Recently, a world-wide trend has been observed that there is widespread adoption across all fields to embrace smart environments and automation. Smart environments include a wide variety of Internet-of-Things (IoT) devices, so many challenges face conventional digital forensic investigation (DFI) in such environments. These challenges include data heterogeneity, data distribution, and massive amounts of data, which exceed digital forensic (DF) investigators’ human capabilities to deal with all of these challenges within a short period of time. Furthermore, they significantly slow down or even incapacitate the conventional DFI process. With the increasing frequency of digital crimes, better and more sophisticated DFI procedures are desperate...
Since its inception as a forensic discipline, digital evidence has experienced rapid growth in its c...
Forensic analysis is typically a complex and time-consuming process requiring forensic investigators...
Forensic Science has been around for quite some time. Although various forensic methods have been pr...
In the dynamic landscape of digital forensics, the integration of Artificial Intelligence (AI) and M...
The impact of AI on numerous sectors of our society and its successes over the years indicate that i...
Digital investigators often have a hard time spotting evidence in digital information. It has become...
Digital Forensics is used to aid traditional preventive security mechanisms when they fail to curtai...
In this paper we posit that current investigative techniques—particularly as deployed by law enforce...
Recently, the exponential growth of Internet of Things (IoT) network-connected devices has resulted ...
Digital forensics as a field has progressed alongside technological advancements over the years, jus...
Small-scale digital devices like smartphones, smart toys, drones, gaming consoles, tablets, and othe...
We address the role of machine learning in digital forensics in this paper, in order to have a bette...
Machine learning has been shown as a promising approach to mine larger datasets, such as those that ...
Worldwide usage of mobile SMART devices has been dramatically increased over the past decade. The po...
Since its inception as a forensic discipline, digital evidence has experienced rapid growth in its c...
Forensic analysis is typically a complex and time-consuming process requiring forensic investigators...
Forensic Science has been around for quite some time. Although various forensic methods have been pr...
In the dynamic landscape of digital forensics, the integration of Artificial Intelligence (AI) and M...
The impact of AI on numerous sectors of our society and its successes over the years indicate that i...
Digital investigators often have a hard time spotting evidence in digital information. It has become...
Digital Forensics is used to aid traditional preventive security mechanisms when they fail to curtai...
In this paper we posit that current investigative techniques—particularly as deployed by law enforce...
Recently, the exponential growth of Internet of Things (IoT) network-connected devices has resulted ...
Digital forensics as a field has progressed alongside technological advancements over the years, jus...
Small-scale digital devices like smartphones, smart toys, drones, gaming consoles, tablets, and othe...
We address the role of machine learning in digital forensics in this paper, in order to have a bette...
Machine learning has been shown as a promising approach to mine larger datasets, such as those that ...
Worldwide usage of mobile SMART devices has been dramatically increased over the past decade. The po...
Since its inception as a forensic discipline, digital evidence has experienced rapid growth in its c...
Forensic analysis is typically a complex and time-consuming process requiring forensic investigators...
Forensic Science has been around for quite some time. Although various forensic methods have been pr...