UDC: 
DOI: 
10.22389/0016-7126-2018-933-3-23-34
1 Grischchenko M.Yu.
2 Ermilova Yu.V.
Year: 
№: 
933
Pages: 
23-34

Lomonosov Moscow State University (MSU)

1, 
2, 
Abstract:
The paper deals the mapping process of the built-up areas features of the Russian Arctic biggest cities. For the study, the following cities were selected: Apatity, Murmansk, Norilsk and Vorkuta. They are characterized by a variety of urban landscapes, including the presence of large and very large industrial enterprises, which strongly determine the layout of these cities. In our work as the main data we used images from SPOT-5 satellite (optical spectral range), Landsat 8 satellite (thermal spectral range) and masterplans of the studied cities, which were used for distinguishing the types of built-up areas. Using satellite SPOT-5 images we revealed built-up areas of the study cities, then arranged them by land use type. Functional zonation was adjusted using the combination and generalization of the classes. Thermal satellite images were used to supplement and refine the functional zoning based on the detection of areas that are homogeneous in terms of seasonal variability in the intensity of thermal radiation.
The research has been supported by the grant programme from the Russian Science Foundation (Project №17-77-20070 “An initial assessment and projection of the bioclimatic comfort in Russian cities in XXI century against the context of climate change”).
References: 
1.   Baldina E. A., Grishchenko M. Y. Metodika deshifrirovaniya raznovremennykh kosmicheskikh cnimkov v teplovom infrakrasnom diapazone. Vestnik Moskovskogo universiteta. Seriya 5. Geographiya, 2014, no. 3, pp. 35–42.
2.   Baranov S. V. Reitingi sotsialno-ekonomicheskogo razvitiya regionov Severa Rossiyskoy Federatsii za 1998–2007 gody. Ekonomicheskiye nauki, 2009, no. 9, pp. 19–27.
3.   Belenko V. V. Vyyavleniye struktury i izmeneniy zastroyky po kosmicheskim snimkam dlya tseley kartografi rovaniya v ramkah gradostroitelstva. Yestestvennyye i tehnicheskiye nauki, 2017, no. 8, pp. 50–55.
4.   Grishchenko M. Y. Metodika deshifrirovaniya teplovykh kosmicheskikh snimkov dlya kartografi rovaniya prirodnykh i antropogennykh territoriy: Avtoreferat dissertacii na soiskanie uchenoj stepeni kandidata geografi cheskih nauk: 25.00.33. Moscow: MGU, 2015, 24 p.
5.   Kravtsovа V.I., Erlich V.A. (2013) Mapping of the territories attached to Moscow building structure. Geodezia i Kartografia, (6), pp. 23-32.
6.   Marchukov V. S., Cheman Jamal Ahmad Abtomatizirovannoye vyyavleniye izmeneniy na zastroyennyh territoriyah Severnogo Iraka po mnogozonalnym kosmicheskim snimkam. Izvestija vuzov. Geodeziya i aehrofotos”yomka, 2013, no. 5, pp. 74–77.
7.   Pavlenko V. I. Arkticheskaya zona Rossiyskoy Federatsii v sisteme obespecheniya natsionalnykh interesov strany. Arktika: ekologiya i ekonomika, 2013, no. 4, pp. 16–25.
8.   Pilyasov A. N. Kontury strategii razvitiya Arkticheskoy zony Rossii. Arktika: ekologiya i ekonomika, 2011, no. 1, pp. 38–47.
9.   Khaibrakhmanov T. S. Kartografi cheskaya baza dannykh dlya obespecheniya ekologo-geokhimicheskikh issledovaniy gorodskoy territorii: Avtoreferat dissertacii na soiskanie uchenoj stepeni kandidata geografi cheskih nauk: 25.00.33. Moscow: MGU, 2014, 24 p.
10.   Chufarova N. Y. Fraktalny analiz rayonov gorodskoy zastroyki na snimkah v teplovom IK-diapazone. Izvestija vuzov. Geodeziya i aehrofotos”yomka, 2012, no. 1, pp. 62–67.
11.   Esau I., Miles V. (2016) Warmer urban climates for development of green spaces in northern Siberian cities. Geography. Environment. Sustainability, Volume 04(09), pp. 48-62.
12.   Kemmouche A., Khedam R., Mering C. (2010) Mapping of built-up area density from satellite images using morphological granulometries. ISPRS TC VII Symposium – 100 Years ISPRS, Vienna, Austria, July 5–7, IAPRS. V. XXXVIII. Part 7A. pp. 94–99.
13.   Matthias B., Martin H. (2003) Mapping imperviousness using NDVI and linear spectral unmixing of ASTER data in the Cologne-Bonn region (Germany). Proceedings of the SPIE 10th International Symposium on Remote Sensing, 8–12 September 2003, Barcelona, Spain. pp. 1-11.
14.   OpenStreetMap. URL: http://www.openstreetmap.org
Citation:
Grischchenko M.Yu., 
Ermilova Yu.V., 
(2018) Mapping of the built-up areas of Russian Arctic biggest cities using satellite imagery of various spatial resolution. Geodesy and cartography = Geodezia i Kartografia, 79(3), pp. 23-34 . (In Russian). DOI: 10.22389/0016-7126-2018-933-3-23-34
Publication History
Received: 07.11.2017
Accepted: 02.03.2018
Published: 20.03.2018

Content

2018 March DOI:
10.22389/0016-7126-2018-933-3

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