A Comparative Analysis of OS Forensics Tools in Health Sector
Abstract
The internet is expanding at a carelessly fast pace , as the number of crimes perpetrated using or against computers. The area of computer forensics has arisen in reaction to the rise of computer crime. Computer forensics is the meticulous collection and examination of electronic evidence that not only analyse the damage to a computer because of an electronic attack but also recover lost data from such a system to convict a criminal. As a result, the standard forensic process that is required after an electronic attack involves collecting evidence from a computer system, analyzing, and presentation of the collected evidence in court. Forensics deals primarily with the recovery and analysis of latent evidence. The growth of digital forensics has substantially increased the requirement for effective tools. There are several tools available today which are used to investigate the OS of a given computer. The purpose of this paper is to compare OS forensics tools by evaluating their ease of use, functionality, performance, and product support and documentation. This research will provide a brief comparative analysis of two widely used OS forensic tools-OSForensics and autopsy based on various contradictory factors.
References
Whig, P., & Ahmad, S. N. (2011a). On the performance of ISFET-based device for water quality monitoring. Int’l J. of Communications, Network and System Sciences, 4(11), 709.
Whig, P., & Ahmad, S. N. (2012a). A CMOS integrated CC-ISFET device for water quality monitoring. International Journal of Computer Science Issues, 9(4), 1694–1814.
Whig, P., & Ahmad, S. N. (2012f). Performance analysis of various readout circuits for monitoring quality of water using analog integrated circuits. International Journal of Intelligent Systems and Applications, 4(11), 103.
Whig, P., & Ahmad, S. N. (2013a). A novel pseudo-PMOS integrated ISFET device for water quality monitoring. Active and Passive Electronic Components, 2013.
Whig, P., & Ahmad, S. N. (2014a). Development of economical ASIC for PCS for water quality monitoring. Journal of Circuits, Systems and Computers, 23(06), 1450079.
Whig, P., & Ahmad, S. N. (2014c). Simulation of linear dynamic macro model of photo catalytic sensor in SPICE. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering.
meeeniga, N. (2018). Building a pharmacy workforce from the ground up to support the COVID-19 vaccine rollout. Transactions on Latest Trends in IoT, 1(1). Retrieved from https://www.ijsdcs.com/index.php/TLIoT/article/view/278
kolla, V. (2018). Movie Recommendation System Using Machine Learning. Transactions on Latest Trends in IoT, 1(1). Retrieved from https://www.ijsdcs.com/index.php/TLIoT/article/view/279
meeeniga, N. (2018). Knowledge and perceptions of outpatients regarding upper respiratory tract. International Journal of Managment Education for Sustainable Development, 1(1), 50-55. Retrieved from https://www.ijsdcs.com/index.php/IJMESD/article/view/280
kolla, V. (2018). Diabetes prediction using machine learning.. International Journal of Managment Education for Sustainable Development, 1(1), 56-60. Retrieved from https://www.ijsdcs.com/index.php/IJMESD/article/view/281
kolla, V. ravi kiran. (2012). Heart Disease Prediction using Python Machine Learning. International Journal of Statistical Computation and Simulation, 4(1). Retrieved from https://journals.threws.com/index.php/IJSCS/article/view/149
meeeniga, N. reddy. (2013). Heart Disease Prediction using Deep Learning and Artificial intelligence. International Journal of Statistical Computation and Simulation, 5(1). Retrieved from https://journals.threws.com/index.php/IJSCS/article/view/150
meeeniga, N. reddy. (2014). Type 2 Diabetes mellitus treatment intensification and deintensification. Transaction on Recent Devlopment in Industrial IoT, 6(6). Retrieved from https://journals.threws.com/index.php/TRDAIoT/article/view/153
kolla, V. ravi kiran. (2011). WEATHER PREDICTION USING MACHINE LEARNING. Transaction on Recent Devlopment in Industrial IoT, 3(3). Retrieved from https://journals.threws.com/index.php/TRDAIoT/article/view/152
