Performance evaluation of the effect ofnoise power jammer on the mobile bluetooth network

TL;DR

This paper evaluates how noise power jammers affect Bluetooth networks, demonstrating that factors like power density, distance, and immunity techniques influence network resilience.

Contribution

It provides a detailed analysis of the impact of noise power jammers on Bluetooth networks, considering various influencing factors.

Findings

Jammer effect varies with power density and distance.

Immunity techniques can mitigate jammer impact.

Results highlight importance of strategic defense in Bluetooth networks.

Abstract

Network jammers can uncover the reliability of the wireless networks, where the position of the jammer node permit the network to cope with jamming leveraging varieties of defence strategies. Wireless Bluetooth network is a short range network, where the Bluetooth transceiver is operating in the 2.4 GHz ISM (industrial, scientific and medical) radio band, and a special type of frequency hopping pattern was included with the specification of the Bluetooth technology to offer the necessity requirement for the matching Radio Frequency RF channels. This paper calculates and evaluates the effect of noise power jammer and follower jammer on the Personal Area Network (PAN) Bluetooth network. The results prove that the effect on the Bluetooth network depends on many factors such as power density, distance and immunity technique, which is used in many Bluetooth networks.