LG IrisAccess 4000 - The iris recognition system that's a generation ahead of the rest
LG IrisAccess 4000 - The iris recognition system that's a generation ahead of the rest

LG IrisAccess 4000 is the third generation of the world's number one deployed iris recognition platform.  Offering increased application versatility and integration flexibility, enrolment and recognition is easier than ever.  Intuitive visual user interface enables users to quickly position themselves for enrolment or recognition as images of both eyes are captured virtually simultaneously.  Audio prompts improve speed of enrolment and recognition performance while motor-driven auto-tilt mechanism makes adjusting the camera for proper height a simple ‘one touch of a finger' proposition.  What's more, every model of the IrisAccess 4000 contains a camera supported by dedicated illumination that makes badging for credentialing a snap.When it comes to multi-factor authentication, IrisAccess 4000 is extraordinarily flexible.  iCAM4000 and iCAM4100 with optional device-embedded SmartCard readers from the world's leading card reader producers give IrisAccess the ability to function with HID iCLASS, DESFire, and MiFARE and CAC-compliant cards.  When a reader is present, a card icon placed on the casing indicates where the card should be placed for fast verification.  Card reader-equipped models of iCAM4000 and iCAM4100 are designated with a 10 suffix, so become 4010 and 4110 respectively.Multifactor authentication can also be delivered by the 16-element keypad that comes standard on the iCAM4100 unit.  The authentication options afforded by being able to configure iris authentication by left, right, either or both eyes plus a smartcard token, and in the case of the iCAM4100, a keypad, are simply unmatched by any other iris recognition offering on the market.iCAM4000/4010iCAM4000/4010 is compact, low profile and designed with architectural aesthetics in mind. It's kiosk-configurable, and can be flush or recessed mounted.  An iCAM4010-- with an embedded SmartCard reader provides more than multi-factor authentication.  Information residing on the card enhances human factors performance to prompt correct setting of the imager to an individual user's height.  An option that will prompt the card to trigger language for audio prompts, will make the system ideal for use in a multi-ethnic milieu, or in countries with more than one official language. iCAM4100/4110 The iCAM4100/4110(SmartCard-equipped, as described above) includes a keypad accepting up to 10 digit PINs affording an additional level of two-factor authentication.  Every iCAM4100 incorporates a 40-character LCD, making possible communication regarding authentication status.  It also fits well in human resource management applications, as upon identity authentication, keypad and display afford a means to exchange information about payroll, vacation days, shift-work, or other HR data etc.System Security FeaturesIrisAccess delivers security features and performance that set it apart from other iris recognition and most other biometric systems.  Safe storage, for example, means no biometric templates are stored on any external system components.  Experts concede that countermeasures built into LG IrisAccess set the standard for the industry and note in this area, many other biometric systems leave much to be desired. Security is also a key driver when it comes to software.  The LG iData software line for access control and a tool kit for building identity-dependent applications provides FIPS compliant encryption, and offers other alternatives, as well as PKI. Other System ComponentsIrisAccess 4000 System incorporates other system-designed elements.  A low profile IdentityController(ICU) offers easy greater integration convenience while ensuring that biometric templates are kept safe, protected and secure, off the imager.  The DoorController(DCU) is also available for use in stand-alone access control applications.The Advantage of Iris RecognitionThe physical or behavioural characteristics on which biometrics are based afford a more reliable basis for authentication than other easily compromised identity options relying on something one knows or carries.  There are more measurable characteristics in the iris, the visible coloured ring around the pupil, than in other biometrics.  Every human iris is unique.  Compared to other biometrics, iris recognition is the most accurate, fastest, and scalable option.  Iris patterns are also very stable. Barring trauma, an iris pattern will not change over time as characteristic measurements of finger, hand, voice or faces do.

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CIVINTEC uTouch: Programmable, general-purpose intelligent terminal
CIVINTEC uTouch: Programmable, general-purpose intelligent terminal

The CIVINTEC uTouch Android 5.1 quad-core is a programmable, general-purpose intelligent terminal. It comes with an SDK complete source code for third party systems integration, and a software developer to build innovative applications, such as time attendance, access control, visitor management, club/ membership management, e-payment and kiosk services. The risk of card cloning uTouch supports 125KHz & 13.56MHz smart card CSN or encrypted protected data from RFID smart cards utilising key diversification and mutual authentication routines, with one or more SAM for secure data encryption. Smart phones as ID credentials for door access uTouch supports BLE (Bluetooth Low Energy) and NFC technology ISO18092 NFC tags and NFC smart phones in Peer to Peer mode to work with all brands of smart phone to build effective keyless mobile applications. An adjustable reading distance between the smart phone and the door is ideal to account for different door opening solutions. Network management & data transmission The TCP/IP integrated terminal connects directly to the IP network for an easy and low-cost network system, while 4G and Wi-Fi make it flexible for wired or wireless communication for different situations. Based on Android O.S. 5.1 and embedded 1.4GHz quad-core processor, the highly sensitive capacitive touch screen offers a faster, more efficient, intuitive and comfortable self-service and user experience. The battery and PoE function ensure stable working operation during power failure and it also utilises PoE-enhanced stability for low-cost installation.  CIVINTEC demonstrated uTouch, along with the full range of CIVINTEC solutions, at IFSEC International 2017.

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Access control systems & kits - Expert commentary

Trends of 2019 to watch out for: The connected system and commercial security
Trends of 2019 to watch out for: The connected system and commercial security

Users of security systems have long been willing to sacrifice certain aspects of security in favour of convenience and ease of use. The tide seems to be turning, however, with the industry at large showing significant concerns over cyber security. End user sentiments also seem to be following that trend, becoming more cautious when it comes to having their security systems connected to the internet. While it has become the norm for security systems to be accessible online, still it presents security threats that unconnected systems would not face. In 2018, we saw a notable shift from the convenience of a connected system to the less convenient, but more secure, standalone system. Consumers are willingly making the choice to trade convenience for security, and companies are responding. While cyber security concerns will continue to be a big topic of discussion, connected platforms will probably be the trend of 2019This in turn is driving an increase in more IoT-like deployments. Rather than the traditional client that is connected to a device to retrieve information, more often we are seeing more active devices, capable of reporting their presence and transmitting information on a scheduled basis, without the need for a client. Preventing security systems from outside threats This changes the dynamic of the network and alleviates many threats associated with traditional systems because there is no opportunity for outside threats to access your system since the device is transmitting information out vs requiring a connection to the outside world. With IoT deployments, when the device is active and sending messages out of the network segment, it is not vulnerable in the same way that the traditional systems are. While cyber security concerns will continue to be a big topic of discussion, connected platforms will probably be the trend of 2019. In 2018, we saw an increased acceptance in the residential market for smart home applications. While this has been an area of discussion for the past ten years, it is now gaining real traction. With artificial intelligent capabilities in tow, smart home deployments are more common than ever and the video analytics that accompany them are quite impressive. Cloud security for the commercial sector If consumers are trusting their home security systems with this, it only makes sense that they will begin trusting Google to provide security for their offices as wellIn addition to the residential market, connected platforms will likely start to impact the commercial space as well. The border between consumer and commercial user will become a little more blurred. Companies such as Google that cater primarily to home services have cloud capabilities beyond the means of many competitors, in turn giving them a favourable advantage to provide security for the cloud. If consumers are trusting their home security systems with this, it only makes sense that they will begin trusting Google to provide security for their offices as well. As far as ONVIF is concerned, we are excited to see how the market will adopt the newly released Profile T for advanced video streaming in the coming year. We are also excited to explore our relationship with the International Electrotechnical Commission (IEC), by continuing our work on giving devices the ability to communicate upwards and proactively. It is clear that the market is open to adopting models in the quest for more efficiency without sacrificing security.

Beyond cyber security: Why physical security must be a key element of data protection
Beyond cyber security: Why physical security must be a key element of data protection

Edward Snowden’s name entered the cultural lexicon in 2013, after he leaked thousands of classified National Security Agency documents to journalists. He’s been variously called a traitor, a patriot, a revolutionary, a dissident and a whistleblower, but however you personally feel about him, there’s one way to categorise him that no one can dispute: He’s a thief. There’s no doubt about it: Snowden’s information didn’t belong to him, and the scary truth is that he is neither the first nor the last employee to attempt to smuggle secrets out of a building – and we need to learn from his success to try to prevent it from happening again. Since the dawn of the digital age, we’ve fought cyber pirates with tools like firewalls, encryption, strong passwords, antivirus software and white-hat hackers. But with so much attention on protecting against cyber risks, we sometimes forget about the other side of the coin: the risk that data will be physically removed from the building. Douglas Miorandi, director of federal programs, counter-terrorism and physical data security for Metrasens, recently discussed the major risks to physical data security with SourceSecurity.com. Q: What do you believe are the main physical threats to data? The biggest threats I have seen in the physical data security space have varied over the years, but there are four specific risks that remain the same across the board for any organisation, which are: Every organisation is at risk of having data walk out the building with that employee The Insider Threat The Outsider Threat The Seemingly Innocent Personal Item Poor or Nonexistent Screening To beginning with, every company or government agency has at least one disgruntled employee working for them, whether they know it or not, and that means every organisation is at risk of having data walk out the building with that employee. That is what security experts call the insider threat. Q: What do you think influences employees to steal data from their own organisation? People steal data from their workplaces because they see some means to an end, whether it’s to expose something embarrassing or damaging due to a personal vendetta, or because they can sell it to a competitor or the media and benefit financially – meaning they don’t even need to be disgruntled; they might just want a quick way to make a buck. Financial data, too, is attractive, both for insider trading and selling to the competition. People steal data from their workplaces because they see some means to an end, whether it’s to expose something embarrassing or damaging due to a personal vendetta, or because they can sell it to a competitor or the media and benefit financially This can happen to both private companies as well as government agencies. Take Natalie Mayflower Sours Edwards for example, a Treasury Department employee who was caught in the act just last month, when she disclosed sensitive government information about figures connected to the Russia investigation to a reporter. She didn’t hack the system, she simply used a flash drive. And let’s not forget that Snowden was a contractor working for the NSA. Q: Many of us think of security threats coming from an outsider, do companies still face these type of threats? Yes. Unfortunately, organisations do not only need to worry about their own employees – companies and government agencies need to be wary of threats from outsiders. COTS devices include SD cards, external hard drives, audio recorders and even smart phones They can come in the form of the corporate spy – someone specifically hired to pose as a legitimate employee or private contractor in order to extract information – or the opportunistic thief – a contractor hired to work on a server or in sensitive areas who sees an opening and seizes it. Either one is equally damaging to sensitive data because of the physical access they have. Q: Whether it be an insider threat or an outsider threat, what are ways these individuals can steal sensitive data?  There are two types of personal items that can be used to steal data: the commercially available off-the-shelf (COTS) variety, and the intentionally disguised variety. This is considered risk number three – the seemingly innocent personal item. COTS devices include SD cards, external hard drives, audio recorders and even smart phones, any of which can be used to transport audio, video and computer data in and out of a building. Intentionally disguised devices are straight out of the spy novel; they could be a recording device that looks like a car key fob, or a coffee mug with a USB drive hidden in a false bottom. Intentionally disguised devices are straight out of the spy novel; they could be a recording device that looks like a car key fob, or a coffee mug with a USB drive hidden in a false bottom Q: What is the difference between COTS and disguised devices? The difference between COTS and disguised devices is that if someone gets caught with a COTS device, security will know what it is and can confiscate it. The disguised device looks like a security-approved item anyone could be carrying into the workplace, making it especially devious. Sometimes these devices don’t just function to bring information out of a building; they are used to damage a server or hard drive once it’s plugged in to a computer or the network. Some are both – a recording device that extracts data and then destroys the hard drive.  Companies with airtight cyber security protocols can sometimes fall down when it comes to physically screening peopleQ: With these types of discrete items, can security personnel still catch individuals in the act? For example, through security screenings?  Poor or nonexistent screening is the most substantial security threat to any organisation when it comes to sensitive data. Whether it’s an employee, an outside contractor or a device, the physical security risks are real, and everyone and everything entering and leaving a building needs to be screened. Unfortunately, screening often isn’t occurring at all, or is ineffective or inconsistent when it does occur. Even companies with airtight cyber security protocols can sometimes fall down when it comes to physically screening people and stopping them from stealing data through recording devices. Q: It’s surprising that so many organisations would neglect physical security when protecting their data. It’s a huge mistake, and the consequences can be dire. They range from loss of customer trust, exorbitant lawsuits and tanking stock prices in the private sector; and risks to national security in the public sector. Costs and resource allocation increase as well during efforts to reactively fix or mitigate the effects of physically stolen data. For both the private and public sectors, the risk for data to be physically removed from a building has never been greater. Years ago, it was much harder for the average Joe to figure out where they could sell stolen data. Now, with the Deep Web, anyone with Tor can access forums requesting specific information from competing spy agencies, with instructions on how to deliver it, greatly reducing the risk of getting caught – and increasing the likelihood people will try it. Although it’s getting easier to sell data, the good news is that all of these threats are avoidable with the right measures. Physical data security and cybersecurity must be considered the yin and yang of an airtight policy that effectively protects sensitive or confidential assets from a malicious attack Q: So how can an organisation protect against these risks? There are a number of ways – and the first one requires a change of mindset. Not long ago, the building/physical security department and the IT/cybersecurity department were considered two different entities within an organisation, with little overlap or communication. Organisations now are realising that, because of the level of risk they face from both internal and external threats, they must take a holistic approach to data security. Physical data security and cybersecurity must be considered the yin and yang of an airtight policy that effectively protects sensitive or confidential assets from a malicious attack. Q: How can companies and government agencies combine both physical data security and cybersecurity initiatives? Physical security managers can advise cybersecurity managers on ways to reinforce their protocols – perhaps by implementing the newest surveillance cameras in sensitive areas, or removing ports on servers so that external drives cannot be used. Organisations need to create an effective program and ensure it stays effective so people know it’s not worth the hassle to try In turn, the cybersecurity team can let the physical security team know that they have outside contractors coming in to work on the server, and the physical security team can escort the contractors in and stand guard as they work. Constant communication and a symbiotic relationship between the two departments are crucial to creating an effective holistic security protocol and, once you’ve got the momentum going, don’t let it slow down. Sometimes efforts start off strong and then peter out if priorities change. When guards are down, it’s an excellent time for a malicious actor to strike. Organisations need to create an effective program and ensure it stays effective so people know it’s not worth the hassle to try. It’s not just about the mentality, though. Using the right technology is just as important. Q: What type of technology can you use to protect physical data? Many problems can be avoided by simply using the right technology to detect devices that bring threats in and carry proprietary information out. Electronics such as hard drives, cell phones, smart watches, SD cards and recording devices have a magnetic signature because of the ferrous metals inside them. Using a ferromagnetic detection system (FMDS) as people enter and exit a building or restricted area means that anything down to a small microSD card triggers an alert, allowing confiscation or further action as needed. Electronics such as hard drives, cell phones, smart watches, SD cards and recording devices have a magnetic signature because of the ferrous metals inside them Q: How does FMDS work? In the most basic terms, FMDS uses passive sensors that evaluate disturbances in the earth’s magnetic field made by something magnetic moving through its detection zone. Nothing can be used to shield the threat, because FMDS doesn’t detect metallic mass; it detects the magnetic signature, down to a millionth of the earth’s magnetic field. FMDS is the most reliable method of finding small electronics items and should be part of the “trust, but verify” model Although it is a passive technology, it is more effective and reliable than using hand wands or the walk-through metal detectors typically seen in an airport, which cannot detect very small ferrous metal objects. FMDS can see through body tissue and liquids, so items cannot be concealed anywhere on a person or with their belongings. Whether or not the items are turned on doesn’t matter; FMDS doesn’t work by detecting a signal, but rather by spotting the magnetic signature that electronics contain. This is ideal, because most recording devices do not emit any signal whatsoever. In my experience, FMDS is the most reliable method of finding small electronics items (as well as other ferrous metal objects, like weapons), and should be part of the “trust, but verify” model, in which companies assume the best of their employees and anyone else entering the building, but still take necessary precautions. Q: What are the key takeaways for organisations looking to enhance data security? The toughest challenge in the security sector – whether it’s cyber or physical – is remembering that the bad guys are constantly looking for ways to slip in through the cracks, and security departments need to stay one step ahead to ward off both internal and external threats. Recognising the existing threats, putting together a holistic security strategy, and using the right technology to detect illicit devices comprises an effective three-pronged approach to protecting an organisation’s data. Organisations cannot afford to be passive about security and assume employees won’t steal data and spies won’t sneak in. Strong countermeasures are necessary because data loss can come from both inside and outside, in both private and public sectors, from places not everyone thinks of – and with technology like FMDS acting as a backup to the human element, organisations can lock down their data and keep the wolves in sheep’s clothing from getting through the door.

Watching trends in real-time: SourceSecurity's top 10 click-worthy articles posted in 2018
Watching trends in real-time: SourceSecurity's top 10 click-worthy articles posted in 2018

Timely and important issues in the security marketplace dominated our list of most-clicked-upon articles in 2018. Looking back at the top articles of the year provides a decent summary of how our industry evolved this year, and even offers clues to where we’re headed in 2019. In the world of digital publishing, it’s easy to know what content resonates with the security market: Our readers tell us with their actions; i.e., where they click. Let’s look back at the Top 10 articles we posted in 2018 that generated the most page views. They are listed in order here with a brief excerpt. 1. U.S. President Signs Government Ban on Hikvision and Dahua Video Surveillance The ban on government uses, which takes effect ‘not later than one year after … enactment,’ applies not only to future uses of Dahua and Hikvision equipment but also to legacy installations. The bill calls for an assessment of the current presence of the banned technologies and development of a ‘phase-out plan’ to eliminate the equipment from government uses. 2. Motorola Makes a Splash with Avigilon Video Surveillance Acquisition Early clues point to Motorola positioning Avigilon as part of a broader solution, especially in the municipal/safe cities market. The company says the acquisition will enable more safe cities projects and more public-private partnerships between local communities and law enforcement. Motorola sees Avigilon as ‘a natural extension to global public safety and U.S. federal and military’ applications, according to the company. 3. Impact of Data-Driven Smart Cities on Video Surveillance One of the major areas of technology that is going to shift how we interact with our cities is the Internet of Things (IoT). One benefit will be the ability to use video surveillance to analyse data on large crowds at sporting events The IoT already accounts for swaths of technology and devices operating in the background. However, we’re increasingly seeing these come to the forefront of everyday life, as data becomes increasingly critical. Bosch is highlighting its “Simply. Connected” portfolio of smart city technology to transform security as well as urban mobility, air quality and energy efficiency 4. CES 2018: Security Technologies Influencing the Consumer Electronics Market Familiar players at security shows also have a presence at the Consumer Electronics Show (CES). For example, Bosch is highlighting its “Simply. Connected” portfolio of smart city technology to transform security as well as urban mobility, air quality and energy efficiency. Many consumer technologies on display offer a glimpse of what’s ahead for security. Are Panasonic’s 4K OLEDs with HDR10+ format or Sony’s A8F OLED televisions a preview of the future of security control room monitors? 5. SIA Predicts Top Physical Security Trends for 2018 Traditional security providers will focus more on deepening the customer experience and enhancing convenience and service. The rise of IoT also places an emphasis on cybersecurity, and security dealers will react by seeking manufacturers and technology partners with cyber-hardened network-connected devices. 6. High-Speed Visitor Screening Systems Will Improve Soft Target Security The system is more expensive than a metal detector, but about a third the cost of familiar airport body scanners. Labor reduction (because of faster throughput) can help offset the system costs, but “it’s difficult to quantify the improvement in the visitor experience,” says Mike Ellenbogen, CEO of Evolv Technology. 7. How to Prevent ATM Jackpotting with Physical and Cyber Security A new crime wave is hitting automated teller machines (ATMs); the common banking appliances are being rigged to spit out their entire cash supplies into a criminal’s waiting hands. The crime is called “ATM jackpotting” and has targeted banking machines located in grocery shops, pharmacies and other locations in Taiwan, Europe, Latin America and, in the last several months, the United States. Rough estimates place the total amount of global losses at up to $60 million. The safety and security world bring a complex problem to solve- how to pick out a face in a moving and changing environment and compare it to several faces of interest 8. Why We Need to Look Beyond Technology for Smart City Security Solutions Although technology is necessary for an urban area to transition in to a safe and smart city, technology alone isn’t sufficient. Truly smart cities are savvy cities and that includes how they employ software, sensing, communications and other technologies to meet their needs. 9. How New Video Surveillance Technology Boosts Airport Security and Operations Employing airport security solutions is a complex situation with myriad government, state and local rules and regulations that need to be addressed while ensuring the comfort needs of passengers. Airport security is further challenged with improving and increasing operational efficiencies, as budgets are always an issue. As an example, security and operational data must be easily shared with other airport departments and local agencies such as police, customs, emergency response and airport operations to drive a more proactive approach across the organisation. 10. The Evolution of Facial Recognition from Body-Cams to Video Surveillance The safety and security world bring a complex problem to solve how to pick out a face in a moving and changing environment and compare it to several faces of interest. “One-to-many” facial recognition is a much harder problem to solve.