Nurul Su'aidah Ahmad Radzali, A. Abu Bakar, Amri Izaffi Zamahsasri
{"title":"利用卫星项圈数据预测亚洲象行为多样性的机器学习模型","authors":"Nurul Su'aidah Ahmad Radzali, A. Abu Bakar, Amri Izaffi Zamahsasri","doi":"10.32890/jict2023.22.3.3","DOIUrl":null,"url":null,"abstract":"Analysis of animal movement data using statistical applications and machine learning has developed rapidly in line with the developmentand use of various tracking devices. Location and movement data at temporal and spatial scales are collected using the Global PositioningSystem (GPS) to estimate the location of animals. In contrast, installing a satellite collar can ensure continuous monitoring, as the receiveddata will be sent directly to the electronic mailbox. Nevertheless, identifying an exact pattern of elephant activity from satellite collar data is still challenging. This study aimed to propose a machine learning model to predict the behavioural diversity of Asian elephants. The study involved four main phases, including two levels of model development, to produce initial and primary classification models. The phases were data collection and preparation, data labelling and initial classification model development, all data classification, and primary classification model development. The elephant behaviour data were collected from the satellite collars attached to five elephants, three males and two females, in forest reserves from 2018 to 2020 by the Department of Wildlife and National Parks, Malaysia. The study’s outcome was a novel classification model that can predict the behaviour of the Asian elephant movement. The findings showed that the XGBoost method could produce the predictive model to classify Asian elephants’ behaviour with 100 percent accuracy. This study revealed the capability of machine learning to identify behaviour classes and decision-making in setting initiatives to preserve this species in the future.","PeriodicalId":39396,"journal":{"name":"International Journal of Information and Communication Technology","volume":"54 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Machine Learning Models for Behavioural Diversity of Asian Elephants Prediction Using Satellite Collar Data\",\"authors\":\"Nurul Su'aidah Ahmad Radzali, A. Abu Bakar, Amri Izaffi Zamahsasri\",\"doi\":\"10.32890/jict2023.22.3.3\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Analysis of animal movement data using statistical applications and machine learning has developed rapidly in line with the developmentand use of various tracking devices. Location and movement data at temporal and spatial scales are collected using the Global PositioningSystem (GPS) to estimate the location of animals. In contrast, installing a satellite collar can ensure continuous monitoring, as the receiveddata will be sent directly to the electronic mailbox. Nevertheless, identifying an exact pattern of elephant activity from satellite collar data is still challenging. This study aimed to propose a machine learning model to predict the behavioural diversity of Asian elephants. The study involved four main phases, including two levels of model development, to produce initial and primary classification models. The phases were data collection and preparation, data labelling and initial classification model development, all data classification, and primary classification model development. The elephant behaviour data were collected from the satellite collars attached to five elephants, three males and two females, in forest reserves from 2018 to 2020 by the Department of Wildlife and National Parks, Malaysia. The study’s outcome was a novel classification model that can predict the behaviour of the Asian elephant movement. The findings showed that the XGBoost method could produce the predictive model to classify Asian elephants’ behaviour with 100 percent accuracy. 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Machine Learning Models for Behavioural Diversity of Asian Elephants Prediction Using Satellite Collar Data
Analysis of animal movement data using statistical applications and machine learning has developed rapidly in line with the developmentand use of various tracking devices. Location and movement data at temporal and spatial scales are collected using the Global PositioningSystem (GPS) to estimate the location of animals. In contrast, installing a satellite collar can ensure continuous monitoring, as the receiveddata will be sent directly to the electronic mailbox. Nevertheless, identifying an exact pattern of elephant activity from satellite collar data is still challenging. This study aimed to propose a machine learning model to predict the behavioural diversity of Asian elephants. The study involved four main phases, including two levels of model development, to produce initial and primary classification models. The phases were data collection and preparation, data labelling and initial classification model development, all data classification, and primary classification model development. The elephant behaviour data were collected from the satellite collars attached to five elephants, three males and two females, in forest reserves from 2018 to 2020 by the Department of Wildlife and National Parks, Malaysia. The study’s outcome was a novel classification model that can predict the behaviour of the Asian elephant movement. The findings showed that the XGBoost method could produce the predictive model to classify Asian elephants’ behaviour with 100 percent accuracy. This study revealed the capability of machine learning to identify behaviour classes and decision-making in setting initiatives to preserve this species in the future.
期刊介绍:
IJICT is a refereed journal in the field of information and communication technology (ICT), providing an international forum for professionals, engineers and researchers. IJICT reports the new paradigms in this emerging field of technology and envisions the future developments in the frontier areas. The journal addresses issues for the vertical and horizontal applications in this area. Topics covered include: -Information theory/coding- Information/IT/network security, standards, applications- Internet/web based systems/products- Data mining/warehousing- Network planning, design, administration- Sensor/ad hoc networks- Human-computer intelligent interaction, AI- Computational linguistics, digital speech- Distributed/cooperative media- Interactive communication media/content- Social interaction, mobile communications- Signal representation/processing, image processing- Virtual reality, cyber law, e-governance- Microprocessor interfacing, hardware design- Control of industrial processes, ERP/CRM/SCM