lecture ii september 23 rd 2014
DESCRIPTION
Lecture II September 23 rd 2014. Outline. Student Assignment Themes for Case studies Carsharing Extreme weather events Electric Vehicles. Student Assignment. In short…. Investigation of a case study with MATSim Groups of 1-2 students Total workload of 60 hours (2 Credits) - PowerPoint PPT PresentationTRANSCRIPT
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Lecture II
September 23rd 2014
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Outline
• Student Assignment
• Themes for Case studies– Carsharing– Extreme weather events– Electric Vehicles
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Student Assignment
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In short…
• Investigation of a case study with MATSim• Groups of 1-2 students• Total workload of 60 hours (2 Credits)• Results in a scientific paper• Grade determined by report, paper and
presentation
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Goals
• Become a MATSim-Superuser• Investigate a Research Question in a Case
Study• Produce a Research Paper• Present your Paper as in a Conference
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Structure of Student Assignment
Four Tasks:– Task 1 – Development of a Research Question– Task 2 – MATSim-Introduction– Task 3 – Case Study– Task 4 – Presentation
Semester plan:
Semester Week
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Calendar Week
39 40 41 42 43 44 45 46 47 48 49 50 51 52
Task - 1 1 2 2 2 3 3 3 3 3 3 4 -
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Task 1 – Development of a Research Question
• Starts Today!• Three different case themes will be introduced.• In your group you select one of them and get more detailed
information on it.• Then you have 2 weeks to:
– do a literature and background research on the case theme,– develop a research question in your case theme,– and write the introduction of your paper.
• The introduction is due in week 4!
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Task 2 – MATSim-Introduction
• Goal: Preparation of MATSim for the main study• Consists of a mini case study which is the same for all• Exercises:
– Installation and set-up of MATSim and of a suitable IDE to develop in JAVA
– Do the mini case study and thus learn to run simulations with MATSim– Visualize the results and prepare a short report
• The short report presenting the mini case study is due in week 7. The report is expected to contain meaningful visualizations which supports the main conclusions of the case study.
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Task 3 – Case Study
• Goal: Work on your research question and develop the required tools
• Kick-off is in week 7 of the semester• Duration: 6 weeks (30 workhours)• ToDos:
– work on the case study– answer the research questions– write a research paper (specifications given in week 7)
• Full research paper is due in week 13, the second last week of the semester
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Task 4 – Presentation
• Goal: Present and defend your paper in a conference like presentation
• Preparation of the presentation: From week 13 to week 14
• Presentation: In week 14• Template for the presenation will be handed out in
week 13
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Grade
Weighted average of:• 2 x Mini case report grade• 6 x Paper (incl. Introduction) grade • 2 x Presentation grade
No session exam. After the presentation you have holidays!
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Task 1 – Administration
• Starts Today!
• ToDos:– do a literature and background research on the case
theme– develop a research question within your case theme– write the introduction of your paper
• The introduction (pdf-document) is due in week 4.
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Task 1 – Writing an Introduction I
A good Introduction…
• puts your work in a given context:– start with an overview of the field– narrow it down to your research question and your hypothesis
• contains a literature review: Mention the most important literature and work already done in the field and explain how you differentiate your work. Why is your work important?
• gives an overall summary of the paper• explains how the research problem is solved (in your case:
broadly how you plan to solve the problem with MATSim)
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Task 2 – Writing an Introduction (II)
Paper Specifications:
• A paper should have the following parts: abstract, introduction, methodology, results, discussion, conclusion and references.
• Your paper, including the abstract, text, references, figures, and tables, must not exceed 7,500 words. Each table, figure, or photograph counts as 250 words. For example, if two figures and three tables are submitted, the abstract, text, and references may total no more than 6,250 words.
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Themes for Case Studies
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Verkehrsingenieurtag – 6. March 2014
Carsharing: Why to model carsharing demand and how
F. Ciari
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Outline
1. Introduction: What’s going on in the carsharing world?2. Why to model carsharing demand?3. Modeling carsharing with MATSim4. Summary and future work
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1. Introduction: What’s going on in the carsharing world?2. Why to model carsharing demand?3. Modeling carsharing with MATSim4. Summary and future work
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Worldwide growth of carsharing
Carsharing in terms of members / vehicles is growing fast
19Source: Shaheen and Cohen, 2012
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Actors
• The actors involved are increasingly large
• Car manufacturers Daimler, BMW, Peugeot• Traditional car rental companies Avis, Sixth• Public transport operators DB
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Competition
• The level of competition on the market is increasing
• At the start of modern carsharing operations (90’s Switzerland and Germany) and until recently, operators mostly were “local monopolists”
• Now many cities boast several carsharing operators
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Services
• The world of shared mobility is evolving fast and new services are coming to the market to challenge/complement the old ones
• Round trip-based carsharing (Mobility)• One-way (station based) carsharing (Autolib)• Free-floating carsharing (Car2go, DriveNow)• Peer-to-peer carsharing (RelayRides)
• Bike-sharing• Carpooling• Dynamic ride sharing• Slugging• …
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1. Introduction: What’s going on in the carsharing world?2. Why to model carsharing demand?3. Modeling carsharing with MATSim4. Summary and future work
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Why do we need to model carsharing demand?
Models are used to get insight on the behavior of a transportation system under given circumstances
but
Is carsharing relevant?
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Because…
• Still small but conceptually “mainstream” (“Shared economy”)
• Fits well with some societal developments (“Peak car”)
• Is often mentioned when it comes to make transport more sustainable (but the mechanisms aren’t clear)
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…and also because…
• The actors involved are increasingly large Able to have a “big bang” approach, implies large investments
• The level of competition on the market is increasing Higher investment risk
• The world of shared mobility is evolving fast Incertitude about integration/competition among different modes/systems
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Research Goal
• Build a predictive and policy sensitive model that can be used by practitioners (operators) and policy makers
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Methodology: Observations
• Inherent limitations of traditional models representing carsharing – the importance of CS availability at precise points in time and space is not fitting with vehicles per hour flows
• Travel is the result of the individual need performing out-of-home activities at different locations – this matters for carsharing even more than for other modes! (according to the length / location of the activities)
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1. Introduction: What’s going on in the carsharing world?2. Why to model carsharing demand?3. Modeling carsharing with MATSim4. Summary and future work
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MATSim
It sketches individuals’ daily life using the agent paradigm.
Agents have personal attributes (age, gender, employment, etc.) which influence their behavior
Agents autonomously try to carry out a daily plan being able to modify some dimensions of their travel (time, mode, route, activity location)
High temporal and spatial resolution
MATSim = Multi-agent transport simulation (www.matsim.org)
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Carsharing model in MATSim – Current status
• Traditional carsharing + Free-floating
• Agents always walk from the starting facility to the closest car
• Time and distance dependent fare
• Stations are located at the actual carsharing locations in the modeled area
• Carsharing is available only to members
• Actual vehicle availability is accounted for
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Test Case 1 - Berlin
Part of a German project called “Berlin elektroMobil” Berlin, Germany as a test case
Goals:
• Understand the behavior of the whole transportation system under different carsharing scenarios
• Finding strategies to extend the carsharing supply in Berlin and get hints on how to combine free-floating (FF) and station-based (SB) carsharing
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Scenarios
• Scenario I: SBCS (Basis, station based only, reflecting actual supply)
• Scenario II: Expanded SBCS (Station based only, additional stations and members)
• Scenario III: Scenario II + Free-floatingScenario I Scenario II Scenario III
Population 4‘422‘012 4‘506‘058 4‘506‘058
# Members CS SB & FF 20‘000 38‘000 38‘000
# Members CSFF - - 194‘000
# CS Stations 82 152 152
# Vehicles (Station based) 175 329 329
# Vehicles Free-floating - - 2‘500
# Members traveling (any mode) 16‘489 31‘358 191‘819
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Statistics overview
• Over-proportional increase of SB rentals (increasing stations / cars)
• Trips (distance and travel time) essentially unchanged
• Adding FFCS (2’500 cars) ~ 10’000 additional trips and SBCS grows
• SB (S III) shorter trips (distance), FF slightly longer but faster trips.
CS SB (Scenario I)
CS SB(Scenario II)
CS SB (Scenario III)
CS FF(Scenario III)
# Trips 496 1‘298 1‘379 10‘708
Avg. Trip Duration [min] 22.9 23.5 27.5 20.1
Avg. OD-Distance [km] 5.8 5.3 5.3 5.7
Total travel time [Days] 7.9 21.2 26.5 149.8
Total distance [km] 2‘900 6‘900 7‘300 60‘600
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Purpose
educati
on higher
educati
on primary
home
kinderg
arten
leisu
reother
servic
e
shop dail
y
shop other
work.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
SB Scenario ISB Scenario IISB Scenario IIIFF Scenario III
Activity Type
Trip
s [%
]
FF CS has more Work and less Leisure travel compared to SB CS
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Modal substitution
Mode substituted by free-floating carsharing
Bike Car CS SB PT Walk.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
Mode substituted by FF CS
Trip
s [%
]
• Car travel is the mode which is reduced the most (> 30%) of the free-floating trips were car trips before its introduction
• Overall car travel (VMT) grows with FF compared to SB only modal substitution patterns for free-floating carsharing might be problematic
• Relatively few agents changed from SB to FF carsharing
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Conclusions
• Untapped potential for SBCS in Berlin – Over-proportional growth of SB doubling # carsharing cars
• SB carsharing is used more intensively after FF carsharing is introduced
• Some differences in the use of the two CS modes (purpose, time, distance)
• Substitution patterns are a possible concern for FF
• Apparently FF and SB are rather complementary
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Test Case 2 - Zürich
Goals:
• Understand the behavior of the whole carsharing system under different (carsharing) pricing scenarios
• Get hints on the interactions between traditional station based carsharing and free-floating carsharing under such scenarios
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Scenarios
Scenario I Scenario II Scenario III Scenario IV Scenario V
SB Time Fee 4.52 SFr./h 4.52 SFr./h 4.52 SFr./h 4.52 SFr./h 4.52 SFr./h
SB Distance Fee
0.18 SFr./Km 0.18 SFr./Km 0.18 SFr./Km 0.18 SFr./Km 0.18 SFr./Km
FF Time Fee - 0.237 SFr./min 0.118 SFr./min 0.118 SFr/min (10-16)0.237 SFr/min (rest of day)
0.237 SFr./min
FF Distance Fee
- 0.29 SFr./Km 0.29 SFr./Km 0.29 SFr./Km 0.29 SFr./Km
FF Free Distance
- 20 Km 20 Km 20 Km 0 Km
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Vehicles in Motion
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Modal substitution
Modes substituted by free-floating carsharing in scenarios II to V as compared to scenario I. The secondary axis shows the number of free-floating rentals for the scenario
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Rentals spatial patterns
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Purpose of the rental
Scenario I Scenario II Scenario III Scenario IV Scenario V
RT CS 1h23’9’’ 1h39’7’’ 1h44’7’’ 1h24’28’’ 1h26’29’’FF CS - 2h45’58’’ 2h16’56’’ 2h34’38’’ 2h12’45’’Car 3h58’2’’ 3h58’14’’ 3h58’ 3h57’53’’ 3h57’47’’
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Conclusions
• The impact of different pricing schemes is not limited to increasing or reducing the aggregate level of usage
• Pricing strategy structurally affects the interactions
between the two carsharing types
• Complex interactions between spatiotemporal availability of carsharing vehicles and users are observed
• The realism of some aspects (i.e. purpose, modal substitution) is still unclear
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1. Introduction: What’s going on in the carsharing world?2. Why to model carsharing demand?3. Modeling carsharing with MATSim4. Summary and future work
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Summary
• Carsharing is growing fast and is becoming «mainstream»
• Instruments for the modeling of carsharing are becoming necessary
• Traditional models are not well suited to model carsharing
• MATSim is already able to simulate carsharing and to evaluate complex scenarios…
…but there are still many limitations
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Ongoing work
• Improving the existing membership model
• Testing our implementations of free-floating and one-way carsharing
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Future work
• Further validation of the existing results with empirical data
• Applying the tool for analysis on new scenarios, possibly relying on new empirical data
• Improve the simulation with better behavioral models
• New case studies where different shared mobility options (Autonomous Vehicles, Ride Sharing) are combined
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Modeling Impacts of WeatherTransport Microsimulations
Conditions in Agent-Based
Alexander StahelFrancesco Ciari
93rdTransportation Research BoardJanuary 2014
Annual Meeting
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Terminology
«Climate is what you expect, weather is what you get.» (Robert Heinlein)
• Climate: Measure of the average weather observed over a certain period
• Weather: Description of the momentary state of the atmosphere andtheir change over small periods.
• Climate change: Statistically significant variation in the mean state ofthe climate or its variability, persisting for an extended period
Introduction Weather impacts Climate impacts MATSim
Approaches
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Motivation
Transport sector Climate change
Introduction Weather impacts Climate impacts MATSim
Approaches
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Motivation
Transport sector Climate change
Introduction Weather impacts Climate impacts MATSim
Approaches
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ToPDAd: Tool-supported policy-development for regional
adaption
• 7thEU Framework project
• The objective is to find the best strategies for businesses andregional governments to adapt to the expected short term and long term changes in climate
• Development of socioeconomic methods and tools for anintegrated assessment
• Sectors: Transport, Energy, and Tourism
Introduction Weather impacts Climate impacts MATSim
Approaches
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Open questions
1. Which aspects of the transport system are affected by the weather?
2. Which aspects of the transport system are affected by climate change?
3. How can these impacts be modelled?
Introduction Weather impacts Climate impacts MATSim
Approaches
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Introduction Weather impacts Climate impacts MATSim
Approaches
1)
Transport infrastructure
2) Safety
3) Travel behavior
Weather impacts on transport
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Climate change impacts on transport
• Cannot be equated with weather impacts
• Also cumulative effects in the long-run are important
1)
Transport infrastructure
2) Safety
3) Travel behavior
4) Socio-economic circumstances
Introduction Weather impacts Climate impacts MATSim
Approaches
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Climate change impacts on transport
travel behavior
weather conditions
sectors (e.g. tourism)
Introduction Weather impacts Climate impacts MATSim
Approaches
Event-specific impacts Cumulative impacts
Transport
infrastructure
-Breakdown
-Disturbance
-Elevated physical stress levels
-Changing maintenance costs
-Changing construction costs
-Reduced lifetime
Safety-Frequency of accidents
-Severity of accidents-Changing transport safety regulations
Travel behavior
-Mode, time, destination, route choice
-Reduced free-flow speed
-Changing long-term activity-
-Driver experience under adverse
Socio-economic
circumstances
-Structural changes in related
-Changes in mitigation policies
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MATSim
• Agent- and activity-based transport simulation
• The actors of the modeled system are represented at individual level
• Based on Java
• Open source at www.matsim.org
• Jointly developed by ETH Zurich, TU Berlin, and others
Introduction Weather impacts Climate impacts MATSim
Approaches
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Regular weather conditions
• Aspects of climate change:
••
•
•
•
•
Increased average temperature
Increase in the number of hot days
Decrease in the number of cold days
Sea level rise
More precipitation or drought events
Longer summer/shorter winter
• The iterative approach of MATSim is applicable
• Search for tipping points
Introduction Weather impacts Climate impacts MATSim
Approaches
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Unexpected weather conditions
• Aspects of climate change:
••
Increased frequency of adverse weather conditionsIncreased severity of adverse weather conditions
• The iterative approach of MATSim is not applicable
• Usage of the within-day-replanning module and a time-variantnetwork
Introduction Weather impacts Climate impacts MATSim
Approaches
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Project ToPDAd – Weather Influence
Scenarios investigated with MATSim:1. Baseline: Zurich 2030 standard scenario, no
change.2. Disturbance: Reduced traffic network capacity and
speed due to unfavourable weather conditions.
3. Disruption (momentary/when occuring): Traffic network capacity
becomes largely unavailable during simulation due to
unfavorable weather conditions.4. Disruption (momentary/when occuring): Traffic network
capacity becomes largely unavailable during simulation
due to unfavorable weather conditions. Level of
informedness is varied to mimic effects of innovations.
5. Disruption (lasting): Traffic network capacity is largely unavailable during the whole simulation due to
earlier, unfavourable weather conditions.
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Project ToPDAd – Zurich Scenario
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Thank you for your attention!