The Gandhinagar town has undergone unprecedented urban growth after assuming the status of a capital of Gujarat state, India in 1971. The Gandhinagar city lies on the western bank of river Sabarmati and city is also known as the “Tree capital of India” because of greenery with 54% green cover. The urban sprawl in Gandhinagar town was analyzed using multi-temporal Landsat TM data from 1981 to 2015. Spectral indices namely Normalized Difference Vegetation Index (NDVI), Normalized Difference Built-up Index (NDBI) and Built-up Index (BUI) were generated from the Landsat TM bands covering visible Red (R), Near Infrared (NIR) and Short Wave Infrared (SWIR) wavelength regions. Spectral variations in built-up, open spaces, urban vegetation and water areas were studied by generating two-dimensional spectral plots of NDBI and BUI. The spectral response of built up areas like Urban-dense and urban-sparse classes are quite distinct from other cover types like open spaces, urban vegetation and water. The results indicate that the normalized difference built-up index (NDBI) and Built-up Index (BUI) were very useful for mapping urban built-up areas in Gandhinagar town using Landsat Thematic Mapper (TM) data. The built-up area in Gandhinagar increased from 1100.1 ha during Jan 1989 to 1907.3 ha during Jan 2015 which indicates about 73 per cent increase in the built-up area during the period of 26 years. The urban vegetation which includes parks and gardens in the city has also shown increasing trend during the period of 1989 to 2015. However, the area under open spaces has decreased as the development of built-up area has increased as per development plan of the Gandhinagar town.
The ever increasing population has led to the rise in unplanned urban growth in the suburbs of the city which is usually termed as urban sprawl [
Remote sensing offers several advantages over conventional ground methods used to map and monitor urban growth. Several studies have analysed urban sprawl at regional, local and temporal scales [
Remote sensing images are useful for monitoring the spatial distribution and growth of urban built-up areas because of their ability to provide timely and synoptic views of land cover [
This study was carried out in Gandhinagar town with major objective to map changes in built up area in Gandhinagar town using multi-temporal satellite data from 1981 to 2015. The detailed objectives of this study are as follow:
・ Generate three indices namely NDVI, NDBI and BUI using Landsat TM bands covering visible Red (R), Near Infrared (NIR) and Short Wave Infrared (SWIR) wavelength regions.
・ Study the spectral responses of built-up, vegetation and water areas in the NDVI, NDBI and BUI images.
・ Monitoring Urban Growth of Gandhinagar Town using Multi-temporal Satellite data of last 35 years (1981 to 2015).
Gandhinagar got an identity of its own when the state of Mumbai was divided into two separate states of Gujarat and Maharashtra. In the beginning, Ahmedabad―a commercial hub of Gujarat was chosen as the state capital and it was proposed that a new capital should be constructed along the line of other new state capitals, particularly Chandigarh. Named after Mahatma Gandhi the foundation stone of this city was laid on 1965 and in 1971 the capital was shifted from Ahmedabad to Gandhinagar. The Gandhinagar district includes four talukas―Mansa, Kalol, Dahegam and Gandhinagar. It is bounded by Mahesana, Patan, Sabarkantha and Banaskantha. All kinds of head offices of state government, secretariat of all departments, offices and residents of ministers of legislative assembly, residence of governor and other important offices are situated in Gandhinagar. The average elevation of Gandhinagar town is 81 m (266 feet) above MSL. The city lies on the western bank of river Sabarmati. Gandhinagar city is also known as the “Tree capital of India” because of greenery with 54% green cover. Gandhinagar town lies between 23.0˚N to 23.6˚N Latitude and 72.3˚E to 73.7˚E Longitude. The 388 sq km area under Gandhinagar Urban Development Authority (GUDA) includes the 57 sq km area under the Gandhinagar Municipal Corporation (GMC). Gandhinagar―the capital of Gujarat undergoes constant development. The built-up area, vegetative cover, barren land, the area covered with water bodies―everything changes in the process. The location map of the study area is given in
In this study, satellite data from Landsat TM from 1981 to 2015 and GIS data of Gandhinagar town as well as field data was used.
Multi-temporal Satellite data of Landsat TM of different years from 1981 to 2015 for the month of January were downloaded from website: https://earthexplorer.usgs.gov/ and used for mapping and monitoring urban sprawl of Gandhinagar town during last 35 years (
The GIS data available with BISAG like: a) Gandhinagar Urban Development Area (GUDA) and Gandhinagar Municipal Corporation (GMC) Boundaries, b) Transport Network, etc. was used for preparation base maps of the study area. The base map of Gandhinagar Municipal Corporation showing lay-out of different sectors and transport network is given in
Sr. No. | Satellite | Sensor | Path/Row | Resolution | Date of Pass |
---|---|---|---|---|---|
1. | Landsat-4 | MSS | 148/045 | 60 m | Jan-1981 |
2. | Landsat-5 | TM | 148/045 | 30 m | Jan-1989 |
3. | Landsat-5 | TM | 148/045 | 30 m | Jan-1995 |
4. | Landsat-7 | TM | 148/045 | 30 m | Jan-2000 |
5. | Landsat-5 | TM | 148/045 | 30 m | Jan-2011 |
6. | Landsat-8 | TM | 148/045 | 30 m | Jan-2015 |
Field data on tree cover and urban density in different parts of Gandhinagar town was collected and their Geographic coordinates of the visited fields were also recorded using GPS. These photographs were transferred on the satellite image for accurate area identification. Field photographs of tree cover and urban density in different areas of Gandhinagar town were geo-tagged for actual visualization of the field details and areas on the satellite data. The locations of field observations and geo-tagged photographs superimposed on the Satellite data covering Gandhinagar town are given in
The multi-date Landsat images from 1981 to 2015 were downloaded and geometrically corrected using the Ground Control Points (GCPs) identified on image and Global Positioning System (GPS) measurements. Using these GCPs and GPS measurements, second order polynomials with nearest neighbour (NN) resampling procedure, the geo-referenced images were generated in Universal Transverse Mercator (UTM) projection with WGS 84 datum at 30 × 30 m resolution. Root Mean Square (RMS) errors were within +0.5 to 0.75 pixels. The study area covering the Gandhinagar town was extracted from all different date images.
The traditional approaches of classification to extract built up areas remains laborious and has a high probability of misclassification between bare soil and constructed surfaces; this is due generally to the urban complexity, where spectral reflectance can represent a combination of several land cover called mixed pixels (Wu, 2004). However, the development of spectral indices helps in the correct interpretation of spatial remote sensing images in various domains, including urban planning, which the success of these indices is due generally to the combination of two or more land surface reflectance with different wavelengths.
Based on the analysis of the unique spectral responses of built-up areas and other land covers in seven Landsat TM bands, the original NDBI approach developed by Zha et al. (2003) was implemented and three indices based on Landsat TM bands covering visible Red (R), Near Infrared (NIR) and Short Wave Infrared (SWIR) wavelength regions were generated using following equations:
a) Normalized Difference Vegetation Index (NDVI):
b) Normalized Difference Built-up Index (NDBI):
c) Built Up Index (BUI):
In this study, the non-urban and urban built-up areas are distinguished based on a BUI and NBI. The Non-urban areas include urban vegetation including parks and gardens, open spaces, water and Agricultural vegetation. The urban areas were also identified into dense urban and sparse urban areas. Using these equations the images of NDVI, NDBI and BUI were generated and a colour composite image of NDVI and BUI was also generated. These images generated using 16-Jan-2015 Landsat TM data are given in
Spectral variations in built-up, open spaces, urban vegetation and water areas were studied, using sample areas of urban land cover types and DN values these classes were averaged to plot the graphs given in
Zha, Gao and Ni (2003) developed the NDBI on the footprints of the NDVI that used Landsat Thematic Mapper (TM) near-infrared (NIR) band 4 (low reflectance in built-up area) and mid-infrared (MIR) band 5 (high reflectance in built-up area). The output NDBI was further refined by removing vegetation noise using NDVI. He et al. (2010) found in their studies that NDBI generated using TM band 4 (0.76 - 0.90 μm) and TM band 5 (1.55 - 1.75 μm) were most suitable for discriminating built-up areas from other land cover types.
In this study three indices namely, NDVI, NDBI and BUI were generated using the Equations (1)-(3) given above and given in
Class | Npix | NDVI | NDBI | BUI | |||
---|---|---|---|---|---|---|---|
Mean | Std Devi | Mean | Std Devi | Mean | Std Devi | ||
Urban-Dense | 251 | 0.189 | 0.033 | −9.87E−03 | 0.025 | −3.77E−01 | 0.035 |
Urban-Sparse | 294 | 0.295 | 0.073 | 2.63E−02 | 0.046 | −2.67E−01 | 0.052 |
Open Spaces | 167 | 0.247 | 0.028 | −1.33E−01 | 0.032 | −3.77E−01 | 0.024 |
Urban-Veg. | 346 | 0.575 | 0.046 | 1.68E−01 | 0.049 | −4.04E−01 | 0.025 |
Agri.-Veg. | 156 | 0.688 | 0.095 | 2.77E−01 | 0.118 | −4.11E−01 | 0.039 |
Water | 54 | −0.176 | 0.068 | 4.00E−01 | 0.057 | 5.98E−01 | 0.107 |
land cover types are seen as light grey, dark grey and black tones. Also Densely vegetated areas appear dark black tones. The water in the river and other places in the town are seen as very bright white in colour. The urban vegetation as well agricultural crops are seen as bright pink and red tones in the composite image of NDVI & BUI. The spectral responses of built-up, vegetation and water areas in the NDVI, NDBI and BUI images were generated using the sample areas of various classes on these images. The number of pixels used to generate the statistics along with mean values and Standard Deviations of each class are given in
The urban land cover types have quite distinct signature in all the three spectral indices which indicates that these land cover types can be segregated from each other using these indices. The scatter plots of various urban land cover types in two-dimensional spectral space of NDBI and BUI were also generated to monitor their spectral separability (
The area under urban land use classes like built-up area, open spaces and urban vegetation classes were estimated using the false colour composite images generated using NDVI and BUI images of different years. The estimated area under built-up, open spaces and urban vegetation in Gandhinagar town during 1989 to 2015 is given in
The built-up area in Gandhinagar increased from 1100.1 ha during Jan 1989 to 1907.3 ha during Jan 2015 which indicates about 73 per cent increase in the built-up area during the period of 26 years. The urban vegetation which includes parks and gardens in the city has also shown increasing trend during the period of 1989 to 2015. However, the area under open spaces has decreased as the development of built-up area has increased as per development plan of the Gandhinagar town. The development of Gandhinagar has been carried out in three
Sr. No. | Month-Year | Area (ha) under Urban Land Cover Type | ||
---|---|---|---|---|
Built-Up | Open Spaces | Urban Vegetation | ||
1. | January 1989 | 1100.7 | 1147.0 | 598.5 |
2. | January 1995 | 1599.1 | 566.5 | 680.6 |
3. | January 2000 | 1706.6 | 304.1 | 835.5 |
4. | January 2011 | 1824.1 | 151.1 | 871.0 |
5. | January 2015 | 1907.3 | 65.4 | 873.0 |
phases as given in
The present study urban growth in Gandhinagar town was monitored using Geospatial technology and multi-temporal Remote Sensing Satellite data of last 35-years. Landsat MSS and TM data from 1981 to 2015 was analysed for urban sprawl mapping. The field data on built-up areas, open spaces, urban vegetation including parks, gardens and tree clusters etc. was also collected in different sectors of Gandhinagar town. To identify and delineate urban built areas and other urban cover types, various indices like of Normalized Difference Vegetation Index (NDVI), Normalized Difference Built-up Index (NDBI) and Built-Up Index (BUI) were generated using Landsat TM data covering Gandhinagar town.
The major conclusions of this study are as follows:
・ Spectral variations in built-up, open spaces, urban vegetation and water areas were studied by generating two-dimensional spectral plots of NDBI and BUI. The spectral response of built up areas like Urban-dense and urban-sparse classes are quite distinct from other cover types like open spaces, urban vegetation and water.
・ The results indicate that the normalized difference built-up index (NDBI) and Built-up Index (BUI) were very useful for mapping urban built-up areas in Gandhinagar town using Landsat Thematic Mapper (TM) data.
・ The area under urban land use classes like built-up area, open spaces and urban vegetation classes were estimated using the false colour composite images generated using NDVI and BUI images of different years.
・ The built-up area in Gandhinagar increased from 1100.1 ha during Jan 1989 to 1907.3 ha during Jan 2015 which indicates about 73 per cent increase in the built-up area during the period of 26 years.
The authors express their sincere thanks to Shri T. P. Singh, Director, Bhaskarcharya Institute for Space Applications and Geo-informatics (BISAG), Department of Science & Technology, Government of Gujarat, Gandhinagar for his encouragement and guidance to conduct this study.
Badlani, B., Patel, A.N., Patel, K. and Kalubarme, M.H. (2017) Urban Growth Monitoring using Remote Sensing and Geo-Informatics: Case Study of Gandhinagar, Gujarat State (India). International Journal of Geosciences, 8, 563-576. https://doi.org/10.4236/ijg.2017.84030