Smartphone Forensic System Professional Activation Code

[Reginald Hanfy]

FreeDownload SmartPhone Forensic System Professional full version standalone offline installer for Windows. It is a forensically sound system for extracting, recovering, analyzing, and triaging data from mobile devices such as Android phones, tablets, iPhones, and iPads.

The next generation of SalvationDATA mobile forensics tools is a powerful and integrated platform for digital investigations. It allows investigators to examine and ascertain relevant information from mobile devices quickly and efficiently in the field and lab. It helps them recover and collect critical forensic evidence from huge backlogs of even locked smartphones using multi-tasking and intelligent analysis functions and extract more evidentiary data in less time than ever.

As an all-in-one and user-friendly system, SPF Pro can automatically choose the best solution for extracting file system, physical, and logical evidentiary data from several mobile OSs, such as Android, iOS, Symbian, Blackberry, etc., especially from 99% of Chinese-brand mobile devices and feature phones. The extracted data includes deleted communications, contacts, messages, media files, cloud data, Apps, etc.

FOR585: Smartphone Forensic Analysis In-Depth course provides examiners and investigators with advanced skills to detect, decode, decrypt, and correctly interpret evidence recovered from mobile devices. The course is continuously updated to keep up with the latest file formats, malware, smartphone operating systems, third-party applications, acquisition shortfalls, extraction techniques (how to get full file system or physical access) and encryption. It offers the most unique and current instruction to arm you with mobile device forensic knowledge you can immediately apply to cases you're working on the day you get back to work. 22 labs, bonus labs + CTF

A smartphone lands on your desk and you are tasked with determining if the user was at a specific location at a specific date and time. You rely on your forensic tools to dump and parse the data. The tools show location information tying the device to the place of interest. Are you ready to prove the user was at that location? Do you know how to take this further to place the subject at the location of interest at that specific date and time? Tread carefully, because the user may not have done what the tools are showing!

Mobile devices are often a key factor in criminal cases, intrusions, IP theft, security threats, accident reconstruction, and more. Understanding how to leverage the data from the device in a correct manner can make or break your case and your future as an expert. FOR585: Smartphone Forensic Analysis In-Depth will teach you those skills.

Every time the smartphone "thinks" or makes a suggestion, the data is saved. It's easy to get mixed up in what the forensic tools are reporting. Smartphone forensics is more than pressing the "find evidence" button and getting answers. Your team cannot afford to rely solely on the tools in your lab. You must understand how to use them correctly to guide your investigation, instead of just letting the tool report what it believes happened on the device. It is impossible for commercial tools to parse everything from smartphones and understand how the data was put on the device. Consider AI vs human - how can a tool determine that level of granularity from a data set? Examination and interpretation of the data is your job, and this course will provide you and your organization with the capability to find and examine the correct evidence from smartphones with confidence.

This in-depth smartphone forensic course provides examiners and investigators with advanced skills to detect, decode, decrypt, and correctly interpret evidence recovered from mobile devices. The course features 23 hands-on labs, a forensic challenge, bonus labs, and a bonus take-home case that allows students to analyze different datasets from smart devices and leverage the best forensic tools, methods, and custom scripts to learn how smartphone data hide and can be easily misinterpreted by forensic tools. Each lab is designed to teach you a lesson that can be applied to other smartphones. You will gain experience with the different data formats on multiple platforms and learn how the data are stored and encoded on each type of smart device. The labs will open your eyes to what you are missing by relying 100% on your forensic tools. The course will also introduce community created tools that are designed to parse specific artifacts that compliment commercial tools.

FOR585 is continuously updated to keep up with the latest smartphone operating systems, third-party applications, acquisition short-falls, extraction techniques (jailbreaks and roots), file format changes, malware and encryption. This intensive six-day course offers the most unique and current instruction on the planet, and it will arm you with mobile device forensic knowledge you can immediately apply to cases you're working on the day you leave the course.

Smartphone technologies are constantly changing, and most forensic professionals are unfamiliar with the data formats for each technology. Take your skills to the next level: it's time for the good guys to get smarter and for the bad guys to know that their smartphone activity can and will be used against them!

FOR585 features 23+ hands-on labs and a final forensic challenge to ensure that students not only learn the material, but can also execute techniques to manually recover data. Some labs allow you to "choose your own adventure" so that students who may need to focus on a specific device can select relevant labs and go back to the others as time permits.

Android devices are among the most widely used smartphones in the world, which means they surely will be part of an investigation that comes across your desk. Unfortunately, gaining access to these devices isn't as easy as it used to be. Android devices contain substantial amounts of data that can be decoded and interpreted into useful information. However, without honing the appropriate skills to acquire the best dataset and correctly interpret the data stored on them, you will be unprepared for the rapidly evolving world of smartphone forensics. Android data acquired using tools may exist in various formats. Often data will be missing if a Full File System acquisition is not obtained. Smartphone examiners need to understand the file structures and how to parse the data.

Digital forensic examiners must understand the file system structures of Android devices and how they store data in order to extract and interpret the information they contain. On this course day we will delve into the file system layout on Android devices and discuss common areas containing files of evidentiary value. Traces of user activities on Android devices are covered, as is recovery of deleted data residing in SQLite records and raw data files. The level of encryption and database VACUUM will determine what is recoverable and for how long. Some artifacts are perishable and only retain data for as little as 24 hours. Time to evidence matters and FOR585 will get you there.

During hands-on exercises, you will use smartphone forensic tools to carve, decode, and analyze a wide variety of information from Android devices. You will use the SQLite examination skills you learned in the first course section to draft queries to parse information that commercial tools cannot support. When all else fails and the tools cannot extract information from newer Android devices, we will use ADB to manually interact and extract data of interest. We'll demonstrate methods to help you say who, what, where, when, and how data was created on an Android device.

Apple iOS devices contain substantial amounts of data that can be decoded and interpreted into useful information. Proper handling and parsing skills are needed to extract information from iOS devices and correctly interpret the data. This course section will cover extraction techniques using jailbreaks and exploits to obtain a Full File System acquisition. Without iOS instruction, you will be unprepared to deal with the iOS device that will likely be a major component in a forensic investigation.

This section dives right into iOS devices. Digital forensic examiners must understand the file system structures and data layouts of Apple iOS devices in order to extract and interpret the information they contain. To learn how to do this, we delve into the file system layout on iOS devices and discuss common areas containing files of evidentiary value. We'll cover encryption, decryption, file parsing, and traces of user activities in detail.

During hands-on exercises, students will use smartphone forensic tools, ArtEx and other open source tools to extract and analyze a wide variety of information from iOS devices. Students will also be required to manually decode data that were marked for deletion or are unrecoverable using smartphone forensic tools and scripts supporting iOS device forensics.

Cloud data, Takeout extractions, and iOS backup files are commonly part of digital forensic investigations. This course day provides students with a deep understanding of backup file and cloud contents, manual decoding, and parsing and cracking of encrypted backup file images. The methods learned during the previous course day are applied to the beginning of this section, as iOS backup files are essentially file system extractions. Examiners today must address the existence of malware on smartphones. Often the only questions relating to an investigation may be whether a given smartphone was compromised, how, and what can be done to fix it. It is important for examiners to understand malware and how to identify its existence on the smartphone.

During hands-on exercises, students will use smartphone forensic tools and other methods to extract and analyze a wide range of information from two encrypted iOS backups, an Android device containing mobile malware, and a device that was intentionally manipulated by the user. Students will be required to manually decode data that were wiped, encrypted, or deleted, or that are unrecoverable using smartphone forensic tools.

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