一种适用于无人机取证领域的概念数字取证调查模型

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY Engineering, Technology & Applied Science Research Pub Date : 2023-10-13 DOI:10.48084/etasr.6195
Fahad Alotaibi, Arafat Al-Dhaqm, Yasser D. Al-Otaibi
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引用次数: 1

摘要

尽管在无人机取证方面有相当多的研究,描述了许多实际和技术角度,但缺乏一个全面的调查框架。本研究运用设计科学的研究方法,设计了法医学条件下无人机综合侦查的概念模型。该模型可以识别、捕获、保存、分析和记录无人机事件。提出的模型包括四个阶段:准备、数据收集、分析和文档。在准备阶段,收集和分析有关无人机相关资源的数据,包括飞机的来源和型号,机载安装的任何软件或硬件,以及现有的法律框架和法规。数据收集阶段包括收集过程的完成,参与者收集无人机的部件和所需的数据,如飞行控制器、飞行日志和存储卡。分析阶段包括分析收集到的证据。最后,文件阶段包括记录相关证据、分析结果和得出的任何结论。该模型为无人机事件的法医调查提供了一个全面的过程,并为无人机证据的分析提供了一个高效和有效的方法,确保根据公认的法医技术收集和分析证据。该模型适用于任何无人机类型和法律框架。
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A Conceptual Digital Forensic Investigation Model Applicable to the Drone Forensics Field
Although there is a considerable amount of studies in drone forensics that describe numerous practical and technical perspectives, there is a lack of a comprehensive investigation framework. This study used design science research methodology to design a conceptual model for the comprehensive investigation of Unmanned Aerial Vehicles (UAVs) under forensic conditions. This model can identify, capture, preserve, analyze, and document UAV incidents. The proposed model consists of four stages: preparation, data collection, analysis, and documentation. In the preparation stage, data are collected and analyzed about UAV-related resources, including the origin and model of the aircraft, any software or hardware installed onboard, and the legal framework and regulations in place. The data collection stage involves the completion of the collection process, where participants gather parts of the UAV and the data needed, such as the flight controller, flight log, and memory cards. The analysis stage involves analyzing the collected evidence. Lastly, the documentation stage involves documenting relevant evidence, analysis results, and any conclusions derived. This model provides a comprehensive process to forensically investigate UAV incidents and provides an efficient and effective approach to the analysis of UAV evidence, ensuring that evidence was collected and analyzed according to accepted forensic techniques. The proposed model can be applied to any UAV type and legal framework.
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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