Cybercrime is a growing threat to organizations and individuals worldwide,
with criminals using increasingly sophisticated techniques to breach security
systems and steal sensitive data. In recent years, machine learning, deep
learning, and transfer learning techniques have emerged as promising tools for
predicting cybercrime and preventing it before it occurs. This paper aims to
provide a comprehensive survey of the latest advancements in cybercrime
prediction using above mentioned techniques, highlighting the latest research
related to each approach. For this purpose, we reviewed more than 150 research
articles and discussed around 50 most recent and relevant research articles. We
start the review by discussing some common methods used by cyber criminals and
then focus on the latest machine learning techniques and deep learning
techniques, such as recurrent and convolutional neural networks, which were
effective in detecting anomalous behavior and identifying potential threats. We
also discuss transfer learning, which allows models trained on one dataset to
be adapted for use on another dataset, and then focus on active and
reinforcement Learning as part of early-stage algorithmic research in
cybercrime prediction. Finally, we discuss critical innovations, research gaps,
and future research opportunities in Cybercrime prediction. Overall, this paper
presents a holistic view of cutting-edge developments in cybercrime prediction,
shedding light on the strengths and limitations of each method and equipping
researchers and practitioners with essential insights, publicly available
datasets, and resources necessary to develop efficient cybercrime prediction
systems.Comment: 27 Pages, 6 Figures, 4 Table