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Przegląd Geograficzny T. 89 z. 2 (2017)
It has been found that an increasing number of road accidents depends on an increasing number of vehicles, but this shouldn’t be seen as a rule. The likelihood of collisions and fatal accidents also increases in the unit zones where the density of the road network is higher. Functional factors resulting from the trading zones where many people work have a huge impact on the number effects and spatial distribution of the road accidents the city. The purpose of this article is to identify the directions of spatial distribution and determine the level of concentration of road accidents in Cracow. The author also aimed to discover how the functional factors affect the spatial distribution of road accidents in a big city. In this paper the database ZIKiT’s (The Management of Municipal Infrastructure and Transport in Krakow) was used. In the database date of traffic events is stored. This database contains 159 536 collisions and fatal accidents which occurred in Cracow in the years 1997-2010 according to 141 urban units. Fatal accidents are traffic events in which at least one person was injured. Other events were classified as collisions. The geocoding process and mapping calculations were carried out by means of ArcGIS10 software and are based on the administrative division of Cracow. A strong relationship has been found between the number of road accidents and the number of population and the number of people employed in total. Collisions show a little stronger correlation with the location where people work. The number of road accidents show a lower correlation with the density of the road network. As noted in other studies the number of road accidents increases in areas with a higher density of the road network. However, it turned out that the density of the road network in Cracow isn’t a primary factor in this matter, but it is important in case of victims, of personal injury accidents. The largest concentration of road accidents can be observed in areas with a lot of shops, department stores and big service centers. Large housing estates, where a lot of people live, are classified as the most dangerous places with respect to the absolute number of road accidents. The proportion of road accidents changed in Cracow in the last years. There is a reduction in their number in the city center and in large housing estates. The further the distance from the city center, the lower the number of road accidents. At the same time, the percentage of fatal accidents is bigger”. The number of the road accidents increases on the outskirts of the city.
1. Aguero-Valverde J., Jovanis P.P., 2006, Spatial analysis of fatal and injury crashes in Pennsylvania, Accident Analysis & Prevention, 38, 3, s. 618-625.
https://doi.org/10.1016/j.aap.2005.12.006 -
2. Bendak S., Al-Saleh K., 2010, The role of roadside advertising signs in distracting drivers, International Journal of Industrial Ergonomics, 40, s. 233-236.
https://doi.org/10.1016/j.ergon.2009.12.001 -
3. Fort E., Pourcel L., Davezies P., Renaux C., Chiron M., Charbotel B., 2010, Road accidents, an occupational risk, Safety Science, 48, s. 1412-1420.
https://doi.org/10.1016/j.ssci.2010.06.001 -
4. Główny Urząd Statystyczny (GUS), http://stat.gov.pl/gus (5.02.2016).
5. Gomes S.V., 2013, The influence of the infrastructure characteristics in urban road accidents occurrence, Accident Analysis & Prevention, 60, s. 289-297.
https://doi.org/10.1016/j.aap.2013.02.042 -
6. Grimm M., Treibich C., 2013, Determinants of road traffic crash fatalities across Indian states, Health Economics, 22, 8, s. 915-930.
https://doi.org/10.1002/hec.2870 -
7. Izquierdo F.A., Ramírez B.A., Rodríguez E.B., 2013, The interurban DRAG-Spain model: The main factors of influence on road accidents in Spain, Research in Transportation Economy, 37, 1, s. 57-65.
https://doi.org/10.1016/j.retrec.2011.08.011 -
8. Jha N., Srinivasa D.K., Roy G., Jagdish S., 2004, Epidemiological study of road traffic cases: a study from South India, Indian Journal of Community Medicine, 24, 1, s. 20-24.
9. Komornicki T., 2011, Przemiany mobilności codziennej Polaków na tle rozwoju motoryzacji, Prace Geograficzne, IGiPZ PAN, 227, Warszawa.
10. Komenda Główna Policji (KGP), http://statystyka.policja.pl (4.11.2016).
11. Kompleksowe Badania Ruchu (KBR), 2003, Pracownia Badań Społecznych Sopot dla Urzędu Miasta Krakowa.
12. Kraków – StatKrak, Liczby… Miasto… Mieszkańcy, http://msip2.um.krakow.pl/statkrak/view/show/ (17.11.2015).
13. Loukaitou-Sideris A., Liggett R., Sung H., 2006, Death on the crosswalk: a study of pedestrian-automobile collisions in Los Angeles, Journal of Planning Education and Research March, 26, 3, s. 338-351.
14. Marshall W.E., Garrik N.W., 2011, Does street network design affect traffic safety, Accident Analysis & Prevention, 43, 3, s. 769-781.
https://doi.org/10.1016/j.aap.2010.10.024 -
15. Mitra S., 2007, Enhancing Road Traffic Safety in Inland Empire: A GIS Based Methodology to Identify Potential Areas of Improvement, http://leonard.csusb.edu/research/documents/1018FinalReport.pdf (26.10.2016).
16. Nowakowski Z., Rajchel K., 2006, Wypadki drogowe i ich skutki w Polsce (wybrane problemy), Zeszyty Naukowe Politechniki Rzeszowskiej, 228, 7, s. 111-121.
17. Noland R.B., Quddus M.A., 2004, A spatially disaggregate analyses of road casualties in England, Accident Analysis & Prevention, 36, 6, s. 973-984.
https://doi.org/10.1016/j.aap.2003.11.001 -
18. Pikünas A., Pumputis V., Sadauskas V., 2004, The influence of vehicles speed on accident rates and their consequences, Transport, 19, 1, s. 15-25.
19. Płatkiewicz K., 2012, Problemy i techniki lokalizacji w procesie geokodowania na przykładzie zdarzeń drogowych w Krakowie, Transport Miejski i Regionalny, 9, s. 18-26.
20. Płatkiewicz K., 2012, Przestrzenne zróżnicowanie miejsc zamieszkania sprawców wypadków i kolizji drogowych w Krakowie, Transport Miejski i Regionalny, 7, s. 15-21.
21. Płatkiewicz K., 2015, Zróżnicowanie przestrzenne wypadków i kolizji drogowych w Krakowie oraz jego uwarunkowania, IGiGP UJ, Kraków, maszynopis.
22. Raport o stanie miasta Krakowa 2014, http://bip.krakow.pl ( 17.11.2015).
23. Rosselló J., Saenz-de-Miera O., 2011, Road accidents and tourism: The case of the Balearic Islands (Spain), Accident Analysis & Prevention, 43, 3, s. 675-683.
https://doi.org/10.1016/j.aap.2010.10.011 -
24. Ruch turystyczny w Krakowie. Monografia – badania triangulacyjne, 2014, http://www.bip.krakow.pl/zalaczniki/dokumenty/n/129953/karta (5.02.2016).
25. Sharaf E., Al-Ghamdi A., 1996, Analysis of Injuries Resulting from Traffic Accidents in the Riyadh Area, Journal of King Saud University, Engineering Science, 8, 2, s. 235-250.
26. Silva J.F., 1978, A comparative study of road traffic accidents In West Malaysia, Annals of the Royal College of Surgeons of England, 60, 6, s. 457-463.
27. Simonćić M., 2001, Road accidents In Slovenia involving a pedestrian, cyclist or motorcyclist and a car, Accident Analysis & Prevention, 33, 2, s. 147-156.
https://doi.org/10.1016/S0001-4575(00)00025-7 -
28. Sobngwi-Tambekou J., Bhatti J., Kounga G., Salmi L., Lagarde E., 2010, Road traffic crashes on the Yaoundé-Douala road section, Cameroon, Accident Analysis & Prevention, 42, 2, s. 422-426.
ttps://doi.org/10.1016/j.aap.2009.09.003 -
29. Soehodho S., 2009, Road accidents in Indonesia, International Association of Traffic and Safety Sciences, 33, 2, s. 122-124.
https://doi.org/10.1016/S0386-1112(14)60250-8 -
30. Spoerri A., Egger M., von Elm E., 2011, Mortality from road traffic accidents in Switzerland: Longitudinal and spatial analyses, Accident Analysis & Prevention, 43, s. 40-48.
https://doi.org/10.1016/j.aap.2010.06.009 -
31. Śleszyński P., 2010, Studium szacunku liczby i rozmieszczenia pracujących w Krakowie, KPZK, Biuletyn PAN, 243.
32. Traynor T.L., 2008, Regional economic conditions and crash fatality rates – a cross-country analysis, Journal of Safety Research, 39, 1, s. 33-39.
https://doi.org/10.1016/j.jsr.2007.10.008 -
33. Ustawa z dnia 6 czerwca 1997 roku (z późniejszymi zmianami) Kodeks karny, Dz.U. 1997 nr 88 poz. 553.
34. Worley H., 2006, Road Traffic Accidents Increase Dramatically Worldwide, http://www.prb.org/Publications/Articles/2006/RoadTraffi cAccidentsIncreaseDramaticallyWorldwide.aspx (28.05.2016).
35. Young M.S., Mahfoud J.M., Stanton N.A., Salmon P.M., Jenkins D.P., Walker G.H., 2009, Conflicts of interest: The implications of roadside advertising for driver attention, Transportation Research, Part F, 12, 5, s. 381-388.
https://doi.org/10.1016/j.trf.2009.05.004 -
36. Zborowski A., 2005, Przemiany struktury społeczno-przestrzennej regionu miejskiego w okresie realnego socjalizmu i transformacji ustrojowej (na przykładzie Krakowa), Instytut Geografii i Gospodarki Przestrzennej UJ, Kraków.
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Institute of Geography and Spatial Organization of the Polish Academy of Sciences
European Union. European Regional Development Fund ; Programme Innovative Economy, 2010-2014, Priority Axis 2. R&D infrastructure
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Masłowski, Mieczysław. Wydawnictwo Salonu Malarzy Polskich Drukarnia Narodowa