3D Technologies as the Future of Spatial Planning: the Example of Krakow

Bieda, Agnieszka; Bydłosz, Jarosław; Parzych, Piotr; Pukanská, Katarína; Wójciak, Ewelina

doi:10.7494/geom.2020.14.1.15

Cited by 16 publications

(13 citation statements)

References 22 publications

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“…In the opinion of the authors, drawing conclusions on air quality based on data obtained from sensors installed on measurement stations or remote sensing data as well as analyzing these data in reference to the zone (entire city) is The studies conducted by the authors indicate that only the detailed assessment of air quality based on geostatistical analyses accounting for the spatial structure of terrain and the variability of sources of pollution (dynamic of motor vehicle traffic) can give reliable information on the level of pollutions in the city. A similar view was expressed by [10,11,30]. The application of an integrated research method connecting advanced GIS technologies with the COPERT emissions calculator allows for a very detailed means of selecting areas in danger of carbon monoxide pollution and, thus, the effective selection of measures aimed at improving air quality.…”

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confidence: 87%

“…Geostatistical tools solve various spatial problems [27][28][29] and allow for estimating the prediction error on the basis of the propagation of uncertainty. The potential for using 3D data to assess the quality of air was noticed by a research team from Krakow [30], who, based on data from the Integrated Spatial Data Monitoring System for the Improvement of Air Quality in Krakow, confirmed that geostatistical data can be successfully used for the assessment of air quality in a highly urbanized city. A modeling system comprising a road traffic model, a road transport emission model, and a computational fluid dynamics air quality model was used to assess air quality in a Portuguese City [11].…”

Section: Introductionmentioning

confidence: 99%

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Mapping Carbon Monoxide Pollution of Residential Areas in a Polish City

Kwiecień

Szopińska

2020

Remote Sensing

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Road traffic is among the main sources of atmospheric pollution in cities. Maps of pollutants are based on geostatistical models using a digital model of the city along with traffic parameters allowing for ongoing analyses and prediction of the condition of the environment. The aim of the work was to determine the size of areas at risk of carbon monoxide pollution derived from road traffic along with determining the number of inhabitants exposed to excessive CO levels using geostatistical modeling on the example of the city of Bydgoszcz, a city in the northern part of Poland. The COPERT STREET LEVEL program was used to calculate CO emissions. Next, based on geostatistical modelling, a prediction map of CO pollution (kg/year) was generated, along with determining the level of CO concentration (mg/m3/year). The studies accounted for the variability of road sources as well as the spatial structure of the terrain. The results are presented for the city as well as divided into individual housing estates. The level of total carbon monoxide concentration for the city was 5.18 mg/m3/year, indicating good air quality. Detailed calculation analyses showed that the level of air pollution with CO varies in the individual housing estates, ranging from 0.08 to 35.70 mg/m3/year. Out of the 51 studied residential estates, the limit value was exceeded in 10, with 45% of the population at risk of poor air quality. The obtained results indicate that only detailed monitoring of the level of pollution can provide us with reliable information on air quality. The results also show in what way geostatistical tools can be used to map the spatial variability of air pollution in a city. The obtained spatial details can be used to improve estimated concentration based on interpolation between direct observation and prediction models.

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confidence: 87%

Section: Introductionmentioning

confidence: 99%

Mapping Carbon Monoxide Pollution of Residential Areas in a Polish City

Kwiecień

Szopińska

2020

Remote Sensing

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“…It is the second largest city in Poland in terms of population (about 780,000 inhabitants) and area (326.8 km 2 ). The city is an interesting research area for several reasons [47]. Firstly, it combines the historical buildings of three cities: the Old Town of Kraków (established in 1257), Kazimierz (14th century) and Podgórze (18th century).…”

Section: Research Areamentioning

confidence: 99%

Measuring Walkability with GIS—Methods Overview and New Approach Proposal

Telega

Bieda

2021

Sustainability

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Cities occupy only about 3% of the Earth’s surface area, but half of the global population lives in them. The high population density in urban areas requires special actions to make these areas develop sustainably. One of the greatest challenges of the modern world is to organize urban spaces in a way to make them attractive, safe and friendly to people living in cities. This can be managed with the help of a number of indicators, one of which is walkability. Of course, the most complete analyses are based on spatial data, and the easiest way to implement them is using GIS tools. Therefore, the goal of the paper is to present a new approach for measuring walkability, which is based on density maps of specific urban functions and networks of generally accessible pavements and paths. The method is implemented using open-source data. Density values are interpolated from point data (urban objects featuring specific functions) and polygons (pedestrian infrastructure) using Kernel Density and Line Density tools in GIS. The obtained values allow the calculation of a synthetic indicator taking into account the access by means of pedestrian infrastructure to public transport stops, parks and recreation areas, various attractions, shops and services. The proposed method was applied to calculate the walkability for Kraków (the second largest city in Poland). The greatest value of walkability was obtained for the Main Square (central part of the Old Town). The least accessible to pedestrians are, on the other hand, areas located on the outskirts of the city, which are intended for extensive industrial areas, single-family housing or large green areas.

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“…The functionality of GMT enables its excellent operating of the cartographic commands which results in a high flexibility of writing a code and executing a script stepwise with a full control on the cartographic output. Many studies on mapping and spatial analysis are based on testing different GIS applied for various research questions, in which a large number of articles reported either the cartographic workflow and techniques of visualization (ČESNULEVIČIUS et al 2019;KESKIN et al 2019;LÓPEZ & BALBOA 2008;WOOD, 1993;LEMENKOVA, 2019aLEMENKOVA, , 2019bLEMENKOVA, , 2020aBIEDA et al 2020), present analysis of the cartographic visualization (e.g. OSTROWSKI et al 2019;MESENBUR, 2004;KEATES, 1996) or focused on the technical GIS applications (MACEACHREN, 1995;SLOCUM et al 1993;ROBINSON et al 1995).…”

Section: Introductionmentioning

confidence: 99%

Scripting Cartographic Methods of GMT for Mapping the New Britain and San Cristobal Trenches, Solomon Sea, Papua New Guinea

Lemenkova

2020

Rev. C. Geog. Sobral

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The study present a case study of the Generic Mapping Tools (GMT) applied for cartographic modelling, mapping and comparative analysis of the deep-sea trenches located in southwest Pacific Ocean: the New Britain Trench (NBT) and the San Cristobal Trench (SCT). The aim was to evaluate their geomorphic variation using scripting cartographic approach of GMT. The data was processed using a sequence of the GMT modules with the main module 'grdtrack' used to visualize cross-section profiles along the trenches for their geomorphological modelling. The main grid used for topographic mapping is the SRTM DEM with 15-arc second resolution. The statistical analysis shown variability in depths of both trenches by samples in two transects. The cartographic analysis demonstrated following results. The SCT is generally deeper reaching -9,000 m, while the median for the NBT less then 7,000 m. The gradient slope of SCT is more symmetric with accurate 'V' form. In a cross-section graph, the NBT landward slope is markedly asymmetric U-shaped form and has a crescent form in the east. The NBT slope dips westwards with 35° eastward, and 41° westward, while the SCT slope has 33° oceanwards and 33,69° landwards. The difference between the geomorphology of the trenches is explained by the effects of the geotectonic evolution and actual sedimentary processes affected their formation and sculptured their structure. The marine free-air gravity anomaly illustrated density anomalies at the bathymetry in the region of NBT and SCT with range <-60.0 mGal. The geoid values are 56-66 mGal. The study contributed to the submarine geomorphic mapping and presents technical application of the cartographic functionality of GMT used for geomorphological modelling.

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3D Technologies as the Future of Spatial Planning: the Example of Krakow

Cited by 16 publications

References 22 publications

Mapping Carbon Monoxide Pollution of Residential Areas in a Polish City

Mapping Carbon Monoxide Pollution of Residential Areas in a Polish City

Measuring Walkability with GIS—Methods Overview and New Approach Proposal

Scripting Cartographic Methods of GMT for Mapping the New Britain and San Cristobal Trenches, Solomon Sea, Papua New Guinea

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