Abstract:
As a result of the ease with which the internet and cell phones can be accessed, online social networks (OSN) and social media have
seen a signi cant increase in popularity in recent years. Security and privacy, on the other hand, are the key concerns in online
social networks and other social media platforms. On the other hand, cyberbullying (CB) is a serious problem that needs to be
addressed on social media platforms. Known as cyberbullying (CB), it is de ned as a repetitive, purposeful, and aggressive reaction
performed by individuals through the use of information and communication technology (ICT) platforms such as social media
platforms, the internet, and cell phones. It is made up of hate messages that are sent by e-mail, chat rooms, and social media
platforms, which are accessed through computers and mobile phones. e detection and categorization of CB using deep learning
(DL) models in social networks are, therefore, crucial in order to combat this trend. Feature subset selection with deep learning based CB detection and categorization (FSSDL-CBDC) is a novel approach for social networks that combines deep learning with
feature subset selection. e suggested FSSDL-CBDC technique consists of a number of phases, including preprocessing, feature
selection, and classi cation, among others. Additionally, a binary coyote optimization (BCO)-based feature subset selection
(BCO-FSS) technique is employed to select a subset of features that will increase classi cation performance by using the BCO
algorithm. Additionally, the salp swarm algorithm (SSA) is used in conjunction with a deep belief network (DBN), which is known
to as the SSA-DBN model, to detect and characterize cyberbullying in social media networks and other online environments. e
development of the BCO-FSS and SSA-DBN models for the detection and classi cation of cyberbullying highlights the originality
of the research. A large number of simulations were carried out to illustrate the superior classi cation performance of the
proposed FSSDL-CBDC technique. e SSA-DBN model has exhibited superior accuracy to the other algorithms, with a 99.983 %
accuracy rate. Overall, the experimental results revealed that the FSSDL-CBDC technique beats the other strategies in a number of
di erent aspects
