research report
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published journal article
Assessing the sustainability of last-mile distribution strategies to manage expedited shipping with dynamic and stochastic demand
Transportation Research Part E: Logistics and Transportation Review
Publication Date
Associated Project
Author(s)
Areas of Expertise
Abstract
As many e-retailers compete through increasingly consumer-focused services, urban freight faces a critical need for sustainable alternate last-mile distribution practices. While previous research has investigated the performance of various distribution strategies under different planning and network design scenarios, their performance under the dynamic and stochastic conditions inherent to consumer-focused services (e.g., expedited deliveries) is not well understood. This study introduces a dynamic-stochastic last-mile network design (DS-LMND) problem, formulated as a multi-echelon capacitated location routing problem with time-windows (ME-C-LRP-TW), to address this gap. Consequently, this work develops a Monte Carlo simulation–optimization framework integrated with an adaptive large neighborhood search (ALNS) metaheuristic to solve the problem. Using this framework, the authors configure the distribution structure and simulate last-mile operations for each distribution strategy. For these configured distribution structures, this work determines economic viability, environmental efficiency, and social equity – the three pillars of sustainability. Further, the authors determine the impact of demand uncertainties on the sustainability of last-mile distribution through the value of information (VI) and coefficient of variance (CV) metrics. In doing so, this work a) estimates the efficacy of conventional distribution strategy; b) confirms the competitiveness of electric delivery vehicles; c) evaluates the effectiveness of crowdsourced delivery services; d) advances the case for consolidation-based multi-echelon distribution strategies; e) establishes the rationale for customer pickups; and f) develops the use case for drone and robots, to cater to dynamic and stochastic demand with expedited shipping.
Suggested Citation
Anmol Pahwa and Miguel Jaller (2025) “Assessing the sustainability of last-mile distribution strategies to manage expedited shipping with dynamic and stochastic demand”, Transportation Research Part E: Logistics and Transportation Review, 201, p. 104273. Available at: 10.1016/j.tre.2025.104273.working paper
How To Franchise Highways
Working Paper
Areas of Expertise
Abstract
Barcelona commuters receive a monthly highway bill, without ever having stopped at a tollbooth. Cars on the Autostrada, which connects Milan, Florence, Rome and Naples, whiz past roadside electronic readers that automatically deduct credit from prepaid smartcards which are similar to the copycards familiar to library users. Electronic toll collection is now used on the Esterel-Cote d’Azur; two toll-ring systems in Norway; the Dallas North Tollway; the Oklahoma Turnpikes; and two facilities in New Orleans. Reliability and accuracy rates run as high as 99.9 per cent. Unless there is successful labour resistance, by the year 2000 electronic toll collection will be operating on every major toll facility in the United States. Stopping at tollbooths will be obsolete for all but the infrequent traveller.The advance in technology is accompanied by a shift in policy. The franchising of highway services is now under way: California has four projects in progress; Virginia, one project; and planning is in hand in many other states. Furthermore, the Intermodal Surface Transportation Efficiency Act of 1991 will bring a tide of new projects, as it permits the commingling of federal and private funds. Different approaches to franchising have been used. This article investigates the alternatives and proposes a plan for highway franchising.
Suggested Citation
Gordon J. Fielding and Daniel B. Klein (1993) How To Franchise Highways. Working Paper UCI-ITS-WP-93-2, UCTC 134. Institute of Transportation Studies, Irvine. Available at: https://escholarship.org/uc/item/79z9x6fs.published journal article
Generalized model for mapping bicycle ridership with crowdsourced data
Transportation Research Part C: Emerging Technologies
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Author(s)
Abstract
Fitness apps, such as Strava, are a growing source of data for mapping bicycling ridership, due to large samples and high resolution. To overcome bias introduced by data generated from only fitness app users, researchers build statistical models that predict total bicycling by integrating Strava data with official counts and geographic data. However, studies conducted on single cities provide limited insight on best practices for modeling bicycling with Strava as generalizability is difficult to assess. Our goal is to develop a generalized approach to modeling bicycling ridership using Strava data. In doing so we enable detailed mapping that is more inclusive of all bicyclists and will support more equitable decision-making across cities. We used Strava data, official counts, and geographic data to model Average Annual Daily Bicycling (AADB) in five cities: Boulder, Ottawa, Phoenix, San Francisco, and Victoria. Using a machine learning approach, LASSO, we identify variables important for predicting ridership in all cities, and independently in each city. Using the LASSO-selected variables as predictors in Poisson regression, we built generalized and city-specific models and compared accuracy. Our results indicate generalized prediction of bicycling ridership on a road segment in concert with Strava data should include the following variables: number of Strava riders, percentage of Strava trips categorized as commuting, bicycling safety, and income. Inclusion of city-specific variables increased model performance, as the R2 for generalized and city-specific models ranged from 0.08–0.80 and 0.68–0.92, respectively. However, model accuracy was influenced most by the official count data used for model training. For best results, official count data should capture diverse street conditions, including low ridership areas. Counts collected continuously over a long time period, rather than at peak periods, may also improve modeling. Modeling bicycling from Strava and geographic data enables mapping of bicycling ridership that is more inclusive of all bicyclists and better able to support decision-making.
Suggested Citation
Trisalyn Nelson, Avipsa Roy, Colin Ferster, Jaimy Fischer, Vanessa Brum-Bastos, Karen Laberee, Hanchen Yu and Meghan Winters (2021) “Generalized model for mapping bicycle ridership with crowdsourced data”, Transportation Research Part C: Emerging Technologies, 125, p. 102981. Available at: 10.1016/j.trc.2021.102981.policy brief
Connected Vehicle Technology and AI Could Help Reduce Highway Congestion through Better Utilization of Park and Ride Facilities
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Author(s)
Abstract
Considerable advancements have been made in traffic management strategies to address highway congestion over the past decades; however, the continuous growth of metropolitan regions has impeded such progress. In response, transportation planners have given special attention to integrated corridor management (ICM), an approach that coordinates various traffic control units (e.g., ramp metering) to optimize their operations along the entire freeway. Emerging connected vehicle (CV) technology is expected to substantially benefit ICM, where vehicles can communicate with each other and surrounding roadway infrastructure. The combined potential of ICM strategies and CVs could be even greater if combined with strategies that leverage underutilized infrastructure (specifically park-and-ride facilities) to reduce the total number of vehicles on the roadway.
Suggested Citation
Mohanad Odema, Mohamad Fakih, Tyler Zhang and Mohammad Abdullah Al Faruque (2023) Connected Vehicle Technology and AI Could Help Reduce Highway Congestion through Better Utilization of Park and Ride Facilities. Policy Brief. Available at: https://escholarship.org/uc/item/8gm4303c (Accessed: October 11, 2023).published journal article
Association of Neighborhood Socioeconomic Disadvantage and Postpartum Readmission
Obstetrics & Gynecology
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Author(s)
Abstract
We assessed whether neighborhood socioeconomic disadvantage, as measured by the Area Deprivation Index (ADI), was associated with an increased risk of postpartum readmission. This is a secondary analysis from nuMoM2b (Nulliparous Pregnancy Outcomes Study: Monitoring Mothers-To-Be), a prospective cohort of nulliparous pregnant individuals from 2010 to 2013. The exposure was the ADI in quartiles, and the outcome was postpartum readmission; Poisson regression was used. Among 9,061 assessed individuals, 154 (1.7%) were readmitted postpartum within 2 weeks of delivery. Individuals living with the most neighborhood deprivation (ADI quartile 4) were at increased risk of postpartum readmission compared with those living with the lowest neighborhood deprivation (ADI quartile 1) (adjusted risk ratio 1.80, 95% CI 1.11–2.93). Measures of community-level adverse social determinants of health, such as the ADI, may inform postpartum care after delivery discharge.
Suggested Citation
Jenna Meiman, William A. Grobman, David M. Haas, Lynn M. Yee, Jiqiang Wu, Becky McNeil, Jun Wu, Brian Mercer, Hyagriv Simhan, Uma Reddy, Robert Silver, Samuel Parry, George Saade, Courtney D. Lynch and Kartik K. Venkatesh (2023) “Association of Neighborhood Socioeconomic Disadvantage and Postpartum Readmission”, Obstetrics & Gynecology, 141(5), p. 967. Available at: 10.1097/AOG.0000000000005151.working paper
Location and Transportation Strategies in Public Facility Planning
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Author(s)
Working Paper
Abstract
Public facility planning is currently viewed in terms of structuring a service delivery system for optimal provision. Because the spatial process of delivery has been neglected, however, the means of improving service utilization have been narrowly construed as locational in nature. Consequently, facility systems have been modeled and evaluated in terms of supply rather than use, and decentralization has been advocated to the exclusion of alternative spatial patterns. An expanded planning framework regards service delivery as a spatial interaction system and identifies location and transportation as complementary spatial strategies which enhance service utilization and widen the choice of facility pattern. Transportation strategies are more flexible, though, since they directly enhance travel behavior and service accessibility. Moreover, given present planning constraints, transportation strategies have a much wider role to play in improving the effectiveness of future public facility planning and spatial policy.
Suggested Citation
Andrew N. White (1977) Location and Transportation Strategies in Public Facility Planning. Working Paper UCI-ITS-WP-77-8. Institute of Transportation Studies, Irvine. Available at: https://escholarship.org/uc/item/6sr9z05m.published journal article
Refueling hydrogen fuel cell vehicles with 68 proposed refueling stations in California: Measuring deviations from daily travel patterns
International Journal of Hydrogen Energy
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Author(s)
Suggested Citation
Jee Eun Kang, Tim Brown, Will W. Recker and G. Scott Samuelsen (2014) “Refueling hydrogen fuel cell vehicles with 68 proposed refueling stations in California: Measuring deviations from daily travel patterns”, International Journal of Hydrogen Energy, 39(7), pp. 3444–3449. Available at: 10.1016/j.ijhydene.2013.10.167.research report
US household preferences for alternative-fuel vehicles: Results from a national survey
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Author(s)
Suggested Citation
Jean-Daniel Saphores and Hilary Nixon (2012) US household preferences for alternative-fuel vehicles: Results from a national survey.published journal article
Gauging the effectiveness of airline schedule buffers in reducing arrival delays
Journal of Air Transport Management
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Author(s)
Abstract
In a novel contribution to the literature on airline flight delays, this paper explores the effects of airline schedule buffers on arrival delays, showing that buffers reduce delays and are thus beneficial. The exercise relies on the approach followed in our previous work, which allows us to measure buffer sizes and flight delays by using government data on the flight sequences of individual aircraft. Our empirical results roughly match the predictions of an analytical model regarding the expected sizes of the buffer effects.