The year 2017 wasn’t a great year for cyber-security; we saw a large number of high-profile cyberattacks; including Uber, Deloitte, Equifax and the now infamous WannaCry ransomware attack, and 2018 started with a bang too with the hacking of Winter Olympics. The frightening truth about increasingly cyber-attacks is that most businesses and the cybersecurity industry itself are not prepared. Despite the constant flow of security updates and patches, the number of attacks continues to rise.
Closing ceremony to conclude the Olympic Winter Games PyeongChang 2018 has come to an end after 17 days of thrilling competitions and exciting performance. Thank you so much for all of you who have made the #PyeongChang2018 together with us. 전 세계의 관심과 환호 속에 17일 간의 대장정을 마무리한 2018 평창 동계올림픽. 우리의 #2018평창 동계올림픽이 성공적으로 끝날 수 있도록 함께해주신 여러분, 진심으로 감사합니다. ________ #PyeongChang2018 #PyeongChang #Olympics #WinterGames #2018평창 #평창 #올림픽 #동계올림픽 #감사합니다
Beyond the lack of preparedness on the business level, the cybersecurity workforce itself is also having an incredibly hard time keeping up with demand. By 2021, there are estimated to be an astounding 3.5 million unfilled cybersecurity positions worldwide, the current staff is overworked with an average of 52 hours a week, not an ideal situation to keep up with non-stop threats.
New AI algorithms use Machine Learning (ML) to adapt over time, and make it easier to respond to cybersecurity risks. However, new generations of malware and cyber-attacks can be difficult to detect with conventional cybersecurity protocols. They evolve over time, so more dynamic approaches are necessary.
Another great benefit of AI systems in cybersecurity is that they will free up an enormous amount of time for tech employees. Another way AI systems can help is by categorizing attacks based on threat level. While there’s still a fair amount of work to be done here, but when machine learning principles are incorporated into your systems, they can actually adapt over time, giving you a dynamic edge over cyber criminals.
Unfortunately, there will always be limits of AI, and human-machine teams will be the key to solving increasingly complex cybersecurity challenges. But as our models become effective at detecting threats, bad actors will look for ways to confuse the models. It’s a field called adversarial machine learning, or adversarial AI.
Four Fundamental Security Practices
With all the hype surrounding AI we tend to overlook a very important fact. The best defense against a potential AI cyber-attack is rooted in maintaining a fundamental security posture that incorporates continuous monitoring, user education, diligent patch management and basic configuration controls to address vulnerabilities. All explained below:
1. Identifying the Patterns
AI is all about patterns. Hackers, for example, look for patterns in server and firewall configurations, use of outdated operating systems, user actions and response tactics and more. These patterns give them information about network vulnerabilities they can exploit.
Network administrators also look for patterns. In addition to scanning for patterns in the way hackers attempt intrusions, they are trying to identify potential anomalies like spikes in network traffic, irregular types of network traffic, unauthorized user logins and other red flags.
By collecting data and monitoring the state of their network under normal operating conditions, administrators can set up their systems to automatically detect when something unusual takes place — a suspicious network login, for example, or access through a known bad IP. This fundamental security approach has worked extraordinarily well in preventing more traditional types of attacks, such as malware or phishing. It can also be used very effectively in deterring AI-enabled threats.
2. Educating the Users
An organization could have the best monitoring systems in the world, but the work they do can all be undermined by a single employee clicking on the wrong email. Social engineering continues to be a large security challenge for businesses because workers easily can be tricked into clicking on suspicious attachments, emails and links.
Educating users on what not to do is just as important as putting security safeguards in place. Experts agree that routine user testing reinforces training. Agencies must also develop plans that require all employees to understand their individual roles in the battle for better security. And don’t forget a response and recovery plan, so everyone knows what to do and expect when a breach occurs. Test these plans for effectiveness. Don’t wait for an exploit to find a hole in the process.
3. Patching the Holes
Hackers know when a patch is released, and in addition to trying to find a way around that patch, they will not hesitate to test if an agency has implemented the fix. Not applying patches opens the door to potential attacks — and if the hacker is using AI, those attacks can come much faster and be even more insidious.
4. Checking Off the Controls
The Center for Internet Security (CIS) has issued a set of controls designed to provide agencies with a checklist for better security implementations. While there are 20 actions in total, implementing at least the top five — device inventories, software tracking, security configurations, vulnerability assessments and control of administrative privileges — can eliminate roughly 85 percent of an organization’s vulnerabilities. All of these practices — monitoring, user education, patch management and adherence to CIS controls — can help agencies fortify themselves against even the most sophisticated AI attacks.
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