MINING FIRE HOTSPOTS OVER NUSA TENGGARA AND BALI ISLANDS

IF 0.4 Q4 FORESTRY

Indonesian Journal of Forestry Research Pub Date : 2022-04-30 DOI:10.20886/ijfr.2022.9.1.73-85

A. Vatresia, R. Regen, F. P. Utama, Widhia Oktariani

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引用次数: 0

Abstract

Forest fires are still one of the most common problems in Indonesia. In fact, many of these forest fires origin from human activities, namely fires that are intentionally raised for a purpose such as widening the land to prepare for the planting season in the Nusa Tenggara Island. Forest fire events can be identified by observing hotspot data which are monitored through remote sensing satellites. Hotspot is an area that has a relatively higher surface temperature than the surrounding area based on certain temperature thresholds monitored by remote sensing satellites. The area is represented as a point that has certain coordinates. The actual fires can be monitored by observing the hotspot attribute, namely Confidence, Brightness Temperature and FRP (Fire Radiate Power). To find the similarities of the three mentioned attributes, the clustering process is carried out to make monitoring easier. The objective of this research is to cluster hotspots in the Nusa Tenggara and Bali Islands from year 2013 to 2018 using the K-Means Clustering Method with 28,519 hot spot data. This could be a benefit for the Ministry of Environment and Forestry in Indonesia to identify the priority level of the area to be monitored. By knowing this result, the ministry can use this data for patrol priority management. This research successfully clustered three types of hotspot classes based on the risk of fire with details as follow; High Risk Class contains 12,212 data with ranges of mean values of confidence in the range of 49.3–100%, brightness in the range of 305.1–421.3o K and FRP in the range of 2.5–714.3; Medium Risk contains 12,250 data mean values of confidence with a range of 20.3–74.3%, brightness in the range of 301.06–341.86o K and FRP in the range of 3.6–141.4; and Low Risk contains 4,057 data with a range of mean values of confidence in the range of 0–39.8%, brightness in the range of 300–365.86oK and FRP in the range of 3.5–275.6. All of the clusters were obtained by the implementation of K-Means clustering over the hotspot data and its parameter as mentioned, respectively. The cluster performance showed the confidential value of 88.45% accuracy using 100 hotspot data from 2019

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在努沙登加拉岛和巴厘岛上开采火灾热点

森林火灾仍然是印度尼西亚最常见的问题之一。事实上，这些森林火灾中的许多都源于人类活动，即故意引发的火灾，目的是拓宽土地，为努沙登加拉岛的种植季节做准备。森林火灾事件可以通过观测通过遥感卫星监测的热点数据来识别。热点是指根据遥感卫星监测到的某些温度阈值，表面温度比周围地区相对较高的地区。该区域表示为具有特定坐标的点。可以通过观察热点属性来监测实际火灾，即置信度、亮度温度和FRP（火灾辐射功率）。为了找到上述三个属性的相似性，进行了聚类过程，以使监控更容易。本研究的目的是利用28519个热点数据，使用K-Means聚类方法对2013年至2018年努沙登加拉群岛和巴厘岛的热点进行聚类。这可能有利于印度尼西亚环境和林业部确定待监测地区的优先级别。通过了解这一结果，铁道部可以将这些数据用于巡逻优先级管理。本研究成功地基于火灾风险将三种类型的热点类别进行了聚类，具体如下；高风险类别包含12212个数据，置信度平均值范围在49.3–100%之间，亮度范围在305.1–421.3o K之间，FRP范围在2.5–714.3之间；中等风险包含12250个置信度数据平均值，范围为20.3–74.3%，亮度范围为301.06–341.86o K，FRP范围为3.6–141.4；低风险包含4057个数据，置信度平均值范围为0–39.8%，亮度范围为300–365.86oK，FRP范围为3.5–275.6。所有聚类都是通过分别对热点数据及其参数进行K-Means聚类获得的。使用2019年的100个热点数据，聚类性能显示准确率为88.45%的机密值

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来源期刊

Indonesian Journal of Forestry Research FORESTRY-

CiteScore

1.50

自引率

25.00%

发文量