The coronavirus pandemic has triggered an unprecedented chain reaction of border closures around the world. This truly is an extraordinary situation, and many countries have also grappled with lack of information, resources and coordination between relevant agents and authorities. These operational issues have raised questions globally about whether border controls are effective in containing such outbreaks, how prepared border agencies were for the emergency and what this will mean for border management in a post-pandemic world.
I was chatting with a chief information security officer (CISO) recently, and we started talking about motivation and the role of love and hate in driving ourselves towards our goals. In cybersecurity, we tend to think about external opponents, most notably white hats vs. black hats, but rarely discuss the internal factors that guide our day-to-day decisions. Humans are dynamic beings that aren’t driven solely by love or hate (despite what the chatter on social media may have you believe). We do, however, have predilections based on our personalities and environment. How we choose to deal with those influences shapes who we become. A good strategy is a combination of love and hate where organizations work towards a grand vision of their future while eliminating things they hate one after the other.
In 2019, Business Email Compromise (BEC) attacks – a long-standing cybersecurity threat – accounted for $1.7 billion in losses, with cybercriminals using new tactics and techniques to carry out existing attacks. As cybercrime spikes in the wake of COVID-19, BEC’s toll is expected to rise this year. The Federal Bureau of Investigation (FBI) recently issued a warning to businesses on the growing threat of BEC attacks using the pandemic as a backdrop for unusual requests like payments to a “new” vendor or a change of account information.
Application programming interfaces (APIs) make everything a bit easier - from data sharing to system connectivity to delivery of critical features and functionality - but they also make it much easier for the bad actors (and the bad bots they deploy). Here are the top 5 API vulnerabilities that get exploited by hackers, including some tips to help close those gaps.
Why do organizations find it challenging to respond to social engineering incidents and how they can better defend against them? We talk to Daniel Wood, CISSP, GPEN, Associate Vice President of Consulting at Bishop Fox, to find out.
While the burgeoning world of IoT has transformed the ways in which we live and work, the world of IoT has also caught the attention of cybercriminals. As IoT devices become increasingly more advanced, hackers have simultaneously become more sophisticated in their attacks, often targeting pre-existing security loopholes to gain access to company systems.
In part 1 of this series, we covered why Distributed Internet of Things devices are attractive and vulnerable targets for cyber criminals and hackers. Now we turn our attention to strategies for protecting these devices, which in turn, helps to protect your entire network.
Network administrators have long been stretched thin in their attempts to maintain global endpoint security settings, configurations and patching. Now that most, if not all, of their organization’s employees are connecting remotely, the job has become even more difficult.
We talk to Richard Bird, Ping Identity's Chief Customer Information Officer (CCIO), about how prepared the U.S. Government is for the 2020 Presidential Election.
The Internet of Things (IoT) is transforming our homes, businesses and public spaces – mostly for the better – but without proper precautions IoT devices can be an attractive target for malicious actors and cyberattacks. Security threats involving IoT devices often stem from the fact that many IoT devices usually have single-purpose designs and may lack broader capabilities to defend themselves in a hostile environment. For example, a door bell, a toaster or a washing machine frequently do not contain as much storage, memory and processing capability as a typical laptop computer.