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    <title>UCSC Digital Library Collection:</title>
    <link>https://dl.ucsc.cmb.ac.lk/jspui/handle/123456789/4725</link>
    <description />
    <pubDate>Sat, 18 Jul 2026 15:17:37 GMT</pubDate>
    <dc:date>2026-07-18T15:17:37Z</dc:date>
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      <title>Security Threats to Mobile Devices through Untrusted Chargers</title>
      <link>https://dl.ucsc.cmb.ac.lk/jspui/handle/123456789/4979</link>
      <description>Title: Security Threats to Mobile Devices through Untrusted Chargers
Authors: Minha, N.F
Abstract: Abstract&#xD;
Mobile devices face growing security threats, including risks from untrusted chargers.&#xD;
This research explores how untrusted chargers can exploit vulnerabilities in&#xD;
mobile devices, particularly focusing on data theft through USB connections.&#xD;
The study aims to evaluate the impact of different Android security settings and&#xD;
assess the risks posed by compromised chargers, including advanced attack tools&#xD;
like the O.MG cable. Experiments were conducted using three Android devices&#xD;
SKY DEVICES E55, Samsung Galaxy J4, and Samsung Galaxy S Duos 3 along&#xD;
with an additional device - Galaxy Tab A9 (SM-X110) tested with an O.MG&#xD;
cable.&#xD;
The study was conducted in four phases to assess security vulnerabilities. Initially,&#xD;
devices were tested under default security settings to observe their normal&#xD;
performance. The second phase evaluated risks associated with enabling developer&#xD;
mode and USB debugging. In the third phase, an O.MG cable was used&#xD;
with an unlocked phone to examine the potential for unauthorized data extraction&#xD;
through an untrusted charger. Finally, the effectiveness of the device lock screen&#xD;
was tested by attempting data theft with a locked phone. Tools like Vysor for remote&#xD;
access, ADB platform tools for device communication, and Scrcpy for screen&#xD;
mirroring were used, enabling the successful extraction of sensitive information&#xD;
such as text messages, photos, and emails.&#xD;
The results revealed significant vulnerabilities, such as unauthorized data access&#xD;
and the potential for malware injection. Devices with developer mode and&#xD;
USB debugging enabled were found to be highly vulnerable to attacks, while&#xD;
locked devices with disabled debugging provided a stronger defense. The study&#xD;
highlights the importance of securing mobile devices by disabling USB debugging,&#xD;
locking devices while charging, and increasing user awareness of these risks</description>
      <pubDate>Fri, 20 Jun 2025 00:00:00 GMT</pubDate>
      <guid isPermaLink="false">https://dl.ucsc.cmb.ac.lk/jspui/handle/123456789/4979</guid>
      <dc:date>2025-06-20T00:00:00Z</dc:date>
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