Panoramic videography as a potential tool for enhancement of land intensity factors

• Autorzy: Kwiatek K. , Litwin U.
• Języki publikacji: EN

Abstrakty

EN

The article explores the potential of using panoramic videography for the spatial engineering and spatial management of landscape. The concept of panoramic photography, as a basis for panoramic videography, has been widely used for visualisation of cultural heritage sites and documentation of various sites. Panoramas are widely used, for example, by Google in StreetView to present not only the cityscapes, but recently also rural landscapes. Panoramic videography is a process of creating panoramic (360-degree) video, which represents the dynamic environment. The land intensity factors (WIT - in Polish: "współczynniki intensywności terenu") introduced by Litwin is a method for evaluation of the landscape where different functions can be specified: agricultural, non-agricultural and recreational. Although this method can be used in different terrains, this article proposes to use panoramic video camera for the enhancement of the recreation function of WIT. The process of creating panoramic videography is explained in this article as it was tested and explored in the United Kingdom (in Launceston) and Poland (the district of Czarny Dunajec). It is based on gathering imagery not from airplanes but from a mobile setup that traverses through streets. What is more, the combination of vector and raster modelling of terrain in a visual and interactive environment has a potential to become a powerful tool for enhancement of land intensity factors. The administrative borders are one of the drawbacks for a determination of WIT and comparing them to terrain values. This article proposes the application of a path-based approach to visualize changes in land value and recreation function thanks to data collected from panoramic videography and information input to database. Annotations and measurements (panoramic photogrammetry) gathered from geo-referenced video provides a potential not only for determining WIT factors, but also for regional planning.

Słowa kluczowe

EN

landscape; landscape inventory; regional planning; spatial engineering; development of rural areas; 3D visualisation; panoramic videography; panoramic photography; photogrammetry; LIS; GIS

PL

wizualizacja 3D; fotogrametria; rozwój obszarów wiejskich; GIS; fotografia panoramiczna

• Wydawca: Wydawnictwo Uniwersytetu Rolniczego w Krakowie
• Czasopismo: Geomatics, Landmanagement and Landscape
• Rocznik: 2013
• Tom: no. 3
• Strony: 67--80
• Opis fizyczny: Bibliogr. 20 poz., rys.

Twórcy

autor

Kwiatek K.

• Uniwersytet Ekonomiczny w Krakowie Katedra Gospodarki Regionalnej Zakład Ekonomiki Regionu i Inżynierii Przestrzennej

autor

Litwin U.

• Uniwersytet Rolniczy w Krakowie Katedra Geodezji Rolnej, Katastru i Fotogrametrii

Bibliografia

• Anguelov D., Dulong, C. 2013. Google Street View: Capturing the world at street level. Computer, 43, 32-38.
• Benosman R., Kang S. 2001. Panoramic vision: Sensors, theory and applications. Springer-Verlag, New York.
• Bojarski W.W. 1984. Podstawy analizy i inżynierii systemów. PWN, Warszawa
• Brook R., Dunn N. 2011. Urban maps: Instruments of narrative and interpretation in the City. Ashgate Publishing Ltd, London.
• Burrough P.A. 1986. Principles of geographical information systems for land resources assessment. Clarendon Press, Oxford
• Clifford N., French S., Valentine G. 2010. Key methods in geography. Sage, London.
• Gaździcki J. 1990 Systemy informacji przestrzennej. PPWK, Warszawa - Wrocław.
• Gulati R.D., Donk E., Lammens E. 2007. Shallow lakes in a changing world: Proceedings of the 5th International Symposium on Shallow Lakes, held at Dalfsen, The Netherlands, 5-9 June 2005. Springer, Dordrecht.
• Huang F., Klette R., Scheibe K. 2008. Panoramic imaging: Sensor-line cameras and laser range-finders. John Wiley & Sons, New York.
• Immersive Media 2009. Dodeca 2360 Camera System, http://immersivemedia.com/wp-content/ uploads/2012/03/imc_cs_Dodeca-2.pdf.
• Iwane Lab 2012. Mobile mapping systems, http://www.iwane.com/en/index.php.
• Kwiatek K. 2013. A critical practice-based exploration of interactive panoramas' role in helping to preserve cultural memory. University of Plymouth, Plymouth.
• Kwiatek K. 2011. 360° film brings bombed church to life. Forth Workshops ISPRS International Workshop 3D-ARCH 2011. Trento, Italy, 2-5 March, International Archives of Photogram-metry, Remote Sensing and Spatial Information Sciences.
• Kwiatek K., Woolner M. 2009. Embedding interactive storytelling within still and video panoramas for cultural heritage sites. 15th International Conference on Virtual Systems and Multimedia, VSMM2009. Vienna, Austria, 9-12 September, 197-202.
• Litwin U., Pijanowski J.M. 2008. Aktywna ochrona i kształtowanie krajobrazów kulturowych a waloryzacja ich zasobów. Kwart. Nauk. Wyższej Szkoły Przedsiębiorczości w Nowym Sączu, ser. Geodezja i Kartografia, Nowy Sącz, 1, 37-43.
• Litwin U. 1997. Synergiczne uporządkowanie struktur krajobrazowych na przykładzie Kotliny Mszańskiej. Zesz. Nauk. AR w Krakowie, 225, Kraków.
• Litwin U. 2004. Weryfikacja metody wartościowania struktur krajobrazu z wykorzystaniem wskaźników istotności terenu. Wydawnictwo Uniwersytetu Jagiellońskiego.
• Point Grey Research Inc. 2008. Ladybug2 i Ladybug3, http://www.ptgrey.com/products/lady-bug2/ladybug2_360_video_camera.asp.
• Riitters K.H., O'Neil R.V., Hunsaker C.T. 1995. A factor analysis of landscape pattern and structure metrics. Landscape Ecology, 10, 23-39.
• Verbree E., Zlatanova S., Smith K. 2004. Interactive navigation services through value-added CycloMedia panoramic images. [In:] Proceedings of the 6 International Conference of Electronic Commerce, ICEC 2004, Delft, The Netherlands, 25-27 October.