of Service.widening on Curves. Vertical Curves – Summit Curves. Valley Curves and Design criteria for Vertical Curves. Super elevation. warrants and Design standards.Kadiyali. Tech – I year I Sem.Lal. Principles and Practice of Highway Engineering. Cycle Tracks – Guidelines and Design standards. Markings and Mixed Traffic Control in Urban Areas. 2. Objectives. Advantages and Disadvantages.M. Grade separated Interchanges – Types.Justo and S.B. Transition Curves – Objectives and Design. Specifications for hill roads. 3.G.E. Road Roughness. Camber. Bus bays –Types and Guide lines. Design Principles for Intersections. Driver characteristics.K. Cross Section Elements: Design specifications.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Pavement Surface characteristics – Skid Resistance.Khanna. 2007. Khanna Publications. . Design Standards. Combination of Vertical and Horizontal Curves – Grade Compensation Unit IV: Geometric Design of Intersections : Types of Intersections. Pedestrian facilities on Urban Roads.R. Design of On-street and Off street Parking facilities – Guidelines for lay out Design. Objectives of horizontal curves. Objectives.Tech (Transportation Engg. Unit III: Vertical Alignment of Roads: Gradients – Types of Gradients. IRC Codes for Signs. 4. Objectives of Geometric Design. Vehicle Characteristics. Importance of Sight Distances for Horizontal and Vertical Curves . Unit V: Miscellaneous Elements: Requirements of Pedestrians.Kadiyali and N. Traffic Islands and Design standards. (Transportation Engineering) TRANSPORTATION INFRASTRUCTURE DESIGN Unit I: Functional Classification of Highway System. 2007. References: 1. Design Controls – Topography. L. Traffic Engineering and Transportation Planning. Unit II: Horizontal Alignment of Roads: Sight Distances – Stopping Sight Distance. Nem Chand and Brothers. L. Design of At-grade Intersections – Channelization.R. Extra. Introduction to MX Roads software. Khanna. Overtaking Sight Distance and Intermediate Sight Distance . Design Speed. Traffic Signs and Markings. Rotary Intersection – Concept. Traffic. Fundamentals of transportation . formulation of community goals and objectives. Road Side Interviews. S. Corridor Identification. transportation modeling trip generation. Tata Mc Graw Hill. Accuracy Checks. Selection of Corridor. New Delhi. Demand Function. Aggregate and Disaggregate Techniques.B. growth trends. Home Interview Surveys. Data management and use in decision making . Overview of urbanization process. Economic data – Income – Population – Employment – Vehicle Owner Ship. assignment Unit II: Data Collection And Inventories: Collection of data – Organization of surveys and Analysis. Sequential. Study Area. financing. (Transportation Engineering) URBAN TRANSPORTATION POLICY AND PLANNING FOR SUSTAINABLE DEVELOPMENT Unit I: Introduction: Role of transportation in the economic development of nations. Assumptions in Demand Estimation. inventory of existing conditions. Sampling Techniques. Use of Secondary Sources. city structure and urban activity and infrastructure systems. Urban travel and transportation system characteristics .Hutchinson. National Transport Policy of India – Case studies. Long term Vs Short term planning. selection. Metropolitan transportation planning – John W. Travel Attributes. Supply analysis. Dickey. Detailed approach on 4 step travel demand estimation.Bruton. and comparative international transportation policies. . Mc Graw Hill.E. Tech – I year I Sem. Independent Variables. Introduction to Transportation Planning – M.1975. distribution. R. Khanna Publishers 4. . Overall Planning process. Unit III: Travel Demand issues: Trends. Master plans. Demand analysis . integrating land use and transport planning. evaluation. Traffic Engineering and Transport Planning . demand management . Corridor deficiency Analysis Unit V: Metropolitan cities: Design issues in urban mobility. and Simultaneous Approaches. transportation planning in the developing world.J. Lecture notes on UTP .M. parking policy. Commercial Vehicle Surveys. 5. Unit IV: Demand and supply planning : Planning for sustainable urban mobility.. Hutchinson of London Ltd. Economic and social significance of urban infrastructure systems.R. Economic Impacts of Transport Policy References: 1. Impacts of New Development on Transportation Facilities. Plan Preparation And Evaluation: Travel Forecasts to Evaluate Alternative Improvements.Warangal. modal choice.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Introduction to Urban System Planning . Transport’s Role in tackling Social Inclusion. Principles of planning. Types and Sources of Data.Kadiyali L.Tech (Transportation Engg.C. Raghavachari . Zoning. and implementation of alternative urban transportation systems.a systems perspective.G. adoption. Expansion Factors. overview of transport modes. Urban activity analysis. 2. 3. congestion pricing.Prof. positive and negative externalities in urban transport. Tests on cement concrete including compressive strength. Unit IV: Bitumen and Bituminous Concrete Mix Characterization: Bitumen sources and manufacturing. Plate Load test & resilient modulus. Desirable properties of bituminous mixes. Resilient. Reference Books: 1. Field compaction and control. Introduction to Ground improvement techniques. Classification. Tech – I year I Sem. Quality tests on cement. And Whiteoak. Use of locally available materials in lieu of aggregates. Nano technology applications in cement concrete. Fuller and Thompson’s Equation. lime. Thomas Telford Publishing. Fourth Edition. Joint fillers for Jointed Plain Cement Concrete Pavements and their characterization. different types of soils. Atkins. RTFOT and PAV. Proportioning and Blending of aggregates: Super pave gradation. London 2003 5 Relevant IRC and IS codes . 2: Kerbs Robert D.Tech (Transportation Engg. 2002. Dynamic modulus. Highway Materials. Grout materials. Hubbard Field method of mix design. DCPT. flexural strength. 1971. 3. Aggregate texture and skid resistance. and Richard D.45 power maximum density graph. J. Mechanical and shape properties of aggregates. Unit III: Aggregate Characterization: Origin. Diametral Resilient and Complex (Dynamic) Moduli of Bituminous Mixes. Design of bituminous mixes: Modified Marshall’s specifications. visco-elastic and fatigue properties. Types of aggregates. Shell Bitumen. Art of grouting. polymer modified bitumen. Introduction to advanced concretes like self compacted concrete. Elastic modulus.M. polishing of aggregates. N. Mechanical response of soil. Unit II: Introduction to Soil Stabilization : Physical and Chemical modification: Stabilization with admixtures like cement. Introduction to emulsified bitumen and its characterization.. Grouting: Categories of grouting. Soil Classification. calcium chloride. Introduction to super pave mix design procedure Unit V: Cement and Cement Concrete Mix Characterization: Types of cements and basic cement properties. D. Light weight concrete. bitumen structure. Introduction to Geo textiles and synthetics applications. Roller Compacted Concrete for pavement application. Role of different admixtures in cement concrete performance. A critical look at the different laboratory and in-situ procedures for evaluating the mechanical properties of soils viz. Relevant IRC and IS Codes of Practices (Separate List will be given). fly ash and bitumen.Modified bitumen: Crumb Rubber Modified bitumen. SPT. IS method of cement concrete mix design with case studies. Suitability of different type of soil for the construction of highway embankments and pavement layers. Dynamic properties of soil: FWD test. 0. 4. Prentice-Hall. modulus of elasticity and fatigue properties. (Transportation Engineering) PAVEMENT MATERIAL CHARACTERIZATION Unit I: Subgrade Soil Characterization: Properties of subgrade layers. Highway Materials. Special cements. Soils and Concretes. Tests to simulate ageing of bitumen viz. Fifth edition. “The Shell Bitumen Handbook”. Read. Grouting techniques and control. Sampling of aggregates. Hveem’s method of mix design. Walker. Index and other basic properties of soil. Permanent Deformation Parameters and other Properties. Harold. CBR. stiffness modulus of bitumen mixes using shell nomographs. Natural rubber modified bitumen. CPT. Long term and short term ageing and its effect on bitumen performance. McGraw-Hill. Chemistry of bitumen.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Rheology of bitumen. creep test. Time series analysis UNIT-V Tests of Significance & Confidence Interval: Large sample and small sample tests. Basic Statistics . Fitting of distributions. Principal component analysis. Students T-distribution. Variance and covariance. Fundamentals of Mathematical Statistics – Gupta. Mean. Applications. Multiple correlation coefficient. Chi-square test of goodness-of-fit.John Wiley &Sons. (Transportation Engineering) APPLIED STATISTICS ELECTIVE. Correlation matrices. UNIT-II Probability: Laws of Probability. Statistical Distributions: Binomial. References: 1. Kurtosis. Curvilinear regression models. Oxford and IBH Calcutta. Conditional probability and Independent events. Applications in Traffic Engineering . F. Applications in Traffic Engineering problems. Multiple correlation. 1969.Sultanchand. Means of two samples. Tech – I year I Sem. two observed correlation coefficients.R. Sample Size determination. Systematic sampling. Proportions. Tests for single mean. Dispersion. Skewness. variance and regression coefficients.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Stratified sampling. Laws of expectation. Standard deviation.V. Definitions and Applications.Distribution. 2. Snedectors. Standard error of estimate.I & II UNIT-I Introduction to Sampling Techniques and Statistical Distributions: Frequency distribution. . Basic vectors and matrices.Simpson and Kafks. Poisson. Applications in Transportation Engineering. Simple random sampling. Multivariate Data Analysis –Cootey W.Tech (Transportation Engg. S. Chi-square distribution. Standard error. UNIT-IV Multivariate data analysis: Types of data. 3. Mean and variance. Exponential and Normal distributions.W & Cohens P.M. Intervals for mean. Applications in Traffic Engineering. K. Theorem of total probability and Baye’s theorem UNIT-III Regression and Correlation: Linear regression and correlation.C and Kapoor. Analysis of Variance. two variances. Mechanical. Filtration. Thermal Modification. traditional dewatering methods and their choice. UNIT-II Mechanical Modification – Deep Compaction Techniques. P. P. Tech – I year I Sem. Krisch (2006) – Ground Improvement. and their applications. Physicochemical. 3. Krisch (2010) . In-situ ground reinforcement.Tech (Transportation Engg. M (1994) – Designing with Geosynthetics – Prentice Hall. Electro-osmosis. 2012. (1985) – Earth Reinforcement and soil structures – Butterworths. Design of dewatering system. M. Spon Press. Modification at depth by grouting. F. II Edition. Jet grouting. UNIT-V Modification by Inclusions and Confinement . Text Books 1. Drainage and Seepage control with Geosynthetics. Koerner. (1990) – Engineering Principles of Ground Modifications. Dynamic Tamping and Compaction piles. 2 edition. In situ and laboratory tests to characterize problematic soils. Identification of soil types. Taylor and Francis nd 5. Thermal methods. and grid reinforced soil.M. Hausmann. Hydraulic. Pearson.Blasting Vibrocompaction. J. Shotcreting and Guniting Technology. Indian edition. Taylor and Francis References: 1. New Jersey 2. UNIT-IV Physical and Chemical Modification – Modification by admixtures. (Transportation Engineering) ENGINEERING OF GROUND ELECTIVE. Moseley and K. Donald P Coduto – Foundation Design Principles and Practices. Xianthakos. Electro-kinetic dewatering. Krisch & F. R. Preloading and vertical drains. Crack Grouting and compaction grouting. UNIT-III Hydraulic Modification – Objectives and techniques. reinforcement with strip. Ground freezing. Electrical.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. rock bolting and soil nailing.Ground Improvement by Deep Vibratory Methods.Ground Control and Improvement 4. ground anchors. K. McGraw Hill publications 2.Soil reinforcement. . Abreimson and Bruce . R. M.I & II UNIT-I Introduction to Engineering Ground Modification: Need and objectives. London. Jones C. .Value Engineering. Overview of Management Objectives. 7.Grevarn.Marcel Dekken Inc. Break-Even Analysis. Project Management. Linear programming. Herold Kerzner . Cost Optimisation and Resources Planning .Waker A Teraih and Jose M. Life Cycle Cost Approach. Raina UK. Post Contract Problems. Documents. 6. Potential Problems. Project Management – Processes and Organisational Structures – Team Management – Project Manager as a Team Leader – Leadership Qualities. Conditions.. sampling plan. Tech – I year I Sem. Safety Measures. Anghel Patterson . Ltd.Tech (Transportation Engg.A systems approach to Planning. Construction management Practices. Safety Awareness and Implementation of Safety Plan – Compensation. Arbitration. New Delhi. UNIT-III Contract Management: Tendering and Contracting. queuing concept. PMIS UNIT-II Construction Cost and Value Engineering: Types of Estimates.. Management Functions. Fundamentals of Construction Management and Organisations. PERT. bidding models. (Transportation Engineering) PROJECT MANAGEMENT ELECTIVE. References: 1. 3. . ISO 14000. Implementation of Cost Controls. Tata McGraw-Hill Publishing Company Limited. game theory. Dell Isola . Choudhary. 4. non-productive activities. subcontracts. labour requirements & productivity. CBS Publishers and Distributors.Construction Cost Engineering Handbook . Project Cost Forecasting. Energy Modelling.Project Management . Tools and Techniques. equipment and material management. site productivity. Scheduling and Controlling. Safety Programmes.I & II UNIT-I Introduction to Project Management: A systems Approach. control charts.M. Laws of Contracts. Cost Modelling. K. simulation.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Special Features of International Contracts. Techniques for Project Selection. Systems Theory and Concepts. . Tata Mc Grawhill Publishing Company Ltd.Value Engineering in Construction Industry. Construction Management Practices: Implementation of Procedures and Practices – International Experiences – Case Studies – Examples UNIT-V Project Scheduling and Analysis Methods: CPM. 2. 5. Organisation. Construction Management and Planning. Tata McGraw Hill Publishing Co. S. inventory control UNIT-IV Quality Management and Safety in Construction Industry: Quality control by statistical methods. Van Nostrand Reinhold Co. Human Resource Management: Man Power Planning – Training – Motivation – Industrial Relations – Welfare Measures – MIS – Components and Structure – Personal Management. Resource Management and Inventory: Basic concepts. Sengupta B and Guha H. Receivers. ELBS. John Wiley & Sons 1989. other remote sensing satellites.Mather. Tech – I year I Sem.I & II UNIT-I Remote Sensing: Basic Principles – Introduction. (Transportation Engineering) REMOTE SENSING & G. UNIT-II Pre-Processing Of Remotely Sensed Data: Introduction. Pseudo color enhancement. 1985. empirically based image transforms. Thematic information extraction.P. . Computer processing of remotely sensed Images an Introduction – Paul M. Image Transforms: Introduction. GPS observables. classification and accuracy assessment and change detection. satellite remote sensing system – a brief over view. Alfred Leick. Characteristics of imaging remote sensing instruments. Paul Jumani. geometrical basis. frequency domain filters. interaction with Earth surface materials. Geometric connection and registration. unsupervised and supervised classification. human visual system. arithmetic operations. edge detection. UNIT-III Enhancement Technique and Filtering Techniques: Introduction. GPS satellite signals.Tech (Transportation Engg.M. multiple discriminant analysis etc. Transport System Management. Hyper spectral and radar sensors Filtering Technique Classification Low-pass (smoothing filters) High pass (sharpening) filters. 3. status of Remote Sensing. classification accuracy. GPS satellites. Image enhancement. User segment. Accident Studies. Kinematic and Differential GPS . cosmetic operation. classification. GPS. recent developments in Remote sensing. Social and legal implications of Remote Sensing. contrast enhancement. atmospheric correction. GPS Satellite Surveys. Elements of satellite surveying. Urban Transport Planning. Principles of Remote Sensing. UNIT-V Applications of Remote sensing and GPS in Transportation Engineering : Intelligent Transport System. Adjustment computations. Willey & Sons 2.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. e global positioning system. Control segment. Rectification of digital land satellite imagery. Static.space segment. Principal component analysis. spectral and spatial filtering UNIT-IV Global Positioning Systems: Introduction. Electromagnetic and its properties.S FOR TRANSPORTATION ENGINEERING ELECTIVE. Road Network Planning References: 1. I & II UNIT-I Concrete Making Materials : Cement – Bogus Compounds – Hydration Process – Types of Cement – Aggregates – Gradation Charts – Combined Aggregate – Alkali Silica Reaction – Admixtures – Chemical and Mineral Admixtures.Krishna Raju. Oxford University Press Oct 2006. 6. UNIT-II Fresh and Hardened Concrete: Fresh Concrete – workability tests on Concrete – Setting Times of Fresh Concrete – Segregation and bleeding.S. Special Structural concretes by Rafat Siddique. Concrete: Micro Structure by P. Self Compacting Concrete. 3. Maturity concept – Stress strain behavior – Creep and Shrinkage – Durability Tests on Concrete – Non Destructive Testing of Concrete.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Concrete Technology by M. Concrete Mix Design: Quality Control – Quality Assurance – Quality Audit . Hardened Concrete: Abrams Law.Shetty. UNIT-III High Strength Concrete – Microstructure – Manufacturing and Properties – Design of HSC Using Erintroy Shaklok method – Ultra High Strength Concrete. High Performance Concrete – Requirements and Properties of High Performance Concrete – Design Considerations UNIT-IV Special Concretes: Self Compacting concrete.M. Gel space ratios.Neville. Fibre Reinforced Concrete – Reactive Powder Concrete – Requirements and Guidelines – Advantages and Applications. Galgotia Publications 2000.M. ICI. Polymer Concrete. Tech – I year I Sem. CBS Publications. . Design of Concrete Mixes by N.Chand & Co 2009. Chennai. ELBS publications Oct 1996. 2000. REFERENCES: 1.shores – reshoring – failure of form work. Santhakumar. Properties of Concrete by A. UNIT-V Form work – materials – structural requests – form work systems – connections – specifications – design of form work – shores – removal for forms . S.R. Concrete Technology by A.K.Mehta. 5.Mix Design Method – BIS Method – DOE Method – Light Weight Concrete. (Transportation Engineering) ADVANCED CONCRETE TECHNOLOGY ELECTIVE. 4. 2.Tech (Transportation Engg. R. route alignment methods. Signal Improvement. UK . issues in route networks evaluation – number of route. LOS criteria for Pedestrian and bicycle Facilities. Relevance of TSM actions Indian Urban context. Car Polling.Tech (Transportation Engg.Objectives and Philosophy. activity routes and residential routes. Transit Stop Relocation. monorail. Measures for Improving vehicular flow – one way Streets. Reversible lanes. Planning Bicycle Facilities . References: 1. Tech – I year I Sem. Pedestrianisation. UNIT-IV Promotion of Non – Auto modes: Measures to promote non-auto modes. UNIT-II Measures to promote transit: Preferential Treatment to high Occupancy Vehicles. Board Spectrum of TSM actions. Long Term Strategies and Short Term Measures. TSM actions. Open Books. Tata McGraw Hill 3. UNIT-III Bus Route Network Planning and Management: Type of Bus Route Networks. System Characteristics and Suitability.Reducing Peak Period Traffic . service coverage and accessibility index. Transportation System management Notes: S. Multi-Modal Coordination. Bicycle Transportation . Transit Service Improvement Measures. Mike Hudson . Para Transit Role in urban areas. Suitability for a given Urban Area. The Bicycle Planning.advantages. REC Warangal 2.Chari. length of route. (Transportation Engineering) TRANSPORTATION SYSTEM MANAGEMENT ELECTIVE.class I. Rapid Transportation System.M. Congestion Pricing. Differential Toll Policies. Transit and Para transit integration.I & II UNIT-I TSM philosophy: System approach to Transportation Planning. Metropolitan Transportation Planning.Strategies for working hours. Transit Management Improvement Measure.Hovercraft. Types of routes – Corridor routes. John W Dickey.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Automated Highways. Junction Treats for cycle tracks. New technologies – LRT. UNIT-V Advanced Transit Technologies: Conventional and Unconventional Systems. Parking Management. Class II and Class III bikeways. 2001.Density – Sand Replacement Method –CBR Test.E. Khanna & C.Stripping Test.K. Gravity Test on Cement. Tests on Fine AggregatesBulking of sand. DPR.Ductility Test. Manual For Survey. (Transportation Engineering) TRANSPORTATION ENGINEERING LAB . Khanna & C. New Chand & Brothers .G. IRC:81-1997. Investigation & Preparation of Road Projects.Los Angeles Abrasion TestCompressive strength of Aggregates.Tech (Transportation Engg. References: 1.E. Tech – I year I Sem. . 4.Softening point Test.K. Justo.M.Flash and Fire Point test.I Coarse Aggregate: Gradation – Shape tests Aggregate Impact test.Marshall Stability Mix Design – Analysis. Soil: Attenberg Limits – Compaction Test. Sp.S. Tests on Fresh concrete-Workability. Pavement Evaluation –BBD Preparation of Feasibility Report.G.Viscosity test. Fineness test. IRC: SP: 19. 3. Bitumen Extraction Cement Concrete: Normal Consistency Test. Compressive strength of Cement.Specific Gravity Test and Water Absorption Test Bitumen: Penetration Test. 2. Highway Engineering – S. Highway material Testing .) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Guidelines for Strengthening of Flexible Road Pavement using Benkelman beam Deflection Technique. Justo. Papacostas. Scanning techniques. Goodness of Fit Tests. Fundamentals of Transportation Engineering – C. Steps in Simulation. Traffic Flow Fundamentals – A. Fitting of Distributions. Traffic Signal analysis as D/D/1 system.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Use of Counting. Minimum Pedestrian Volume Warrant. Microscopic and Macroscopic Study of Traffic Stream Characteristics . Interval and Translated Distributions for Describing Vehicle Arrivals. . Multiple Service Channels.Kilareski.D. Gaps and Non-Gaps.FlowDensity diagram use in Shockwave analysis. traffic signal and shockwave theory.Mannering & W. UNIT-IV Pedestrian Delays And Gaps: Pedestrian Gap acceptance and delays.numerical Examples. Gaps and Lags. Car-Following Theory. . Analysis of M/M/1 system. References: 1. Fluid Flow Analogy Approach. Application of M/M/1 analysis for parking Garages and Toll Plazas. Speeds.Tech (Transportation Engg. Speed-Flow-Concentration Relationships. Speed and Concentration. Bottleneck situations and shockwaves. Advantages of Simulation techniques. Concept of Blocks. Demand Service Characteristics. Analysis of D/D/1 system for delay characteristics. Use of Time-space diagram for shockwave description. 4.1977. TRB Special Report 165 2. (Transportation Engineering) TRAFFIC ANALYSIS UNIT-I Traffic Flow Description: Traffic Stream Characteristics and Description Using Distributions: Measurement. Tech – I year II Sem. numerical Examples for application of shockwave theory. UNIT-V Simulation of Traffic: Introduction.M.L.P. Computation of delays and queue dissipation Time – Numerical Examples. Headways. Deterministic Queuing Models. Traffic Flow Theory: A Monograph . Warrants for Pedestrian Crossing Facilities – Minimum Vehicular Volume Warrant. John Wiley Publishers.Flow. Antiblocks.S. Prentice Hall India Publication 5. Prentice Hall India Publication 3. Principles of Highway Engineering and Traffic Analysis – F. Normalized Relationship. Maximum Pedestrian Volume Warrant. Fundamentals of Traffic Engineering – McShane & Rogers. UNIT-II Traffic Stream Models: Fundamental Equation of Traffic Flow. Underwood’s analysis for Pedestrian Delays. UNIT-III Queuing Analysis: Fundamentals of Queuing Theory. Shock Wave Theory . Assumptions and Derivation of System State Equations. Stochastic Queuing Models. Example of Simulation.May. Economic Models and Economic Forecast . (Transportation Engineering) LAND USE TRANSPORTATION MODELLING UNIT-I Land Use And Transportation Engineering: Transportation modeling in Planning. Garin Lowry models. 7. – Rural Road Network Planning. Luis E. University of California. Models and their role. Urban Modeling . McGraw Hill . Modeling and decision making. Connectivity. 5.Rubin Field. Pion. Relation between Transportation and Land Use Planning. Mode split models . Regional Transport Models: Factors affecting goods and passenger traffic. Stopher ARNIM.Graph Theory – Cut sets – Flows & Traversing – Optimum Network Inter-modal Co-ordination. Linear. Regional and Urban Models. Cellular automata.Peter R. Time function iteration models. Equilibrium of supply and demand. Spatial allocation and employment interrelationship.Owers. Introduction to Transportation Engineering and Planning. Disaggregate models .Network Structures and Indices – Network Planning – Evaluation . By R. Genetic algorithms. 3. Network Characteristics . M.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. McGraw Hill. Activity modeling UNIT-III General Travel Demand Models and Regional Transport Models: Aggregate. Prediction of traffic. Logit.Baxter.H. Non-Linear models. 4. Daniel L.Wilson. internal volume forecasting models. Fuzzy logic systems. Issues in Transportation modeling and structure of the classic transport model. 6. The economic base mechanism and allocation mechanism. London. UNIT-IV Regional Network Planning: Problems in Developing Countries. Growth factor models.Echenique and J.Chari. Modelling Transport by Jhan De Dios Ortuzar. Behavioral Travel Demand Models .Circuitry. John Wiley& Sons.R. Recursive and direct demand Models. Pindyek.S. 1970/1975.Willumsen.A. Urban Development Models . discriminant and probit models. Tech – I year II Sem.Abstract mode and mode specific models.. Characteristics of Transport demand and supply.. Accessibility and Level of Service Concepts .M.Michael Batty. The Institute of Transportation Engineering. UNIT-II Land Use Transportation and Activity Models: Introduction to Land Use Planning. REC Warangal. Land Use Transportation Planning Notes . 2. Mobility. User equilibrium concepts UNIT-V Advanced Spatial analysis Modelling: Applications of Artificial Neural networks. artificial intelligence concepts to transportation Modelling References: 1.MEYBURG.Tech (Transportation Engg.G. 8. Morlok EK.Robert S. Behavioral models.Ed. Khanna Publishers. UNIT-IV Project appraisal by shadow pricing with case studies.L. UNIT-V Environmental impact assessment: Basic Concepts. Road User Cost study in India . Project Cycle. Issues connected with evaluation of travel time savings.Various Aspects and Approaches in Project Formulation.R. Environment Audit. Typical case studies References: 1.. Economic Analysis for Highways . Methods of Economic Evaluation -Equivalent Uniform Annual Cost Method.M. Manual For Survey. Development of cash flow Diagrams. 7. 2001. Social costs. Tech – I year II Sem. Transportation Engineering Economics . UNIT-III Economic Analysis. Mc Graw Hill Publishers.Winfrey. 3.Equivalent uniform annual net return method. IRC:SP: 30. 2. Discounting Criteria. Transportation Related Environmental Impacts – Vehicular Impacts – Safety and Capacity Impacts – Roadway Impacts – Construction Impacts.. Objectives. Applications of these methods to highway projects. Vehicle operating costs Components of VOC. Cash flow diagrams. CRRI Road Project Appraisal. Stages in Project Formulation. Road User Cost Study. Manual on Economic Evaluation of Highway Projects in India.Project Formulation – Need and Scope of Project Formulation . Investigation & Preparation of Road Projects. Budgeting. Present worth of cost method. 5. . Value of Travel time Savings . 6.Economic concept of evaluation of travel time savings. Welfare economics. I.W.John Wiley & Sons. Financial analysis . (Transportation Engineering) HIGHWAY PROJECT FORMULATION & ECONOMICS UNIT-I Project Formulation: Project Preparation – Flow Chart for Project preparation. Methodologies for economic evaluation of an accident. G. Net present value method. Toll system analysis . Benefit cost ratio method. Rate of Return.R Kadiyali. Accident costs. Cost and Benefit components. Basic Concepts of Economic Analysis. International TextBook Company. Rate of Return Method. UNIT-II Economic Evaluation : Need for Economic Evaluation. Environmental Impact Assessment – Environmental Impact Statement. for Developing Countries. Preparation of Feasibility Report and DPR – Guidelines.Heggie. 4. Traffic Engineering and Transport Planning . Principles of Economic Analysis.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Stages involved in Economic Analysis. J.Tech (Transportation Engg.Dickey . Time value of Money. IRC: SP: 19. 6. Applied Science Publishers Limited.. Reinforcement in slab. McGraw Hill Publications 2. Principles of Pavement Design. Elsevier. Micheal Sargious. Yoder. Lane Distributions & Vehicle Damage Factors.modulus of elasticity.AASHTO and Asphalt Institute Method. AF Stock. IRC:37 & 58 Codes for Flexible and Rigid Pavements Design. Huang. (Transportation Engineering) PAVEMENT ANALYSIS AND DESIGN UNIT-I Factors Affecting Pavement Design: Variables Considered in Pavement Design. Design of Tie bars. Pavement Analysis & Design. Yang H. UNIT-IV Design of Flexible Pavements: Factors effecting Design. Prentice Hall Inc. Tire Pressure. Stress In Flexible Pavements: Visco-Elastic Theory and Assumptions. Random & Damping Vibrations.Tech (Transportation Engg. Experiments on Vibration. Design of Functional Pavements. Two and Three Layered Systems. Design of joints. Steady State of Vibration. Tech – I year II Sem. UNIT-V Design Of Rigid Pavements: Factors effecting Design . Applied Science Publishers 3. Classification of Axle Types of Rigid Chassis and Articulated Commercial Vehicles. Frictional Stresses. Traffic Analysis: ADT. Stress Inducing Factors in Flexible and Rigid pavements. Deflection studies in Flexible Pavements. Stress Solutions for One. Types of Pavements. and Stresses in Dowel Bars & Tie Bars. subgrade strength & proportion.Wheel load & its repetition. W. AADT. Design of Dowel bars. strength of concrete. Growth Factor. Nai C. John Wiley & Sons Inc 4. Legal Axle and Gross Weights on Single and Multiple Units. & Witzorac Mathew. Fundamental Design Concepts. UNIT-II Stresses In flexible Pavement: Vehicle-Pavement Interaction: Transient. References: 1. IRC guidelines for Flexible Pavements. Contact Pressure.J. Layered Systems Concepts. Functions of Individual Layers. Stresses and Deflections due to Loading. . EAL and ESWL Concepts. Present Serviceability Index. Concrete Pavements. Overlays design methods for Flexible and Rigid pavements. IRC and AASHTO methods of Rigid Pavement design. Pavement and Surfacing for Highway & Airports. Pavement Performance and methods. Stresses due to Curling.M. Need for Overlays. Yang. Effect of Transient & Moving Loads. UNIT-III Stresses in Rigid Pavements: Westergaard’s Theory and Assumptions.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. 5. Truck Factor. ITS and security. Sensor technologies and Data requirements of ITS 3.. John Miles. Elements of Vehicle Location and Route Navigation and Guidance concepts. UNIT-II Sensor technologies and Data requirements of ITS: Importance of telecommunications in the ITS. Data fusion at traffic management centers. Concept of operations. UNIT-V ITS applications: Traffic and incident management systems. UNIT-IV ITS Architecture – Regional and Project ITS architecture. Adel Wadid Sadek 2.Tech (Transportation Engg. Traffic Management Centers (TMC). Benefits of ITS. research. 4. Tech – I year II Sem. US Department of Transportation.M. Automatic Vehicle Location (AVL). 2005. J. Advanced Public Transportation systems (APTS). ITS planning. Artech House Publishers. Traffic flow sensor technologies.Lawrence A. ITS as a technology deployment program. ITS Hand Book 2000: Recommendations for World Road Association (PIARC) by Kan Paul Chen. Advanced Vehicle Control systems (AVCS). Information Management. 5. Advanced Rural Transportation systems (ARTS). travel demand management. Fundamentals of intelligent transportation systems planning By Mashrur A. Transportation network operations. Types of ITS. public transportation applications. Automatic Vehicle Identification (AVI). Case studies on deployment planning and system design and operation. Perspective on ITS. Advanced Traveler Information systems (ATIS). National ITS Architecture Documentation. Transponders and Communication systems. ITS and regional strategic transportation planning. Sensor plan and specification requirements. ITS Models and Evaluation Methods. 2007 . ITS and safety. UNIT-III ITS User Needs and Services and Functional areas – Introduction.. video data collection. Klein . References: 1. ITS Data collection techniques – Detectors. electronic toll collection. M. GIS. Historical Background. ITS and sustainable mobility.Vehicles in Platoons – Integration of Automated Highway Systems. Planning and human factor issues for ITS. Chowdhury. Advanced Traffic Management systems (ATMS). Application of sensors to Traffic management.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. commercial vehicle operations and intermodal freight. the historical context of ITS from both public policy and market economic perspectives. ITS in developing countries. including regional architectures: ITS and changing transportation institutions Automated Highway Systems. ITS Programs in the World – Overview of ITS implementations in developed countries. ITS and road-pricing. Commercial Vehicle Operations (CVO).III & IV UNIT-I Fundamentals of ITS: Definition of ITS. development and business models. (Transportation Engineering) INTELLIGENT TRANSPORT SYSTEMS ELECTIVES. Sussman. Sand Wicks. Roughness Measurements . Pavement Performance Modeling Approaches and Methods of Maintaining WBM.Y. Skid Resistance. WBM Bases. 1994.Transportation Research Record no. Bitumen and Cement Concrete Roads. Shoulders and Drain Roadway and Drain Excavation. roads and parking lots 5.Pavement management for airports. Pavement Maintenance Management Components of Maintenance Management and Related Activities – Network and Project Level Analysis. Open Graded Premix. Causes of Deterioration. Quality Assurance. Inputs. Shahin M. Sargious.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M. Embankment Construction. M. Safety – Aspects.Specifications . Turfing Sand Drains. Roughness.III & IV UNIT-I Pavement management system Components of PMS and their activities. Haas and Hudson . Manual and Mechanical Methods. Design. Sampling Techniques – Tolerances and Controls related to Profile and Compaction UNIT-III Construction of Base. A. Quality Control and Evaluation Serviceability Concepts . Wet Mix Construction. Major steps in implementing PMS. Excavation and Blasting.Textile Drainage.Highway and Traffic engineering for developing countries 6. References: 1.Pavement Serviceability Index. Bituminous Macadam . (Transportation Engineering) PAVEMENT CONSTRUCTION MAINTENANCE AND MANAGEMENT ELECTIVES. Shoulder Construction. Highway financing. Rope Drains. Fund generation.Distress Modes – Cracking Rutting Etc. Cement Stabilised Sub. Subbase. Pavement Deflection – Different Methods and BBD. Drainage Surface. Preloading Techniques UNIT-IV Bituminous Construction and Maintenance: Preparation and Laying of Tack Coat. MORTH . Joints in Concrete and Reinforced Concrete Pavement and Overlay Construction. Built up Spray Grout.Bases. Rehabilitation and Feedback systems. Bridge and Pavement maintenance. TRB 4.Penetration Macadam. Traffic and Environmental Factors. UNIT-II Pavement Inventories.Visual Rating . UNIT-V Cement Concrete pavement Construction and Maintenance: Cement Concrete Pavement Analysis .800. 1996. Construction of Gravel Base. Evaluating alternate strategies and Decision criteria . Semi-Dense Asphalt Concrete-Interface Treatments and Overlay Construction. Bent Thagesan. Prioritization Techniques and Formulation of Maintenance Strategies. Mix Seal. R. Tech – I year II Sem. Inventory System. Examples of HDM and RTIM packages. Crushed Cement Bases. – Pavements and surfacing for highways and airports – Applied Science Publishers ltd 3.Construction of Cement Roads. Geo. Pavement management systems –McGraw Hill publications 2. W.M. Quality Control – ISO 9000 . Construction and Maintenance.Tech (Transportation Engg. IRC Specifications. Fibonacci search. simple examples. traveling salesman problem.Rao. Linear C-1 problem. Degeneracy. 2. Equality and inequality constraints.P. Revised simplex method.S. UNIT-II Non-Linear Programming: Classical optimisation methods. Sensitivity analysis. gradient methods. Wiley Eastern Ltd. New Delhi. transportation and assignment problems. Introduction to Optimisation . UNIT-III Search Methods: One dimensional optimisation.C.S. 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Fletcher Reeves method.M.Mital. 3. 4. Spatial data models. Databases for GIS ... 1984.. GIS A Management. Burrough. Analysis and Modeling: Raster based GIS data processing – Vector based GIS data processing – Queries – Spatial analysis – Descriptive statistics – Spatial autocorrelation – Quadrant counts and nearest neighbour analysis – Network analysis – Surface modeling – DTM. John Wiley & Sons. S. DeMers. New York. Clarke. 5.M. Marble.. UNIT-II Geographic Data Representation. 2002. Getting Started with Geographic Information Systems.W.P. Prentice Hall of India.ASTER Publication Co.A. Kulwer Academie Publisher. Galkhs HW & Pequest. Utility management. Implementation and Maintenance of GIS.. 1992 6.Digital representation of data –Data structures and database management systems – Raster data representation – Vector data representation –Concepts and definitions of data quality – Components of data quality – Assessment of data quality –Managing data errors – Geographic data standards.. 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Quality and Standards: Storage . "Methodological Guidelines for the Integrated Environmental Evaluation of Water Resources Development".M. Environmental Impact Assessment – Environmental Impact Statement.. Environmental Impact Statement. Co. Transportation Related Environmental Impacts – Vehicular Impacts – Safety & Capacity Impacts – Roadway Impacts – Construction Impacts.Tech (Transportation Engg.G. Rau. Canter. McGraw Hill Pub. (1996). Impacts. New York 2. industrial effluents and their impact on natural cycle. Stracy. "Environmental Impact Assessment". Objectives of EIA. L. Choosing A Methodology.. and Wooten. Environmental impact of highways. UNESCO. D. mining and energy development UNIT-V Methodologies for Carrying Environmental Impact Assessment: Overview of Methodologies Adhoc. New York . References: 1. McGraw Hill Pub. Tech – I year II Sem. Typical case studies UNIT-IV Environmental Issues in industrial Development: on-site and off-site impacts during various stages of industrial development. L. New York 3.III & IV UNIT-I Introduction: Environment and its interaction with human activities Environmental imbalances Attributes. Advantages and Limitations of EIA UNIT-II Environmental Indicators Indicators for climate Indicators for terrestrial subsystems Indicators for aquatic subsystems Selection of indicators Socioeconomic indicators Basic information Indicators for economy Social indicators Indicators for health and nutrition Cultural indicators Selection of indicators. Overlays.W.. (Transportation Engineering) ENVIRONMENTAL IMPACT ASSESSMENT FOR TRANSPORTATION PROJETS ELECTIVES. Co.S. "Environmental Impact Assessment". Checklist. Network. "Environmental Impact Analysis". (1997). long term climate changes. Objectives.K. UNESCO/UNEP. Environment Audit. Review Criteria.. Benefit Cost Analysis.) 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UNIT-IV Waste material for pavement construction: introduction. pavement components. specification and code of practice. special pavements design.material surveys. Distresses/Defects in rigid and flexible pavements.Tech (Transportation Engg. Maintenance References: 1. rural roads planning. semi. recovered of quality control data. special requirements. materials for bituminous constructions and surfacing. IRC related code books 4. materials for desert areas. new materials as stabilizers. and general criteria for road drainage. governing factors on route selection. selection of materials and Methodology. organizational setup. UNIT-II Materials and Pavement Design: introduction. Concept of Network planning. Maintenance and evaluation. road alignment and surveys. London 3.rigid and rigid pavements. HMSO. bituminous courses. types of drainage. lime fly ash pavements. control of compaction. Tech – I year II Sem. concrete stabilized fly ash with admixtures. fly ash for road construction. Pre-requirements.III & IV UNIT-I Planning and Alignment: Planning of Rural Roads. design &construction of fly ash embankment lime fly ash and stabilized soil.M. climatic suitability of concrete materials. Embankment and subgrade. shoulder. system of drainage. Laboratory equipment. special pavement. embankment and subgrade materials.rigid pavements. semi. Road aggregates. surface and subsurface systems. inventory roads and inspections. NRRDA – guidelines and code books . types of Maintenance Activities. UNIT-V Quality Control in Construction and Maintenance: Introduction. Soil . Special publication – 20(2002) 2. Kadiyali.R. (Transportation Engineering) TRANSPORTATION ENGINEERING LAB . 9. 6. 13. 11. Highway capacity Estimation. 2. turning movements. User perception survey.M. 2007. Speed . 5. References: 1.II Traffic Surveys: 1. Traffic noise measurement. 10. 8. Traffic surveys like traffic volume count. L.Lal.Kadiyali and N. 2007. Pedestrian Survey. 2.R. Videographic Survey MX – Roads. 12. Khanna Publications. Principles and Practice of Highway Engineering.Moving observer Method . Parking studies. Delay studies. Headway and Gap-acceptance studies. 4. Tech – I year II Sem. Road Safety Audit. Origin and Destination Survey. .Tech (Transportation Engg. 3.B. Traffic Engineering and Transportation Planning. L. 7. Khanna.) R13 Regulations JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD M.