Technical and Economic Criteria to Select Pavement Surfaces of Port Handling Plants

Mascio, Paola Di; Loprencipe, Giuseppe; Moretti, Laura

doi:10.3390/coatings9020126

Cited by 13 publications

(8 citation statements)

References 15 publications

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“…Although not modeled in FAARFIELD 1.42 [18], a geosynthetic sheet underlay was provided to avoid contamination of the subbase layers with fine material of the subgrade [18]. Finally, the results from FAARFIELD were verified using the Westergaard theory [20]: the maximum tensile stresses at the bottom of the slab for a load at the interior and at the edge of slab or at the top of the slab for a load at the corner were compared to MOR [41]. Finally, construction costs of each catalogued pavement were calculated using national price lists [42], regional price lists [43,44] and price lists provided by experience of the 8th Gruppo Genio Campale.…”

Section: Methodsmentioning

confidence: 99%

Jointed Plain Concrete Pavements in Airports: Structural–Economic Evaluation and Proposal for a Catalogue

Mascio

Rubeis

Marchis³

et al. 2021

Infrastructures

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Although the design of jointed plain concrete pavements could be solved by commercial software, there is still a need for simple tools to be used in feasibility studies and preliminary cost–benefit analyses. This paper analyzed and verified jointed plain concrete pavements for airports composed of square slabs without tie and dowel bars. The examined slabs are laid on a cement-treated base layer and a stabilized granular subbase layer. The finite element software FAARFIELD was used to design the JPCP pavements when they are subjected to the design of the airplane (i.e., turboprop C-130J Hercules) under different conditions. Seven subgrade load bearing capacity values, twenty traffic levels, and two construction hypotheses (i.e., constant or variable thickness of the two deeper layers) were designed and then verified with the Westergaard theory in order to present a proposal for a catalogue. Finally, the construction cost per unit surface area was calculated for different construction methods of paving (by slip form paver or by fixed form). The obtained results provide a simple and fast procedure to design preliminary airport JPCPs.

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Section: Methodsmentioning

confidence: 99%

Jointed Plain Concrete Pavements in Airports: Structural–Economic Evaluation and Proposal for a Catalogue

Mascio

Rubeis

Marchis³

et al. 2021

Infrastructures

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“…The data (criteria and their values) listed in Table 5 is needed for further calculations regarding scenario no. 1 when using the particular multi-criteria decision analysis methods [16,41]. Acquisition cost regarding scenario no.…”

Section: Sustainability 2020 11 X For Peer Review 10 Of 22mentioning

confidence: 99%

“…In our case, the Saaty method was applied to determine the criteria weights [41,44]. This method was chosen given the fact that no information is available for the ordinal alignment of criteria from the most important.…”

Section: Determination Of the Weights Of Criteriamentioning

confidence: 99%

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Application of Specific Mathematical Methods in the Context of Revitalization of Defunct Intermodal Transport Terminal: A Case Study

Ližbetín

Stopka

2020

Sustainability

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The article deals with a specific research study discussing the possibility to revitalize a specific non-functional intermodal transport terminal. The structure of the manuscript consists of five sections. The first part is focused on the analysis of the subject being investigated in important scientific publications. The second part of the article presents a brief analysis of the current situation concerning intermodal transport in the Czech Republic and emphasizes the need to build an intermodal transport terminal in the South Bohemia region. The third section describes the contemporary state of the Nemanice transshipment station, provides a calculation of the terminal transport potential, which is thereafter used in the next paper section in order to design individual terminal elements. The objective of this study is to propose an approach methodology regarding the terminal connection to railway and road infrastructure, necessary quantification of the transport potential, which subsequently defines the operational need for handling equipment, and other parameters of the terminal fundamental elements. This methodological guideline is based on variant recommendations to equip the terminal with various handling devices, which are then evaluated, applying the exact decision making methods. Such an evaluation is included in the fourth part of the article. Here, the authors try to find out which terminal equipment is the most appropriate in terms of overall terminal efficiency. The last part of the manuscript is devoted to the final discussion of the key findings and conclusion containing an insight into potential future projects or studies to be addressed.

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“…Statistics from America's Infrastructure Report Card published by the American Society of Civil Engineers (ASCE) (1) show that U.S. highways and roads are in poor condition from aging, environmental conditions, and traffic overload. A pavement crack is a critical failure of a pavement structure and presents a potential threat to transportation systems (2)(3)(4)(5)(6)(7). Pavement cracks are the most significant type of pavement distress that has been studied for years because of the complicated pavement crack patterns (8).…”

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confidence: 99%

Deep Convolutional Neural Networks for Pavement Crack Detection using an Inexpensive Global Shutter RGB-D Sensor and ARM-Based Single-Board Computer

Asadi

Mehrabi

Asadi

et al. 2021

Transportation Research Record: Journal of the Transportation R

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Pavement distress assessment is a significant aspect of pavement management. Automated pavement crack detection is a challenging task that has been researched for decades in response to complicated pavement conditions. Current pavement condition assessment procedures are extensively time consuming, expensive, and labor-intensive. The primary goal of this paper is to develop a cost-effective and reliable platform using a red, green, blue, depth (RGB-D) sensor and deep learning detection models for automated pavement crack detection on a single-board ARM-based computer. To the best of our knowledge, for the first time, a pavement crack data set is prepared using a global shutter RGB-D sensor mounted on a car and annotated according to the Pascal visual object classes protocol, named PAVDIS2020. The proposed data set comprises 2,085 pavement crack images that are captured in a wide variety of weather and illuminance conditions with 5,587 instances of pavement cracks included in these images. A unified implementation of the Faster region-based convolutional neural networks and single shot multibox detector meta-architecture-based models is implemented to evaluate the accuracy, speed, and memory usage trade-off by using various convolutional neural networks-based backbones and various other training parameters on PAVDIS2020. The proposed pavement crack detection model was able to classify the cracks with 97.6% accuracy on PAVDIS2020 data set. The detection model is able to locate pavement crack patterns at the speed of 12 frames per second on a passively cooled Raspberry Pi 4 single-board computer.

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Technical and Economic Criteria to Select Pavement Surfaces of Port Handling Plants

Cited by 13 publications

References 15 publications

Jointed Plain Concrete Pavements in Airports: Structural–Economic Evaluation and Proposal for a Catalogue

Jointed Plain Concrete Pavements in Airports: Structural–Economic Evaluation and Proposal for a Catalogue

Application of Specific Mathematical Methods in the Context of Revitalization of Defunct Intermodal Transport Terminal: A Case Study

Deep Convolutional Neural Networks for Pavement Crack Detection using an Inexpensive Global Shutter RGB-D Sensor and ARM-Based Single-Board Computer

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