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Lecture 60 : Shared Mobility
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Urban Landuse and Transportation Planning - Prof. Debpratim Pandit
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- 1 Urban Landuse and transport planning by Prof. Debapratim Pandit
- 2 Lecture 01 : Introduction to Landuse transportation planning
- 3 Lecture 02 : Plans and planning process
- 4 Lecture 03 : Urban landuse planning
- 5 Lecture 04 : Comprehensive mobility plan
- 6 Lecture 05 : Landuse transport interaction
- 7 Lecture 06 : Theoretical foundations Part 1
- 8 Lecture 07 : Theoretical foundations Part 2
- 9 Lecture 08 : Modeling approaches
- 10 Lecture 09 : Existing integrated land use transportation models
- 11 Lecture 10 : Land use transportation model components and future challenges
- 12 Lecture 11 : Sampling Theory - 1
- 13 Lecture 12 : Sampling Theory - 2
- 14 Lecture 13 : Data and Surveys
- 15 Lecture 14 : Transport Planning surveys Part 1
- 16 Lecture 15 : Transport Planning surveys Part 2
- 17 Lecture 16 : Demographic Transition
- 18 Lecture 17 : Demographic Models 1
- 19 Lecture 18 : Demographic Models 2
- 20 Lecture 19 : Microsimulation and Population Synthesis 1
- 21 Lecture 20 : Microsimulation and Population Synthesis 2
- 22 Lecture 21 : Urban Growth Assessment
- 23 Lecture 22 : Urban land suitability assessment
- 24 Lecture 23 : Accessibility 1
- 25 Lecture 24 : Accessibility 2
- 26 Lecture 25 : Land Price Model
- 27 Lecture 26 : Discrete choice theory
- 28 Lecture 27 : Residential mobility and location choice 1
- 29 Lecture 28 : Residential mobility model using binary logistic regression
- 30 Lecture 29 : Residential mobility and location choice 2
- 31 Lecture 30 : Residential location choice model using multinomial logistic regression
- 32 Lecture 31 : Travel demand forecasting and Trip generation
- 33 Lecture 32 : Multiple linear regression
- 34 Lecture 33 : Trip Production and Attraction 1
- 35 Lecture 34 : Trip Production and Attraction 2
- 36 Lecture 35 : Trip distribution
- 37 Lecture 36 : Mode choice theory
- 38 Lecture 37 : Mode choice model
- 39 Lecture 38 : Hybrid mode choice model 1 (Factor Analysis)
- 40 Lecture 39 : Hybrid mode choice model 2 (Joint RP SP model)
- 41 Lecture 40 : Nested logit model
- 42 Lecture 41 : Introduction to Trip Assignment
- 43 Lecture 42 : Route Choice
- 44 Lecture 43 : Link assignment 1
- 45 Lecture 44 : Link assignment 2
- 46 Lecture 45 : Dynamic traffic assignment
- 47 Lecture 46 : Transportation Software
- 48 Lecture 47 : CUBE Overview
- 49 Lecture 48 : Travel demand modelling using CUBE and VISUM
- 50 Lecture 49 : Activity based modelling in CUBE
- 51 Lecture 50 : Vehicular emission and pollution modelling
- 52 Lecture 51 : Urban Freight Planning: Theory
- 53 Lecture 52 : Urban Freight Planning: Demand Modelling
- 54 Lecture 53 : Urban Freight Planning: Logistics
- 55 Lecture 54 : Last Mile Logistics 1
- 56 Lecture 55 : Last Mile Logistics 2
- 57 Lecture 56 : Employment location choice and Real estate Development location choice
- 58 Lecture 57 : Activity based model 1
- 59 Lecture 58 : Activity based model 2
- 60 Lecture 59 : Mode choice using Machine Learning
- 61 Lecture 60 : Shared Mobility