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Computer Forensics Jobs in Kentucky (NOW HIRING)

$14.50 - $18.75/hr

Computer knowledge and extensive documentation is required. Incumbent must be able to work flexible hours to include nights, weekends, and holidays. The Residential Care Specialist will be supervised ...

Text " HIREME " to 30437 to apply now! By texting HIREME to 30437 you will opt-in to receive hiring messages and account related messages from Outback Steakhouse. Text HELP for help or smshelp ...

Text " HIREME " to 30437 to apply now! By texting HIREME to 30437 you will opt-in to receive hiring messages and account related messages from Outback Steakhouse. Text HELP for help or smshelp ...

Text " HIREME " to 30437 to apply now! By texting HIREME to 30437 you will opt-in to receive hiring messages and account related messages from Outback Steakhouse. Text HELP for help or smshelp ...

Text " HIREME " to 30437 to apply now! By texting HIREME to 30437 you will opt-in to receive hiring messages and account related messages from Outback Steakhouse. Text HELP for help or smshelp ...

Text " HIREME " to 30437 to apply now! By texting HIREME to 30437 you will opt-in to receive hiring messages and account related messages from Outback Steakhouse. Text HELP for help or smshelp ...

Incumbents may be required to work extended periods of time at computer terminals. They may experience traumatic situations, including psychiatric and /or deceased patients. Physical Demands: The ...

Expert Security Engineer

Canada, KY ยท Remote

$100K - $120K/yr

Harris Computer Corporation family, delivers health IT solutions that support caregivers around the world. These include the Sunrise, Paragon Daneli, TouchWorks EHR, Altera Opal, Ventus, HealthQuest ...

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Computer Forensics information

What can you do with a computer forensics degree?

A computer forensics degree prepares individuals for roles in investigating cybercrimes, analyzing digital evidence, and supporting legal proceedings. Graduates often work as digital forensic analysts, incident responders, or cybersecurity specialists, utilizing tools like EnCase or FTK and obtaining certifications such as GCFA or EnCE to enhance job prospects.

What are some common challenges faced by professionals in computer forensics and how can they be addressed?

Computer forensics professionals often encounter challenges such as dealing with encrypted data, rapidly evolving technology, and maintaining the integrity of digital evidence. Staying current with emerging tools and techniques is crucial, as is meticulous documentation to ensure evidence is admissible in court. Collaboration with law enforcement, legal teams, and IT departments is also essential to overcome technical hurdles and ensure a thorough investigation.

Will AI take over digital forensics?

Computer forensics professionals use AI tools to assist in analyzing large volumes of digital evidence more efficiently. While AI can automate certain tasks, human expertise remains essential for interpretation, decision-making, and handling complex cases in digital forensics.

What is computer forensics?

Computer forensics, also known as digital forensics, is the practice of collecting, analyzing, and preserving digital evidence from computers and other electronic devices. Professionals in this field investigate cybercrimes, recover lost data, and provide evidence for legal cases involving digital information. They use specialized tools and techniques to ensure that the evidence remains authentic and admissible in court. Computer forensics experts often work with law enforcement, government agencies, or private companies to uncover digital footprints and solve technology-related crimes.

What are the key skills and qualifications needed to thrive as a Computer Forensics Specialist, and why are they important?

To thrive as a Computer Forensics Specialist, you need expertise in digital evidence collection, data analysis, and a strong understanding of cybersecurity concepts, often supported by a degree in computer science, cybersecurity, or a related field. Familiarity with forensic tools like EnCase, FTK, and certification such as Certified Computer Examiner (CCE) or GIAC Certified Forensic Analyst (GCFA) is typically required. Analytical thinking, attention to detail, and strong written communication are essential soft skills for accurately interpreting and reporting findings. These skills and qualifications are crucial for ensuring digital evidence is preserved, analyzed, and presented effectively in legal or investigative contexts.

What is the difference between Computer Forensics vs Digital Forensics?

AspectComputer ForensicsDigital Forensics
CertificationsEnCE, GCFAEnCE, GCFA
Work EnvironmentLaw enforcement, corporate security, consultingLaw enforcement, legal, corporate investigations
Industry UsagePrimarily in cybersecurity and law enforcementBroader, including digital crime, legal cases, and incident response

Computer Forensics and Digital Forensics are closely related fields that often overlap. Computer Forensics focuses on analyzing computers and storage devices, while Digital Forensics covers a wider range of digital media and devices. Both roles require similar certifications and are used in law enforcement and corporate settings. The main difference lies in scope: Computer Forensics is more specific to computers, whereas Digital Forensics includes all digital evidence.

Is computer forensics a good career?

Computer forensics is a specialized field within cybersecurity that involves investigating digital crimes and analyzing electronic evidence. It offers strong job growth, competitive salaries, and requires skills in digital tools, programming, and certifications like GCFA or EnCE. The role often involves detailed analysis, report writing, and collaboration with law enforcement or legal teams.

What does a computer forensic do?

A computer forensic professional investigates digital devices to recover, analyze, and preserve electronic evidence for legal or security purposes. They use specialized tools and techniques to examine data, often working closely with law enforcement or legal teams to support investigations and ensure evidence integrity.
What are popular job titles related to Computer Forensics jobs in Kentucky? For Computer Forensics jobs in Kentucky, the most frequently searched job titles are:
What job categories do people searching Computer Forensics jobs in Kentucky look for? The top searched job categories for Computer Forensics jobs in Kentucky are:
What cities in Kentucky are hiring for Computer Forensics jobs? Cities in Kentucky with the most Computer Forensics job openings:
Infographic showing various Computer Forensics job openings in Kentucky as of July 2026, with employment types broken down into 50% Full Time, and 50% Part Time. Highlights an 100% In-person job distribution.
Advanced Security Engineer, Enterprise Security

Advanced Security Engineer, Enterprise Security

Relativity

Louisville, KY โ€ข On-site

Other

This job post hasย expired today.ย Applications are no longer accepted.


Job description

Posting Type

Remote/Hybrid

Job Overview

The Advanced Security Engineer is a technically deep, hands-on practitioner who forms the operational backbone of the enterprise security function. Operating within a layered defense-in-depth program, this engineer owns the design, deployment, implementation and optimization of AI-enabled security technologies at all layers. With the goal of enabling automated orchestration of security operations into day-to-day detection and response capabilities, hardening rigor, and rapid response. This role works closely with the Senior Manager of Enterprise Security and cross-functional engineering teams to reduce the organization's attack surface, enable threat landscape adaptability, and improve detection and response times across Relativity's technical ecosystem.

Job Description and Requirements

Layered Defense/Defense in Depth
  • As applicable, design, deploy and optimize security controls that span perimeter, network, host, application, identity and data layers, ensuring and maintaining effectiveness of controls at each layer.
  • Collaborate cross-functionally to ensure controls are aligned to industry recognized frameworks.
  • Validate that telemetry from each layer feeds the central analytics platforms and supports 360-degree visibility and appropriate attack surface coverage.
  • Continuously assess effectiveness of enterprise security controls as the ecosystem expands and the threat landscape evolves, supplement or extend coverage accordingly.
  • Proactively partner with IT, Engineering and other stakeholders to embed security controls natively.
  • Periodically provide recommendations on technical design of security controls aligned to vulnerabilities, risks, issues and/or events.
  • Support purple-team exercises and control-efficacy testing to verify depth and resilience under attack conditions.
  • Ensure redundant, complementary security capabilities to prevent bypasses and ensure failure redundancy through all security layers.

Endpoint Security & Hardening
  • Deploy, integrate, optimize and manage EDR/XDR platforms and periodically define custom detections and automated response actions across security tooling.
  • Establish and enforce endpoint and image hardening baselines, configuration standards, and application control baselines.
  • Integrate endpoint telemetry into the central analytics platform (or SIEM) to support security context and cross-domain correlation; ensure SIEM coverage is adequate and effective.
  • Collaborate cross-functionally to ensure security events, exposures, vulnerabilities and alerts are remediated within appropriate SLA's.
  • Investigate endpoint-based alerts and incidents through to root cause: perform triage, forensic artifact collection (memory, disk, logs), timeline reconstruction, and containment/eradication actions.

Threat Hunting
  • Collaborate cross-functionally to support purple team exercises and analyze security telemetry to surface anomalous and malicious behavior to the relevant stakeholders.
  • Develop, execute and document structured hunts mapped to MITRE ATT&CK and ATLAS techniques and current threat intelligence.
  • Perform exposure analysis on identified vulnerabilities, zero-day, alert telemetry, threat intelligence feeds and notifications from partners and customers and conclude on exploitability risk and/or exposure.
  • Maintain awareness of the evolving threat landscape, adversary TTP's, and emerging vulnerabilities and their relevance to Relativity's technical ecosystem and organizational trajectory.
  • Standardize and document hunt methodology, hypotheses, and outcomes and collaborate with security stakeholders to mature threat hunting program over time.
  • Convert successful hunts, exposure analysis, purple team findings and alerts into durable, automated detections and containment logic and improved coverage.

AI-Enabled Security Operations
  • Build and maintain SOAR workflows that automate enrichment, triage, containment, and routine response actions.
  • Measure and continuously improve the impact of automation on time-based detection, containment and response to reduce threat actor dwell time.
  • Identify, evaluate and operationalize AI/ML capabilities for semantic anomaly detection, behavioral analytics, alert triage, and prioritization.

Data Security
  • Implement data classification, discovery, and data security posture management across cloud and on-premises stores.
  • Deploy and tune data loss prevention controls across endpoints, network, email, cloud and SaaS surfaces.
  • Investigate data key risk indicators associated with data access, exfiltration, and integrating data telemetry into central analytics (SIEM).

Minimum Qualifications:
  • Bachelor's in Computer Science, Information Security, or equivalent experience.
  • 5+ years of hands-on experience in enterprise security engineering, with a focus on network and/or endpoint security domains (or) Master's Degree in Cybersecurity or relevant field.
  • Hands-on experience with common security tools such as EDR, XDR, SIEM, CNAPP, CSPM, CWP, etc. and intermediate knowledge of applicable security technologies at all layers of the OSI model.
  • Threat hunting, digital forensics, and/or detection engineering experience and writing automation scripts and rules for security enforcement and/or observability.
  • Basic knowledge of industry standard common security benchmarks and frameworks (e.g., MITRE, NIST, etc.)
  • Proficiency in at least one scripting/automation language (Python, Bash, or PowerShell) applied to modern containerized services, CLI based commands, and/or security specific use cases.
  • Ability to communicate technical findings clearly to both engineering peers and non-technical stakeholders.

Preferred Qualifications:
  • Familiarity with AI-enabled SecOps (e.g., detection: UEBA, ML-based alert prioritization, or AI-assisted threat hunting workflows)
  • Basic knowledge of common cloud environments such as AWS, Azure or GCP.
  • Working knowledge of software development lifecycle, software engineering practices or infrastructure as code environments: contributing endpoint or network security controls to CI/CD pipelines.
  • Experience supporting compliance and audit requirements (SOC 2, ISO 27001, HIPAA) from a technical control perspective.
  • Relevant certifications such as SEC+, CISSP, CISA, GCIH, GCFA, GCIA, GPEN, OSCP, CySA+, or equivalent.

Relativity is committed to competitive, fair, and equitable compensation practices.

This position is eligible for total compensation which includes a competitive base salary, an annual performance bonus, and long-term incentives.

The expected salary range for this role is between following values:

$104,000 and $156,000

The final offered salary will be based on several factors, including but not limited to the candidate's depth of experience, skill set, qualifications, and internal pay equity. Hiring at the top end of the range would not be typical, to allow for future meaningful salary growth in this position.

Required Skills:

Endpoint Security, Network Security, Penetration Testing, Security Architecture Design, Security Automation, Security Information, Security Information and Event Management (SIEM), Security Operations, Threat Modeling, Vulnerability Management