HID Global Extends Options For Migrating To High-frequency Access-control Readers And Credentials
HID Global Extends Options For Migrating To High-frequency Access-control Readers And Credentials

HID Global is offering new access-control readers and credentials that provide the industry's most extensive options for migrating from legacy solutions to higher-security 13.56 MHz contactless technologies. HID readers can be used with an extensive array of single- and combination-technology cards including its industry-first dual-high frequency (HF) credential. They extend the Genuine HID™ value proposition by giving customers the industry's largest selection of reader and credential migration solutions.HID's expanded migration offering includes: An iCLASS® reader for migration from MIFARE® Classic to secure 13.56 MHz MIFARE DESFire® EV1 and HID iCLASS contactless technology; New multiCLASS® readers for migration from legacy magnetic stripe (magstripe) and 125 kHz proximity card technology to higher-security MHz HID iCLASS contactless technology; and The industry's first dual-HF credential, which bridges the gap between legacy solutions and secure iCLASS and MIFARE DESFire EV1 contactless technologies, expanding customer options for deploying the highest levels of security, while maximizing the value of their credential investment by enabling multiple applications on a single card. Product details  iCLASS high-frequency migration reader: HID's proven and widely deployed iCLASS reader line has now been extended to enable migration from MIFARE Classic technology to secure 13.56 MHz technologies for improved security, performance and data integrity, or to support multiple applications with a single credential that can also be used as a photo-ready identity badge. iCLASS readers are also available in configurations that provide compatibility with a wide scope of card technologies including: Dutch Government Rijkspas; 125 kHz proximity technologies such as HID Prox and IndalaProx; legacy technologies such as Wiegand and magnetic stripe; and other technologies including EM4102 Prox, AWID Prox, US Government FIPS 201, Sony FeliCa Transit, Singapore CEPAS Transit, Magstripe and ISO 14443/15693 card serial numbers. multiCLASS migration readers: The RM40 and RMP40 are new, non-keypad versions of the company's RMK40 and RMPK40 readers for Magstripe-to-iCLASS and Magstripe- and Prox-to-iCLASS migration, respectively, which were introduced earlier this year. They provide customers with the most cost-effective solution for seamlessly upgrading from legacy reader technology to contactless smart card capabilities. The readers support ANSI/ISO 7811 magstripe data conversion or pass-through configuration in combination with HID Prox and popular 13.56 MHz contactless access control technologies including iCLASS credentials. Dual-HF credentials: HID's iCLASS/MIFARE Classic, iCLASS/MIFARE DESFire EV1, and MIFARE Classic/MIFARE DESFire EV1 credentials make it easy to move from legacy solutions to secure contactless technologies over time, across multiple facilities, or within subsets of a larger cardholder base. The dual-HF credentials use advanced radio frequency (RF) engineering to combine iCLASS with MIFARE or MIFARE DESFire EV1 technologies, or to combine MIFARE Classic with MIFARE DESFire EV1 technology. The technologies are embeddable with a contact chip, and can also optionally be combined with HID Prox technology. They enable users to combine access control on a single credential with other applications including secure network, print authentication, time and attendance, digital cash and vending, transit passes, and equipment and material check-out.  

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HID Global Has Created A New Reader/enroller, The BioCLASS™ RKLB57
HID Global Has Created A New Reader/enroller, The BioCLASS™ RKLB57

The new HID bioCLASS™ RKLB57 is a read-only, contactless smart card reader (operating with 13.56Mhz iClass technology) with a keypad and biometric sensor that provides access control verification and fingerprint enrolment all in one reader. It provides three levels of security, including card/biometric fingerprint, card/PIN and card/fingerprint/PIN.There are several reasons to make the bioCLASS™ RKLB57 the perfect choice for your next security project: Save on space and cost - Does not require separate enrolment space or enrolment readers.Increased convenience - Utilize dual-purpose field enrolment readers for enrolment and access. Enrolment can be performed anywhere you decide to place an enrolment reader, not just on one or two computer stations in a badging office.Simplifies the enrolment process - Easy-to-use field enrolment reader and short instruction sheet allows any administrator to learn the enrolment process in a matter of minutes. Additionally, it comes with multilingual quick start guide (choose from 9 languages).Simplifies the purchasing process - Single unit (enroller, reader or reader/enroller) can be easily installed, field-configured and customized, including language selection, to meet the users needs.Simplified support - All functions are contained within one reader, which makes the bioCLASS field enroller easier to support.Supports Elite Enrolment - The field enroller is designed to support HID's iCLASS® Elite Program™ to provide the highest level of security.The bioCLASS™ family also includes the bioCLASS RWKLB575 reader/writer with keypad and biometric sensor that provides access control verification, in addition to host-controlled read/write to iCLASS smart cards.

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HID Releases The Industry’s First Self-contained Long Range Contactless Smart Card Reader
HID Releases The Industry’s First Self-contained Long Range Contactless Smart Card Reader

HID Corporation, the premier manufacturer of contactless access control cards and readers for the security industry, has released the industry’s first, self-contained long range contactless smart card reader that meets multiple international regulatory requirements.  The R90 is ideal for installations incorporating parking and long read range applications with access control and represents an expansion of HID’s iCLASS® 13.56 MHz contactless smart card reader family.  The R90 combines a longer read range with enhanced security through encryption and mutual authentication standard with HID iCLASS 13.56 MHz contactless smart card products.  International regulatory standards and certifications include CE Mark (Europe), and c-Tick (Australia) and FCC (United States).With read range distances up to 45 centimetres or 18 inches, the R90 comes complete with auto- tuning enabling more consistent read ranges and a “Parking Hold” function that allows connection to a loop detector to ensure accurate detection of vehicles in parking lanes.  Featuring a tamper switch, all electronics are packaged in a single, rugged, indoor/outdoor, easy-to-install housing that mounts on metal with minimal read range impact.  In addition, two R90s can operate simultaneously at one metre apart for “HI-LO” truck and car installations.  Audio indicators include tone sequences to signify access granted, access denied, power up and diagnostics, while a multicolour LED flashes from red to green with a beeper sound when a valid card is presented to the reader.The R90 read-only contactless smart card long range reader is based on a 13.56 MHz technology platform that meets the ISO 15693 standard and includes a highly secure, 64-bit diversified key format for mutual authentication.  The R90 Long Range Reader is programmable with a command card, enabling it to be field-configurable and customizable.  The R90 reads HID iCLASS 13.56 MHz contactless smart cards, any ISO 15693 card serial number (CSN) and is compatible with industry standard Wiegand protocol access control panels.  The R90 is mountable indoors or out, includes a factory or field-configurable LED and speaker for the visually and hearing impaired, and to signify status, power up and diagnostics.  The R90 measures 30.48 x 30.48 x 3.18 centimetres (12 x 12 x 1.25 inches) and comes with a lifetime warranty.The iCLASS contactless smart card readers are available from HID’s network of distributors, OEMs, and system integrators worldwide.    

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Access control readers - Expert commentary

Wireless Technology Is Transforming Motion Detection
Wireless Technology Is Transforming Motion Detection

Motion detection is a key feature of security systems in residential and commercial environments. Until recently, systems have relied heavily on closed circuit television (CCTV) and passive infrared (PIR) sensors, which both require significant investment and infrastructure to install and monitor. Developments in wireless technology are increasing home security possibilities. Few years ago, these developments led Cognitive Systems to discover that the wireless signals surrounding oneself can be used to detect motion. Known in the wireless industry as WiFi sensing, this technology brings many benefits that other motion detection solutions have not been able to provide. The working of WiFi sensing At Cognitive Systems, the company has used WiFi sensing technology to develop a motion detection solution called WiFi Motion™, which measures and interprets disruptions in RF signals transmitted between WiFi devices. When movement occurs in a space, ripples in the wireless signals are created. WiFi Motion interprets these ripples and determines if an action, such as sending a notification, is needed. Enabling this functionality in a space is incredibly simple. With a software upgrade to only one’s WiFi access point (or mesh router), motion sensing capabilities are layered into one’s WiFi network. Existing connected WiFi devices then become motion detectors without detracting from their original functions or slowing down the network. Using artificial intelligence (AI), WiFi Motion establishes a benchmark of the motionless environment and learns movement patterns over time, which could be used to predict trends. This allows unusual movement patterns to be detected with greater accuracy while decreasing the potential for costly false alerts. WiFi Motion requires no line-of-sight or installation WiFi sensing and other home monitoring solutions All of these capabilities are made possible by WiFi sensing and together create a motion detection system that provides unparalleled accuracy, coverage, privacy and affordability compared to other solutions on the market. PIR integration is far more complex and imposes electronic and physical design restrictions compared to WiFi sensing. In terms of placement, PIR systems are difficult to install, requiring line-of-sight and a device in every room for localization. WiFi Motion requires no line-of-sight or installation and is also a scalable solution compared to PIR. Much like cameras, PIRs can only cover so much space, but WiFi Motion can cover the entire home and even detect motion in the dark and through walls, without adding additional devices to the home. WiFi Motion detects less distinguishing context than cameras and microphones, but more context than regular PIR sensors for the perfect balance of privacy and highly accurate motion detection. Privacy solution While cameras have been the security solution for years, WiFi Motion offers a more affordable solution that can rival the privacy and coverage capabilities of even the most high-end cameras. With such a wide coverage area, one might think that WiFi sensing infringes on privacy, but actually, the opposite is true. With WiFi Motion, the contextual information collected cannot be used to identify a specific individual, unlike cameras which can clearly identify a person’s face or microphones, which can identify a person’s voice. It is different from other smart home security options that use cameras and microphones because it only senses motion using WiFi signals - it doesn’t “see” or “listen” like a camera or microphone would. This provides opportunities for added security in spaces where privacy might be a concern and installing a camera may not be a comfortable solution, such as bathrooms and bedrooms. The data collected is also anonymized and highly encrypted according to stringent industry privacy standards. Existing connected WiFi devices then become motion detectors Additional WiFi sensing applications Since WiFi sensing technology requires no additional hardware or subscription fees, it is much more affordable than other motion detection solutions. It can be used as a standalone solution, or it can be easily layered into more complex systems. This ease of integration, scalability and relatively low cost brings a lot of potential for various applications. Motion detection can trigger other smart devices in the network to turn lights on or off In eldercare, for example, WiFi sensing can be used to help seniors live comfortably in their homes for as long as possible. With the increasing aging population and high costs associated with care homes, the market for this application is considerable. Caregivers can use an app to monitor movement in their loved one’s home and be alerted about unusual movement patterns that could indicate a concern. For smart homes and other environments that have a network of smart devices, the artificial intelligence (AI) component of the technology allows for improvements to automated features. Motion detection can trigger other smart devices in the network to turn lights on or off or make adjustments to the temperature in a room. Security for the commercial sector For office buildings and other commercial properties, it is easy to see how all of these features could be scaled up to offer a highly accurate and cost-effective motion sensing and smart device automation solution. Cognitive Systems is closely involved with the development of WiFi sensing technology, working with various industry groups to establish standards and help it reach its full potential. WiFi Motion is merely the tip of the iceberg in terms of motion sensing possibilities, but its applications in the world of security are undeniably compelling. It is an exciting time for the wireless industry, as one works with stakeholders in the security space to explore everything this technology can do.

The Growth Of The Mobile Access Card Market In 2020
The Growth Of The Mobile Access Card Market In 2020

The emergence of smartphones using iOS and Android is rapidly changing the landscape of the IT industry around the world. Several industries, such as digital cameras, car navigation, MP3, and PNP, have been replaced by equivalent or even better performance using smartphones. Smartphones provide increasing portability by integrating the functions of various devices into a single unit which allows them to connect to platforms with network-based services and offer new services and conveniences that have never been experienced before. These changes have expanded into the access control market. Although not yet widespread, ‘Mobile access cards’ is one of the terminologies that everyone has been talking about. RF cards used for access security are being integrated into smartphones just as digital cameras and MP3s were in the past. While people might forget their access cards at home in the morning, they seldom forget their smartphones. Using smartphones for access control increases entry access reliability and convenience. Mobile/smartphone access control A key aspect of mobile credential is that it makes it possible to issue or reclaim cards without face-to-face interaction As in other markets, the combination of smartphones and access cards is creating a new value that goes beyond the simple convenience of integration enhancing the ability to prevent unauthorized authentication and entrance. People sometimes lend their access cards to others, but it is far less likely they might lend their smartphone with all their financial information and personal information – to another person. This overcomes an important fundamental weakness of RF cards. Another valuable aspect of mobile credential is that it makes it possible to issue or reclaim cards without face-to-face interaction. Under existing access security systems, cards must be issued in person. Since card issuance implies access rights, the recipient’s identification must be confirmed first before enabling the card and once the card has been issued, it cannot be retracted without another separate face-to-face interaction. Mobile access cards In contrast, mobile access cards are designed to transfer authority safely to the user's smartphone based on TLS. In this way, credentials can be safely managed with authenticated users without face-to-face interaction. Mobile cards can be used not only at the sites with a large number of visitors or when managing access for an unspecified number of visitors, but also at the places like shared offices, kitchens and gyms, currently used as smart access control systems in shared economy markets. The market share of mobile access cards today is low even though the capability can offer real benefits to users and markets. While the access control market itself is slow-moving, there are also practical problems that limit the adoption of new technologies like mobile access cards. Use of Bluetooth Low Energy technology While NFC could be an important technology for mobile credential that is available today on virtually all smartphones, differences in implementation and data handling processes from various vendors prevents universal deployment of a single solution to all devices currently on the market. Accordingly, Bluetooth Low Energy (BLE) has been considered as an alternative to NFC. Bluetooth is a technology that has been applied to smartphones for a long time, and its usage and interface are unified, so there are no compatibility problems. However, speed becomes the main problem. The authentication speed of BLE mobile access card products provided by major companies is slower than that of existing cards. Enhancing credential authentication speed Authentication speed is being continuously improved using BLE's GAP layer and GATT layers The second problem is that mobile access cards must be accompanied by a supply of compatible card readers. In order to use mobile access cards, readers need to be updated but this is not a simple task in the access control market. For 13.56 MHz smart cards (which were designed to replace 125 kHz cards), it has taken 20 years since the standard was established but only about half of all 25 kHz cards have been replaced so far. Legacy compatibility and the need for equivalent performance, even with additional benefits, will drive adoption timing for the Access Control market. While BLE technology helps resolve the compatibility problem of mobile access cards, it can identify some breakthroughs that can solve the speed problem. Authentication speed is being continuously improved using BLE's GAP layer and GATT layers, and new products with these improvements are now released in the market. Making use of key improvements allows Suprema's mobile access card to exhibit an authentication speed of less than 0.5 seconds providing equivalent performance to that of card-based authentication. AirFob Patch MOCA System's AirFob Patch addresses the need for technological improvements in the access control market in a direct, cost effective, and reliable way – by offering the ability to add high-performance BLE to existing card readers – enabling them to read BLE smartphone data by applying a small adhesive patch approximately the size of a coin. This innovative breakthrough applies energy harvesting technology, generating energy from the RF field emitted by the existing RF reader – then converting the data received via BLE back into RF – and delivering it to the reader. By adding the ability to use BLE on virtually any existing RF card reading device, MOCA allows greater ability for partners and end users to deploy a technologically-stable, high performance access control mobile credential solution to their employees, using devices they already own and are familiar with. Adding MOCA AirFob Patch eliminates the need to buy and install updated readers simply to take advantage of mobile credential, lowering costs and risks, and increasing employee confidence and convenience. Growth forecast of mobile access card market in 2020 In 2020, forecasts show that the mobile access card market will grow far more rapidly Several companies have entered the mobile access card market, but they have not set up a meaningful product solution stream until 2019. In 2020, forecasts show that the mobile access card market will grow far more rapidly. Reviewing new entries into the market allows identification of the latest products that provide improving solutions to compatibility and speed problems. MOCA AirFob Patch addresses development plans in process today that overcome the legacy installed base of card readers – allowing rapid creation of an environment that can make immediate use of BLE mobile access cards. Integrated mobile digital ID With proven usability and within suitable environments, mobile access cards will also begin to make inroads into other markets, not just the access control market. In the sharing economy market, which seeks access management without face-to-face interaction, the integrated mobile digital ID led by the 'DID Alliance' will serve as a technical tool that can be used in access authentication – forging increasing links between the access control and digital ID markets.

Entrance Control Vs Access Control: Similarities And Differences
Entrance Control Vs Access Control: Similarities And Differences

Entrance control and access control - of the physical kind - are common terms in the security industry which are often used interchangeably, but should they be? Having worked both sides of the fence, with previous roles at TDSi and HID and now the Major Accounts and Marketing Manager at Integrated Design Limited, Tony Smith highlights the subtle but important differences between these two terms and the systems they refer to, outlining how they should work together to achieve optimal security. Access control is a system which provides discriminating authentication Access control provides a discriminating authentication process and comprises the software or hardware that defines the criteria for acceptance or denial Used to describe a system which performs identification of users and authentication of their credentials (deciding whether or not the bearer of those credentials is permitted admission) access control is an incredibly broad term. Access control provides a discriminating authentication process and comprises the software or hardware that defines the criteria for acceptance or denial of an individual to a restricted area. Entrance control – such as security turnstiles - takes the output of that validation and has the capability to see whether that criteria is being adhered to, either granting or denying access as appropriate. Entrance control is the hardware responsible for keeping people honest If access control verifies authorized personnel using their credentials – their face, fingerprints, PIN number, fob, key card etc – and decides whether or not they are permitted access, entrance control is the hardware which enforces that decision by making users present their credentials in the correct way, either opening to allow pedestrian access or remaining closed to bar entry and potentially raising an alarm. For example, a card reader acts as an access control device, recognizing the card holder as having the correct permissions and saying ‘yes, this person can pass’. But, it’s the entrance control system – a turnstile, for example – which actually physically allows or denies access. Physical access and video surveillance Some entrance control systems don’t feature a physical barrier, however. Fastlane Optical turnstiles will not physically stop an unauthorized person from passing through, and instead alarm when someone fails to present valid credentials, alerting security staff that a breach has occurred. These kinds of turnstiles are suited to environments which just need to delineate between the public and secure side of an entrance, with less need to physically prevent unauthorized users from entering. State of the art access control integrations have been installed for award-winning complex, The Bower It’s also possible to capture video footage of any incidents, allowing security personnel to identify users failing to abide by the access control system’s rules, using It’s also possible to capture video footage of incidents, allowing security personnel to identify users failing to abide by access control system rules the footage to decide on the level of response required. The breach could have been the result of a member of staff being in a hurry and failing to show their card before passing through, in which case they can be reminded about the security protocol. Or, it could be an unidentified person who needs to be escorted from the premises. Entrance control and access control working together For optimum security, access control and entrance control should work together, with the entrance control system enhancing the use of the access control system, making it more efficient and better value for money. The two can’t effectively operate without each other. Security turnstiles, for example, require something to tell them that someone is about to enter – the access control system does this – and, the access control system needs a method of stopping people when they don’t badge in correctly. The two systems are complementary.

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