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Online Certificate

CompTIA Cybersecurity Analyst
(CySA+)

Start a Career as a Cybersecurity Analyst

2 Weeks*

To Complete

15-20 Hours

Weekly Commitment

Anytime

Enrollment

What is a Cybersecurity Analyst?

Cybersecurity Analysts play a pivotal role in securing information systems, tasked with the protection of networks, applications and data against cyber threats. They are responsible for detecting weaknesses, overseeing systems to spot security infringements and establishing safeguards to deter cyberattacks.
If you have a keen interest in technology and a commitment to protecting digital environments, St. Norbert College’s online Cybersecurity Analyst program is designed to equip you with the necessary skills to excel in this rapidly expanding field.

Becoming a CYSA Certified Cybersecurity Analyst

The CompTIA Cybersecurity Analyst (CySA+) is an intermediate-level certification that validates your cybersecurity analyst skills and demonstrates the importance of risk mitigation of combating threats to networks and devices through continuous security monitoring.

It is the only intermediate high-stakes cybersecurity analyst certification with both hands-on, performance-based questions and multiple-choice to prove you have the most up to date security analyst skills.

If you intend to pass the CompTIA CySA+ (Exam CS0-003) certification examination, this course can be a significant part of your preparation.

You will learn

How to analyze data and interpret cyber threats for organizations

Understand and track updates to cybersecurity trends

Anticipate threats

Combat malware

Apply behavior analytics to IT security

Requirements

  • High School Diploma or GED
  • Web browser with internet connection

Provided Courseroom Materials

  • Expert-led video based training
  • Textbook: CySA+ All in One
  • Competency assessments
  • CompTIA CySA+ certification exam
  • National Certification exam fee

Is a Career as a Cybersecurity Analyst Right for You?

Take the St. Norbert College “CompTIA Cybersecurity Analyst Certificate Readiness Quiz”

This fun, online quiz takes just 3 minutes to complete and provides you with a personalized report to find out if a short-term online certificate program is right for you. The report identifies your strengths and social style, plus the training and positions you’re best suited for.

What You’ll Learn in the Cybersecurity Analyst Program

Sample Courses

The role of leadership in cybersecurity operations cannot be understated. This lesson will review typical leadership responsibilities such as developing policies and procedures, managing risk, developing controls, managing attack surfaces, routine patching and effective configuration management practices.

Threat intelligence and threat hunting encompass the strategies used to detect and protect against active threats. Threat intelligence describes gathering and analyzing data to help identify potential threats and determine the most effective way to mitigate them. Threat intelligence enables the proactive identification of malicious activity and the capabilities and objectives of different threat actor groups. In addition, threat hunting describes actively searching for signs of malicious activity on an organization’s network. It involves using various tools and techniques to search for potential threats, such as analyzing log files, monitoring suspicious traffic and performing manual searches. Combining these two approaches allows an organization to stay one step ahead of threat actors and better protect its systems.

System and network architecture are crucial elements to consider for security operations. Effective system and network architectures provide a secure environment for all software and devices and can resist attacks while maintaining authorized user access. Additionally, it should enable security analysts to detect and respond to malicious activity promptly. Lastly, it should be easy to maintain, allowing updates and patches to be applied quickly and seamlessly to all components. When appropriately designed, system and network architecture provide a secure and reliable environment for businesses and organizations, protecting them from threat actors and other threats.

The importance of leadership in security operations cannot be overstated. Leaders are responsible for setting the strategy, providing guidance and direction, and ensuring the safety of personnel and assets. They must be able to take decisive action and lead from the front in times of crisis. Good leaders will also be able to motivate and inspire their team, helping to ensure that everyone is working toward the same goal. Furthermore, leaders must understand the latest technology and trends to ensure that their team is equipped with the right skills and equipment. Finally, leaders must manage resources effectively, so operations are efficient, cost-effective and secure. To accomplish this, security operations team leaders must depend on well-established processes. Processes define a standardized, preestablished method of completing various tasks. Processes ensure work is completed consistently, reliably and error-free. Leadership is a critical factor in the success of any security operation, and good leaders are essential for the safety and protection of all personnel and assets.

Vulnerability scanning is an essential component of network security. It identifies and assesses vulnerabilities that malicious attackers can exploit in a system or network. It is important to understand the different vulnerability scanning methods and the various concepts involved. There are two main types of vulnerability scanning methods: active and passive. Active scans require sending data to systems to check for vulnerabilities, while passive scans use existing monitoring tools such as IPS, IDS, and firewall logs to identify potential vulnerabilities. Understanding vulnerability scanning concepts is essential for effective vulnerability assessment and network security.

Vulnerability analysis involves the evaluation of potential weaknesses in a system to identify and address any risks it exposes. Vulnerability analysis is a vital part of any cybersecurity program and is performed regularly to maintain a system’s security.

The process of performing a vulnerability analysis typically involves the identification of any potential weaknesses in a system, such as outdated software, unpatched applications or misconfigurations. After identifying vulnerabilities, they are then evaluated to assess the level of risk they pose.

Communicating vulnerability information is a crucial element of cybersecurity. It is vital to ensure that the right people are aware of the information, the proper communication channels are used and that the information is conveyed effectively. Reports, alerts, advisories, and bulletins are often used to provide vulnerability information.

To effectively communicate vulnerability information, it is essential first to identify who needs to be informed and the best way to inform them. IT staff, executives, managers and other stakeholders, such as vendors and partners, must be aware of vulnerabilities and any related issues.

Vulnerability information must be presented clearly and concisely, including technical details such as identifying affected applications and systems and providing instructions on how to remediate the issue. It is also important to provide links to additional resources, such as patch advisories.

The role of leadership in cybersecurity operations cannot be understated. This lesson will review typical leadership responsibilities such as developing policies and procedures, managing risk, developing controls, managing attack surfaces, routine patching and effective configuration management practices.

The goal of continuous improvement in incident response is to improve the overall quality and speed of response to incidents by gathering and analyzing data about past incidents, identifying areas for improvement and implementing strategies to improve incident response capabilities. Continuous improvement involves deploying technologies and tools to automate processes and improve efficiency. In addition to deploying technologies, continuous improvement also requires establishing processes and procedures to ensure prompt and efficient incident response practices. It is essential to regularly evaluate incident response activities and implement feedback loops between the incident response team and stakeholders and use this feedback to refine processes and procedures. Finally, analytics measure the response teams’ performance and identify improvement areas.

Identifying malicious computer activity is crucial to protecting a network from cyberattacks, unauthorized access and breaches. Malicious activity takes many forms, from viruses and worms that can spread through a network to unauthorized access to a system and data. Rapid detection of malicious activity is essential to prevent widespread damage or a catastrophic data breach. Managing and inspecting log data plays a significant role in identifying malicious activity and log data are also pivotal for forensic analysis. Network traffic and operating system monitoring are also key for detecting malicious activity as they provide real-time insight into the environment. By carefully analyzing networks, applications and operating systems, it is possible to identify and respond to any signs of malicious activity quickly.

Analyzing potentially malicious activity is an integral part of keeping systems secure. When suspicious activity is detected, it is important to investigate it promptly to determine the appropriate incident response steps warranted to mitigate the threat.

Many methods can detect suspicious activity, but monitoring network traffic and examining operating system, user account and file access activity is very common. Windows and Linux systems include many built-in tools designed to identify processes running on the operating system and the network connections associated with them. For closer analysis, several third-party software utilities exist to provide detailed insights into system and user activity, vulnerabilities and potential configuration errors.

Application vulnerability assessment identifies, classifies and remediates security vulnerabilities in applications. Identifying application vulnerabilities requires specialized tools for web applications, cloud platforms or binary reverse engineering. Analysts can use these specialized tools to inspect applications and identify weaknesses that generalized scanning tools may miss. Most specialized assessment tools require a deep familiarity with the underlying application architecture and its programmatic operation to understand the identified issues; however, detailed report output provides the information teams need to work together and remediate vulnerabilities.

Malicious activity is any suspicious incident, including a precursor to an attack, unauthorized access, abnormal use, unusual utilization, a data breach or denial of service, among others. It is important to be able to identify and analyze suspicious activity to protect systems and data from unauthorized access or unscheduled downtime. There are several ways to identify and analyze malicious activity, including monitoring system and network logs, analyzing use, endpoint protection software and intrusion detection and prevention systems.

Application attack mitigation best practices involve protecting web applications and their underlying infrastructure from cyberattacks. Some examples of defensive measures include input validation, strong authentication, encryption, patching, security testing and others. More than one protection method is required. Many approaches, spanning design through operation and maintenance, must be employed to help keep applications safe and secure.

What Can You Do with a Cybersecurity Analyst Certificate?

As our reliance on digital platforms and technology continues to grow, so does the risk of cyber threats and attacks. Organizations across all sectors are recognizing the importance of cybersecurity and are investing heavily in securing their digital assets.

Careers to Explore

Cybersecurity Professionals can work for companies, government agencies or as consultants.
 
As a graduate you may be eligible for these careers:
  • Security/Defense Intelligence Analyst
  • Cybersecurity Specialist
  • Cyber Security Engineer

High Demand for Cybersecurity Analysts

According to the Bureau of Labor Statistics, employment of Information Security Analysts is projected to grow 33% from 2022 to 2033**. Feel confident you’re getting relevant skills to enter an in-demand career with plenty of opportunities.

Get Certified as a Cybersecurity Analyst & Stand Out to Employers

Upon successful completion of your Cybersecurity Analyst courses, you will be prepared to take the CompTIA CySA+ certification exam, an industry recognized exam that demonstrates your knowledge and understanding of cybersecurity.
CompTIA
Issuing Authority

How Much Does an Cybersecurity Analyst Certificate Cost?

$1,299
Total Tuition

Frequently Asked Questions

The CompTIA CySA+ certification validates skills in cybersecurity analysis, including threat detection, incident response, and risk management to help defend against cyber threats.

To become a certified cybersecurity analyst with CySA+, you must complete training, gain experience in security and pass the CySA+ exam, which covers behavioral analytics, vulnerability management and more.

The CySA+ course covers areas like threat detection, incident response, data protection, vulnerability analysis and the implementation of security measures in a dynamic environment.

The time to complete the CySA+ certification depends on your experience and the chosen program. With a weekly commitment of 8-10 hours, you can complete it in approximately 5 to 6 weeks, followed by the exam. St. Norbert’s program takes around 2 Weeks* to complete.

With CySA+ certification, professionals can work as cybersecurity analysts, SOC analysts, or threat detection specialists, helping organizations prevent, detect and respond to cyber threats.

CySA+ focuses on threat detection through behavioral analytics, while certifications like Security+ cover broader security fundamentals. CySA+ is more specialized for those seeking analytical roles.

Accreditation & Licensed Certifying Bodies

Our certificate programs are accredited by reputable institutions recognized in the industry. We partner with accredited organizations to ensure the quality and validity of our certifications.
CompTIA

Is a Rewarding Career as a Cybersecurity Analyst Right for You? Get More Info…

At St. Norbert College, you can gain the skills to make a positive impact while advancing your career. Get the details and see how St. Norbert College can help you move forward.
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*Program length when completed in normal time.
** https://www.bls.gov/ooh/computer-and-information-technology/information-security-analysts.htm#tab-1
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