Ratih Dewanti scite author profile

Ratih Dewanti

3Publications

5Citation Statements Received

17Citation Statements Given

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Affiliations

Indonesian National Institute of Aeronautics and Space

Publications

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Detection of Forest Fire, Smoke Source Locations in Kalimantan During the Dry Season for the Year 2015 Using Landsat 8 From the Threshold of Brightness Temperature Algorithm

Kustiyo

Dewanti

Sari

2017

IJReSES

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Abstract. Almost every dry season, there are large forest/land fires in several regions in Indonesia, especially in Kalimantan and Sumatra in the dry season of August to September 2015 a forest fire in 6 provinces namely West Kalimantan, Central Kalimantan, South Kalimantan, Riau, Jambi, and South Sumatra. Even some parties proposed that the Government of Indonesia declares them as a national disaster. The low-resolution remote sensing data have been widely used for monitoring the occurrence of forest/land fires (hotspots), and mapping of burnt scars. The hotspot detection was done by utilizing the data of NOAA-AVHRR and MODIS data which have a lower spatial resolution (1 km). In order to increase the level of detail and accuracy of product information, this research is done by using Landsat 8 TIRS (Thermal Infrared Sensor) band which has a greater spatial resolution of 100 m. The purpose of this research is to find and to determine the threshold value of the brightness temperature of the TIRS data to identify the source of fire smoke. The data used is the Landsat 8 of several parts of Borneo during the period of 24 August to 18 September 2015 recorded by the LAPAN's receiving station. Landsat -8 TIRS band was converted into brightness temperature in degrees Celsius, then dots in a region that is considered the source of the smoke if the temperature of each pixel in the region > 43 o C, and given the attributes with the highest temperatures of the pixels in the region. The source of the smoke was obtained through visual interpretation of the objects in the multispectral Natural Color Composite (NCC) and True Color Composite (TCC) images. Analysis of errors (commission error) is obtained by comparing the temperature detected by TIRS band with a visual appearance of the source of the smoke. The result of the experiment showed that there were detected 9 scenes with high temperatures over 43 o C from the 27 scenes Kalimantan Landsat 8 data, which include 153 sites. The accuracy (commission error) of identification results using temperature ≥ 51°C is 0%, temperature ≥ 47°C is 10%, and temperature ≥ 43°C is 30.5%. MODIS data application and its accuracy for detecting point location of a forest fire. Operational of near-real time MODIS temporal series at 1-km spatial resolution to detect forest fire was applied by Ichoku et al., (2004) that mainly using the 4 µm and 11 µm MODIS channels to produce brightness temperature to measure the rate of emission of Fire Radiative Power (FRE) which is the MODIS fire product. Wang et al., (2012) also use a composite of NDVI for a 16-day period to monitor the burnt scars for large scale. Recent method to detect burnt scars using sub-pixel (SPM) of MODIS conducted by Ling et al., (2015) which aim to refine the accuracy of MODIS that in average produce information in 500 m.On the other hand, research on utilizing high spatial resolution to map the burnt scars such as Landsat have also been conducted by several researchers. Jaya (2000) use Landsat TM imagery for identifying the locat...

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A Two-Steps Radiometric Correction of Spot-4 Multispectral and Multitemporal for Seamless Mosaic in Central Kalimantan

Kustiyo¹,

Dewanti²,

Sari³

2017

IJReSES

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Abstract. This research analyzed the radiometric correction method using SPOT-4 imageries to produce the same reflectance for the same land cover. Top of Atmosphere (TOA) method was applied in previous radiometric correction approach, this TOA approach was upgraded with the reflectance effect from difference satellite viewing angle. The 250 scene of Central Kalimantan SPOT-4 imageries from 2006 until 2012 with varies viewing angle was used. This research applied two-step approaches, the first step is TOA correction, and the second step is normalization using a linear function of reflectance and satellite viewing angle. Gain and offset coefficient of this linear function was calculated using an iterative approach to producing the same reflectance in the forest area. The target of iterative processed is to minimize the standard deviation of a digital number from a forest area in the selected region. The result shows that the standard deviation of a digital number from a forest area in the two steps approach are 8.6, 16.5, and 16.8 for band 1, band 3 and band 4. These values are smaller compared with the standard deviation of digital number result from TOA approach are 15.0, 28,3 and 34.7 for band 1, band 3 and band 4. Decreasing the standard deviation shows the homogeneity of forest reflectance that could be seen in the seamless result. This algorithm can be applied for making seamless SPOT-4 mosaic whole of Indonesia.

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Polarimetric-Sar Classification Using Fuzzy Maximum Likehood Estimation Clustering With Consideration of Complementary Information Based on Physical Polarimetric Parameters, Target Scattering Characteristik, and Spatial Context

Sambodo

Murni

Dewanti

et al. 2010

IJReSES

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This paper shows a study on an alternative method for unsupervised classification of polarimetric-Syenthetic Aperture Radar (SAR) data. The first step was to extract several main physical polarimetric parameters (polarization power, coherence, and phase difference) from polarimetric covariance matrix (or coherency matrix) and physical scattering characteristics of land use/cover based on polarimetric decomposition (Cloude decomposition model). In this paper, we found that these features have complementary information which can be integrated in order to improve the discrimination of different land use or cover types. Classification stage was performed using Fuzzy Maximum Likelihood Estimation (FMLE) clustering algorithm. FMLE algorithm allows for ellipsoidal clusters of arbitrary extent and is consequently more flexible than standard Fuzzy K-Means clustering algorithm. Hoever, basic FMLE algorithm makes use exclusively the spectral (or intensity) properties of the individual pixel vectors and spatial-contextual information of the image was not taken into account. Hence, poor(noisy) classification result is ussualy obtained from SAR data due to speckle noise. In this paper, we propose a modified FMLE which integrate basic FMLE clustering with spatial-contextual information by statistical analysis of local neightbourhoods. The effectiveness of the proposed method was demonstrated using E-SAR polarimetric data acquired on the area of Penajam, East Kalimantan, Indonesia. Result showed classified images improving land-cover discrimination performance. Exhibiting homogeneous region, and preserving edge and other fine structures. Keywords: Cloudes polarimetric decomposition, FMLE clustering, polarimetric coherence, Polarimetric-SAR, unsupervised classification.

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Ratih Dewanti

Detection of Forest Fire, Smoke Source Locations in Kalimantan During the Dry Season for the Year 2015 Using Landsat 8 From the Threshold of Brightness Temperature Algorithm

A Two-Steps Radiometric Correction of Spot-4 Multispectral and Multitemporal for Seamless Mosaic in Central Kalimantan

Polarimetric-Sar Classification Using Fuzzy Maximum Likehood Estimation Clustering With Consideration of Complementary Information Based on Physical Polarimetric Parameters, Target Scattering Characteristik, and Spatial Context

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