PENGGUNAAN METODE STATIS DAN LIVE FORENSIK PADA UAV UNTUK MENDAPATKAN BUKTI DIGITAL


Ibnu Fajar Arrochman(1*); Dhomas Hatta Fudholi(2); Yudi Prayudi(3);

(1) Universitas Islam Indonesia
(2) Universitas Islam Indonesia
(3) Universitas Islam Indonesia
(*) Corresponding Author

  

Abstract


In recent years, the use of drones by civilians is increasing rapidly by the presentation of total sales continued to increase rapidly every year. With the increasing possibility of Unmanned Aerial Vehicle (UAV) abuse, crime in the use of UAVs to be larger. Through forensic analysis of data using static forensic and live forensic to obtain data that allows it to be used as digital evidence. To dig up information that could be used as digital evidence in the UAV and controllers, as well as to know the characteristics of digital evidence on a UAV. The results showed that digital evidence on a UAV, the smartphone is used as a controller UAV has a very important role in the investigation. The findings in aircraft has a percentage of 50% and a camera memory card with 16.6%. DJI Phantom 3 Advanced GPS coordinates always store data in flight LOG; the data is always stored even when the flight mode is used does not use GPS signals to stability. Due to DJI Phantom 3 Advanced always use GPS on flights, file, image or video captured by the camera has the best GPS location coordinates to the metadata therein.


Keywords


UAV; GPS; Flight Data; Forensic

  
  

Full Text:

PDF
  

Article Metrics

Abstract view: 785 times
PDF view: 511 times
     

Digital Object Identifier

doi  https://doi.org/10.33096/ilkom.v11i2.444.152-158
  

Cite

References


G. Horsman, “Unmanned aerial vehicles: A preliminary analysis of forensic challenges,” Digit. Investig., vol. 16, pp. 1–11, 2016.

H. Shao, “Drone Overlord Frank Wang On DJI’s Milestones, Miscarried GoPro Partnership & Corporate Espionage,” Forbes Asia, 2015.

J. D. Barton, “Fundamentals of Small Unmanned Aircraft Flight,” Johns Hopkins Apl Tech. Dig., vol. 31, no. 2, pp. 132–149, 2012.

A. J. Kerns, D. P. Shepard, J. A. Bhatti, and T. E. Humphreys, “Unmanned Aircraft Capture and Control Via GPS Spoofing,” J. F. Robot., vol. 31, no. 4, pp. 617–636, 2014.

A. Arbelet, “Garmin satnavs forensic methods and artifacts : An exploratory study School of Computing,” no. August, 2014.

Sukriadi and Y. Prayudi, “Analysis of Digital Evidence of Global Positioning System (GPS) On Android Smartphone,” Kns&I Stikom, no. 11, 2014..

K. Hartmann and C. Steup, “The vulnerability of UAVs to cyber attacks - An approach to the risk assessment,” Cyber Confl. (CyCon), 2013 5th Int. Conf., pp. 1–23, 2013.

T. Jiang, J. Li, and K. Huang, “Longitudinal parameter identification of a small unmanned aerial vehicle based on modified particle swarm optimization,” Chinese J. Aeronaut., vol. 28, no. 3, pp. 865–873, 2015.


Refbacks

  • There are currently no refbacks.


Copyright (c) 2019 Ibnu Fajar Arrochman, Dhomas Hatta Fudholi, Yudi Prayudi

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.