CyberLock Access control systems & kits (50)
CyberLock CLP-100 USB programmer is designed primarily for use with a laptop computer to communicate with multiple locks in the field. It can download, update, and add new locks. The USB Programmer allows users to download locks if a key is lost or stolen, and update locks with lost key information.Add to Compare
CyberLock PP-01 PowerPort is a compact charger for use with all rechargeable CyberKey smart keys. One side of the PowerPort fits the tip of a CyberKey; the other side of the PowerPort fits any standard USB port. The PowerPort is designed to work with off-the-shelf USB wall chargers and car chargers. However, it will also charge a CyberKey from most USB ports on desktops or laptops.Add to Compare
CyberLock CyberKey Vault 20 FX are beneficial for users who want to automate the process of checking in and out keys. The management software, CyberAudit-Web, tracks when a CyberKey is dispensed and when it is returned to a vault. Upon return, the vault downloads the key’s audit trail and reverts it to an unprogrammed state making it available for the next user. All vault and key activity is managed by CyberAudit-Web software and can be viewed by system administrators.Add to Compare
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Recent cyber-attacks have disabled and even shut down physical assets. Robust foundational security and training staff, able to recognise an attack can help mitigate the threat, as ABB’s Rob Putman explains. Edge devices and data analytics As cyber security specialists, we must navigate an ever-changing threat landscape, one that is made even more complex by the increased interconnectivity between Operational Technology (OT) and Information Technology (IT), as companies look to leverage edge devices and data analytics, as well as remote connectivity, in the wake of the COVID-19 pandemic. As the threat surface evolves, the industry must guard against attacks on key physical infrastructure, carried out by a range of malicious actors, including nation states and criminals intent on blackmail. The chemicals sector, a high-value target for cyber-criminals Cyber-criminals view the chemicals sector, as a high-value target, because of the potential cost In 2017, not long after a ransomware attack that targeted Maersk, the world’s largest shipping firm, made the news around the world. Another cyber-attack, this time targeting physical industrial assets, generated fewer headlines, and yet could have resulted in both real, as well as financial, damage. Cyber-criminals view the chemicals sector, as a high-value target, because of the potential cost, both financial and reputational, to the operator, should production be interrupted or stopped entirely. Cyber security vulnerabilities put physical assets at risk The attack in question, a ‘Triton’ custom malware attack on a petro-chemical facility in Saudi Arabia, targeted a safety system, taking over system controllers. Bugs in the code triggered an emergency shutdown, but could have led to the release of toxic and explosive gases. It was a vivid reminder of how cyber security vulnerabilities are increasingly putting companies’ key physical assets at risk. Two more-recent high-profile incidents illustrate my point. In February, a Florida water treatment plant was hacked. The malicious actor remotely accessed the system for three to five minutes, during which time they opened various functions on the screen, including one that controls the amount of sodium hydroxide (NaOH) in the water. The hacker changed the NaOH from about 100 parts per million to 11,100 parts per million, which could have resulted in a mass poisoning event. Colonial Pipeline cyber-attack incident Then, in May, the Colonial Pipeline system that originates in Houston, Texas and carries gasoline, and jet fuel, suffered a ransomware attack. Using a VPN, hackers targeted back-office IT systems, forcing Colonial to shut down IT hosts and network infrastructure, severing communication with those OT systems that are responsible for communicating ‘transactional data’ associated with fuel delivery. In this instance, a single compromised password disrupted Colonial’s ability to invoice its customers. This dependency on OT data stopped pipeline and business operations, and the company was elected to pay the hackers an initial ransom of US$ 4.4 million, in order to restore operations. The Colonial attack was multi-dimensional, in that it not only impacted Colonial’s business, but also the wider US economy and national security, since the pipeline transports nearly half of the east coast's fuel supplies. Outdated IT system elevates physical risk The increased interconnectivity between IT and OT can also create vulnerabilit Attacks such as these prove that, armed with little more than a laptop, an email account and access to the dark web, determined hackers can cause disproportionate damage to physical infrastructure. As mentioned at the outset, the increased interconnectivity between IT and OT can also create vulnerability. Producers often want to know: Is it risky to connect a production asset or their operational environment to the Cloud? My answer is, if you do so without having done any risk audits around people, processes and technology, or without enhancing and maintaining that environment, then yes, that is risky. For example, we often observe that the life cycle of a production asset far outlasts the IT systems that are used to run it. Take a cement kiln. Several generations of plant operators may have come and gone, but that asset may still run, using legacy software, such as Windows XP and why not? Need to replace aging distributed control systems Well, that’s fine, if you are not concerned about having that asset compromised, and all that entails. A ‘flat’ IT network, an aging distributed control system, and machines with legacy versions of Microsoft Windows, all these elements, which are still commonplace in many industries, make it much easier for attackers to find and infiltrate a company, without needing sophisticated tools. The age-old mantra of not interfering with a piece of equipment or software that appears to be working, often applies to the individual assets. For example that cement kiln that are still controlled by the same Windows XP-based control software. However, if we’re honest, things have changed quite a bit, not because something was broken, but because innovation came in. That same kiln control system is most likely connected to other systems, than when first commissioned and that opens it to exposure to threats that it was never designed for. The human element There is a misconception that IoT-connected devices can open companies to risk There is a misconception that IoT-connected devices can open companies to risk, but many recent, high-profile cyber-attacks have been conducted from a laptop, by hacking someone’s VPN, or are a simple phishing/malware attack. In all these cases, the human element is partly to blame. Take the Florida attack. The compromised computer at the water treatment facility was reportedly running an outdated Windows 7 operating system and staff all used the same password, in order to gain remote access via the Teamviewer app, which the hacker was then able to use. Physical and human assets, key to robust cyber security Discussion on the best way to mitigate the threat is often framed solely around specific technical solutions and ignores the fact that robust foundational cyber security is really driven by two very different, but equally important, types of capital: physical assets (e.g. production machinery), and human assets. The truth is that smart digital software and industry-renowned cyber security applications, while critical, are in many cases, only as good as the weakest human link in the chain. Industry would, therefore, do well to ask itself the following question: Do we have a security problem, or a complacency problem? At this juncture, it is important to point out that the majority of companies that ABB works with, are at least aware of the threat posed by cyber attackers, and the potential impact of an attack, on their revenues, reputation and bottom line. User error and human-generated exposures Making sure staff are aware of the threat and training them to respond properly, if they are targeted, is vital However, user error and human-generated exposures are where most of these attacks occur. Those human failures are mostly not due to malicious intent from employees, but to the lack of training of the employees on secure behavior. Making sure staff are aware of the threat and training them to respond properly, if they are targeted, is vital. However, there are also age demographics at play here. Much of the operations employee base is heading towards retirement and often, there is no plan or ability to backfill these people. Need to invest in new digital and automated technologies If you think you don't have enough people now, in order to stay on top of basic care and feeding of the OT environment, with regards to security, what is that going to be like in 20 years? For this reason, there must be a major industry reset, when it comes to its workforce. Companies must invest in new digital and automated technologies, not only to ensure that they stay ahead of the curve and mitigate risk, but also to attract the next generation of digitally literate talent. Robust cyber security is built on solid foundations When we talk about foundational cyber security, we mean fundamentals, such as patching, malware protection, high-fidelity system backups, an up-to-date anti-virus system, and other options, such as application allow-listing and asset inventory. These basic controls can help companies understand their system setup and the potential threats, identify vulnerabilities, and assess their risk exposure. The Pareto principle states that around 80% of consequences come from 20% of the causes. In the context of cyber security, that means 80% of exposure to risk comes from 20% of the lack of security. If companies do the foundational things right, they can manage out a significant amount of this risk. Importance of maintaining and upgrading security controls However, having basic security controls, such as anti-virus software in place, is just the first step on that journey. Equally important is having someone within the organisation, with the requisite skill set, or the extra labour bandwidth, to operate, maintain and update those security controls, as they evolve. Educating, training and recruiting existing employees, and the next generation of talent, along with forging partnerships with trusted technology providers, will ensure that industry can leverage the latest digital technologies, in order to drive business value, and secure physical assets against cyber-attacks.
The COVID-19 pandemic is only accelerating the expansion of Automation, Robotics, Machine Learning (ML) and Artificial Intelligence (AI), and changing how people live their daily lives. This expansion leads the way with technologies that are developed to solve problems, improve operations, streamline processes and assist people, to focus on learning new skills, creativity, and imagination. Transformation of the physical security industry One of the latest industries to be permanently transformed is physical security. The era of utilising security cameras is slowly changing into more advanced and more efficient technological applications - security robotic solutions. SMP Robotics is a California-based company, which is a pioneer in developing robotic technologies, powered by AI, to assist, improve and deliver on new expectations in today’s world. One of their services is smart surveillance systems. This represents a proactive approach to security. The company, SMP Robotics’ Founder and Chief Executive Officer (CEO), Leo Ryzhenko, stated “Autonomous robotic technologies will become a driving force in future security solutions.” Robotics and AI in autonomous security solutions The robots can patrol 24/7, counteracting intrusion and communicating via voice message with guards The company uses robotics and AI technology to implement autonomous security solutions, which reduce liability and overhead, as well as improving the quality of services. Robotic guards are capable of patrolling all types of facilities, in both urban and rural contexts. The robots can patrol 24/7, counteracting intrusion and communicating via voice message with guards. The inspection robots, deployed by SMP Robotics, are easily integrated with many existing security technologies, armed with obstacle avoidance and anti-collision measures, automatically recharge, and can recognise faces up to 50 metres. As the world grows increasingly complex, technology like this is essential to ensure safety for all. AI-enabled autonomous video monitoring ground vehicles The advancements in technological breakthroughs of SMP Robotics position the company and its AI-powered, autonomous video monitoring ground vehicles, to be the most adaptable to any industry, cost-effective for clients’ business needs, in providing various types of services from public safety, crime prevention, to asset protection and physical security. SMP Robotics continues to implement new innovative solutions and groundbreaking technologies in its latest generation of autonomous models. Currently, many were already deployed or in a process to be delivered to a number of key clients, in various industries throughout the globe, from oil & gas, nuclear power plants to data centers, healthcare facilities, and amusement parks. Smart security robots Tal Turner, the Vice President (VP) of Business Development and Partnerships, SMP Robotics, said “We provide autonomous, artificial intelligence, all-weather, all-surface, smart security robots that are turnkey and operate independently on their own, using real-time obstacle avoidance, face recognition, and other cutting-edge technological advancements.” According to Coherent Market Insights, the Robots as a Service (RaaS) market direction will grow by 15.9% by 2028 and reach the threshold of 41.3 billion dollars. SMP Robotics stands at the forefront of the security robotic revolution, making an impactful change to make the world a safer place.
CyberLock, the supplier of key-centric access control solutions plans to unveil its newest CyberKey smart key at this year’s ISC West expo in March. CyberLock was the first to market with a Bluetooth enabled smart key in 2009. In 2017 CyberLock released the CyberKey Blue 2, which featured Bluetooth 4.2 technology. Improving upon the award winning CyberKey Blue 2, CyberLock has developed the CyberKey Blue 3, which gives users ultimate flexibility when it comes to updating their access permissions. The CyberKey Blue 3 was designed with a mobile workforce in mind. Precise access control features This latest Bluetooth-enabled CyberKey is an exceptionally powerful tool for controlling access to isolated sites and sprawling facilities. Blue 3 enhances system security by supporting temporary access and delayed activation, extending precise access control features to the most remote of locations. With CyberKey Blue 3, users can request access permissions within cellular range, cache the permissions within the CyberAudit Link app, and later activate their key outside of cellular range. CyberLock, Inc. will be exhibiting at ISC West 2020 in March. To learn more about the CyberKey Blue 3 or any of CyberLock’s other innovative products stop by booth #27117 at ISC West. With over 20 years of experience developing the CyberLock product line, CyberLock Inc. is a pioneer in access control.
In 2018 CyberLock released its most innovative software to date with CyberAudit-Web (CAW) 9.0. The innovation didn’t end with the launch of 9.0. CyberLock has continued adding to this release by adding a variety of software capabilities, many of which were spurred by customer requests. CyberLock is continually developing both hardware and software to enhance the customer experience. Granting special access CyberLock’s latest software innovation is CyberAudit-Web Connect, an app for iOS and Android that adds mobile convenience to monitoring a CyberAudit-Web system and granting special access to CyberLocks and doors. Using the login and password to their CAW system, an administrator may use CAW Connect to grant their current key holders temporary access to CyberLocks when needed. On systems with doors wired to Flex System hubs, the administrator may issue a request to open on a door, cancel or resume a hold-open schedule, or trigger a lockdown via an inter-hub signal. Also available in the CAW Connect App are audit trail records for individual people, CyberLocks, and doors visible to that administrator. To learn more about CyberLock visit their website or stop by booth #27117 at ISC West 2020 in Las Vegas.
Critical infrastructure facilities are vulnerable to many security challenges, from terrorism to natural disasters. Challenges also include vandalism, theft, employee identification and verification, access control, regulations, and the increasing infiltration of connectivity and the Internet of Things. In addition, many critical infrastructure facilities are housed in harsh and hazardous environments, which adds to the challenges to keep employees and facilities secure. The security risks facing a utility, telecom provider or other critical infrastructure facilities can have far-reaching consequences, including major disruption of core services. It’s essential to minimise the risk of any incidents that could disturb operations and lead to a loss of income or fines. Providing security to critical infrastructure often requires incorporating legacy systems, integrating siloed solutions and automating error-prone manual operations. Data capture form to appear here! Locks remain essential CLIQ locking system from ASSA ABLOY can simplify security and workflow for critical infrastructure entitiesAs a tool to address the complex security scenarios facing critical infrastructure, locks are indispensable. In critical infrastructure environments, locks are often required to be resistant to extreme temperatures, dust and toxic substances, fire and explosions. Locks must also perform in environments that are even more challenging, including rain and manipulation. Critical infrastructure facilities can benefit from a high-security locking system that combines electronic and mechanical security; in effect, providing an intelligent combination of both. CLIQ locking system from ASSA ABLOY can simplify security and workflow for critical infrastructure entities. With terrorism posing a serious threat, perimeter fencing, doors and their locks are the first line of defense against potential intruders at installations such as chemical and power plants, gas terminals, oil refineries, utilities, transport, hospitals, research facilities and other major areas which need controlled access. With terrorism posing a serious threat, perimeter fencing, doors and their locks are the first line of defense against potential intruders CyberLock smart keys CyberLock electromechanical lock cylinders and smart keys record access details of who opened, or attempted to open, every lock, providing critical information when investigating a security breach. In addition, CyberLock enables users to instantly add or delete electronic keys. This eliminates exposure due to lost or stolen keys, and also allows users to assign customised access privileges based on time, date, and authority level. CyberLock cylinders are designed to operate in a variety of applications where high security is required, such as entry gates, chemical feed areas, watersheds, and other water sources. The system’s electronic keys cannot be duplicated or copied, and can be deactivated if lost or stolen, thus reducing the risk of unauthorised entry. Key management solutions Traka has been a source of key management solutions, providing asset protection and process controlThe flexibility and protection of key management is another area of improvement that critical infrastructure companies are benefitting from. With multiple facilities sited at different locations, staff can quickly be granted authorisation to access keys with the press of a button, allowing supervisors to adjust their security based on the needs of the business. Because of the customisation ability, the use of key management systems is continuing to grow throughout the utility sectors as assets increase and varying levels of access management can be set through the system. Traka has been a source of key management solutions, providing asset protection and process control for the industry with smart cabinets and lockers integrated alongside efficient software.
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