Integrated Land Use–Transport Model System with Dynamic Time-Dependent Activity–Travel Microsimulation

Pendyala, Ram M.; Konduri, Karthik C.; Chiu, Yi-Chang; Hickman, Mark; Noh, Hyunsoo; Waddell, Paul; Wang, Liming; You, Daehyun; Gardner, Brian

doi:10.3141/2303-03

Cited by 58 publications

(22 citation statements)

References 11 publications

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“…The integrated models reviewed can be presented as follows: (Rivera, 2009;Gao et al, 2010;Pendyala et al, 2012).…”

Section: Integrated Land Use/transportation Modelmentioning

confidence: 99%

Promoting Transportation Sustainability by Utilizing Available Roadway Capacity

Khan¹,

Anderson²,

Kassu³

2018

CUS

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Land use changes affect travel demand, resulting in the need to expand transportation infrastructure. Unfortunately, an inevitable consequence of urban sprawl, the spreading of a city to suburbs and outskirts, is the creation of auto-dependent development. Land use models forecast without considering underutilized roadways leading to urban sprawl. Any change in travel cost or detrimental growth pattern does not have any significant influence on future land use or location choice of future household and employment. This study addresses urban sprawl and available capacity utilization and combines those features with land use change model for planning more compact cities. This research conducted a rigorous step by step analysis to determine a better solution that results in more trips inside a case study community. Based on minimizing vehicle mileage traveled (VMT) and the number of congested links, a preferred scenario was identified that is one of the major contributions of this exploration. Hence, it is a preliminary initiative to promote transportation sustainability and build compact cities using current resources instead of the planning of future road network solely depending on the land use forecast model. 518Current Urban Studies use model feedback to travel demand models facilitates the interaction between them based on different proposed scenarios. However, even an integrated land use/transportation model, can overlook underutilized roadways in a community and lead to urban sprawl. Therefore, any change in travel cost or detrimental

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“…The integrated models reviewed can be presented as follows: (Rivera, 2009;Gao et al, 2010;Pendyala et al, 2012).…”

Section: Integrated Land Use/transportation Modelmentioning

confidence: 99%

Promoting Transportation Sustainability by Utilizing Available Roadway Capacity

Khan¹,

Anderson²,

Kassu³

2018

CUS

View full text Add to dashboard Cite

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“…The innovative aspect of this model is the complete integration of the activity-based and network simulation model elements through their implementation as behaviours of a single, persistent traveller agent which interacts directly with the network and ITS agents in a shared memory space. This work builds on previous integration efforts such as MATSIM (Balmer et al, 2008), SimTRAVEL (Pendyala et al, 2012), and the DaySim-TRANSIMS integration (Lawe et al, 2011). The activity-based model consists of a series of agent classes which implement events corresponding to typical components found in travel demand, network simulation and operations models.…”

Section: Integrated Transportation System Simulationmentioning

confidence: 99%

Assessing the energy impact of traffic management and vehicle hybridisation

Karbowski

Kim

Auld

et al. 2016

IJCAST

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Abstract:We provide a review of methodologies previously used to evaluate impacts of transportation systems and changes in transportation infrastructure on energy consumption. We present a new framework that allows estimating the energy impacts of managed traffic lanes in the context of vehicle automation. The presented framework relies on two major components, an integrated transportation system simulator and a powertrain simulator. For the transportation system simulator we propose using integrated transportation system simulator POLARIS. For the powertrain simulator we use AUTONOMIE, a tool funded by the US Department of Energy. Both tools are developed at Argonne National Laboratory. We demonstrate our approach by modelling a transportation corridor along a major highway. Two scenarios are considered, unmanaged, when both trucks and cars use all the lanes of the highway and managed, under which one of the highway lanes is a dedicated lane for truck traffic and trucks are forming platoons using adaptive cruise control technology. We provide the numerical results of the experiment at the end of the paper. We also present the impact of vehicle hybridisation combined with automation on the energy consumption.Keywords: travel demand; traffic microsimulation; energy assessment; integrated modelling; powertrain simulation. Namwook Kim is an Assistant Professor at Department of Mechanical Engineering Hanyang University. His research area is in developing, validating, and evaluating simulation models for advanced vehicles. Dynamics, optimisation, and optimal control theory are vigorously used for these studies, and optimal control for hybrid electric vehicles was the theme of his dissertation.

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“…Some of them showed how residential land use evolved in response to the opening up of rural areas by road construction, and how this, in turn, led to further road construction (e.g., [45,50,53,61]). Others showed how specific urban land use patterns resulted in traffic congestions or lack of accessibility and how the response from road construction resulted in alleviated traffic conditions (e.g., [48,54,59,66]). The second-largest category of models represented feedbacks between agricultural land use and the soil system, via processes such as soil erosion, carbon sequestration or emission and water flows.…”

Section: Feedback Processes Between Land Use Systems and Related Systemsmentioning

confidence: 99%

How Are Feedbacks Represented in Land Models?

Chen

Bakker

Ligtenberg

et al. 2016

Land

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Land systems are characterised by many feedbacks that can result in complex system behaviour. We defined feedbacks as the two-way influences between the land use system and a related system (e.g., climate, soils and markets), both of which are encompassed by the land system. Land models that include feedbacks thus probably more accurately mimic how land systems respond to, e.g., policy or climate change. However, representing feedbacks in land models is a challenge. We reviewed articles incorporating feedbacks into land models and analysed each with predefined indicators. We found that (1) most modelled feedbacks couple land use systems with transport, soil and market systems, while only a few include feedbacks between land use and social systems or climate systems; (2) equation-based land use models that follow a top-down approach prevail; and (3) feedbacks' effects on system behaviour remain relatively unexplored. We recommend that land system modellers (1) consider feedbacks between land use systems and social systems; (2) adopt (bottom-up) approaches suited to incorporating spatial heterogeneity and better representing land use decision-making; and (3) pay more attention to nonlinear system behaviour and its implications for land system management and policy.

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Integrated Land Use–Transport Model System with Dynamic Time-Dependent Activity–Travel Microsimulation

Cited by 58 publications

References 11 publications

Promoting Transportation Sustainability by Utilizing Available Roadway Capacity

Promoting Transportation Sustainability by Utilizing Available Roadway Capacity

Assessing the energy impact of traffic management and vehicle hybridisation

How Are Feedbacks Represented in Land Models?

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