One French town just north of Paris faced familiar key management challenges. Each person in their Municipal Technical Centre had to carry approximately forty physical keys. If a single key was lost or stolen, for even one door, all compromised cylinders had to be changed. To prevent unauthorised access, all the keys had to be replaced, too — at great expense. Key duplication costs were mounting.

One lost key cost from €3,000 to €4,000 for changing cylinders and replacing the keys,” explains Fabrice Girard, Territorial Technician at the Villiers-le-Bel Municipal Technical Centre.

Administrators can program access rights for every CLIQ key, padlock or cylinder using the Web ManagerTo fix their expensive lost key problem, Villiers-le-Bel city administrators chose to combine ABLOY’s mechanical PROTEC2 and CLIQ electromechanical locking within the same flexible, key-based access control system. Almost 500 CLIQ wireless cylinders, 850 programmable, battery-powered CLIQ keys, plus programming devices and wireless CLIQ padlocks, have been deployed in a multi-year, rolling upgrade programme.

CLIQ Web Manager software

Now, with CLIQ, lost or stolen keys are cancelled instantly using the CLIQ Web Manager software. The Web Manager works securely inside a standard browser, with no software installation needed. Administrators can program access rights for every CLIQ key, padlock or cylinder using the Web Manager. They filter access to specific sites and doors according to the precise needs of every city employee.

CLIQ Web Manager is a very easy and pleasant system to use every day,” says Fabrice Girard.

CLIQ also saves time for the city’s security team, because staff no longer must return to the Technical Centre to collect the keys for multiple sites. Authorised users carry a single, programmable, battery-powered CLIQ key, where all their individually tailored access rights are stored.

Wireless system to enhance safety

We wanted a wireless system with reduced maintenance costs and increased safety"We wanted a wireless system with reduced maintenance costs and increased safety,” adds Fabrice Girard. “CLIQ met all these requirements.

The city has already rolled out CLIQ beyond their Municipal Technical Centre to 10 local schools. Using the CLIQ Web Manager, security staff can track exactly who has been granted access to every school site — critical for these sensitive premises and to improving overall school safety.

Plans are in place to equip Villiers-le-Bel’s 12 remaining schools with CLIQ within 2 to 3 years, including canteens and boiler rooms. Because CLIQ can be deployed and scaled flexibly, the city’s dedicated security budget funds this gradual extension of their CLIQ system.

CLIQ® technology is secure, user-friendly and scalable across multiple sites — and already trusted in schools, colleges and universities all over Europe. To learn more about CLIQ® key access control, visit campaigns.assaabloyopeningsolutions.eu/cliq

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Which technologies will disrupt the security industry in the second half of 2020?
Which technologies will disrupt the security industry in the second half of 2020?

The first half of 2020 has been full of surprises, to say the least, and many of them directly impacted the physical security market. The COVID-19 pandemic created endless new challenges, and the physical security market has done our part to meet those challenges by adapting technology solutions such as thermal cameras and access control systems. In the second half of 2020, we can all hope for a return to normalcy, even if it is a “new normal.” In any case, technology will continue to play a big role. We asked this week’s Expert Panel Roundtable: Which technologies have the greatest potential to disrupt the security industry in the second half of 2020?

What do you need to know about thermal imaging cameras?
What do you need to know about thermal imaging cameras?

As businesses, schools, hospitals and sporting venues look to safely reopen in a COVID-19 world, thermal imaging systems will play a critical role in helping to detect and distinguish skin temperature variations in people. Thermal surveillance, a mainstay of traditional physical security and outdoor perimeter detection, is now being deployed to quickly scan employees, contractors and visitors as part of a first line of defense to detect COVID-19 symptoms. In the coming weeks and months, the security industry will look to implement thermal camera solutions for customers, yet many questions remain as to the differences between different system types and how to properly install thermal imaging cameras. In this Q&A, Jason Ouellette, Head of Technology Business Development for Johnson Controls, answers several of these questions. Q: What are some of the different thermal imaging solutions available in the market to detect an elevated temperature in a person? 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Also, integrators should minimise camera detection angles to ensure optimal accuracy and install cameras parallel with the face as much as possible, and again in compliance with installation instructions. Integrators should minimise camera detection angles to ensure optimal accuracy The blackbody should be placed outside of the area where people could block the device and located more towards the edges of the field-of-view of the camera. You need to keep in mind the minimum resolution for effective thermographic readings which is 320 by 240 pixels as defined by the standards. To achieve this, you would need to follow medical electrical equipment performance standards driven by IEC 80601-2-59:2017 for human temperature scanning and FDA guidelines. Within that measurement, the face needs to fill 240 x 180 pixels of the thermal sensor resolution, which is close to or just over 50 percent of the sensor’s viewing area typically, meaning a single person scanned at a time in compliance with the standards for accuracy.  Along with height and distance placement considerations, the actual placement in terms of the location of the system is key. For example, an expansive glass entryway may impact accuracy due to sunlight exposure. Installations should be focused on ensuring that they are away from airflow, heating and cooling sources, located approximately 16 feet from entry ways and in as consistent of an ambient temperature as possible between 50°F and 95°F. Q: Once a thermal imaging camera system is installed, how do you monitor the device? There are several choices for system monitoring, depending on whether the solution is used as standalone or integrated with other technologies, such as intrusion detection, access control or video systems. For standalone systems, the ability to receive system alerts is typically configured through the camera’s webpage interface, and the cameras include abilities such as the live web page, LED display for alerting, audio alerts and physical relay outputs. When done right, these features will all follow cybersecurity best practices which is important for any network solution today, including changing default passwords and establishing authentication methods. The ability to receive system alerts is typically configured through the camera’s webpage interface These types of thermal cameras can also integrate with turnstile systems, VMS platforms and access control systems. This is typically done through the integration of a relay output, activated by a triggered temperature anomaly event on a thermal imaging camera which can then be used for activities such as locking a turnstile, or through access control and video systems to send an email or provide an automated contagion report for contact tracing. These capabilities and integrations extend the monitoring capability above that of the standalone solution. The camera can be configured to monitor a specific range of low and high alerts. Users can determine the actions that should be taken when that alert exceeds the preset low or high threshold. These actions include things like a bright and easy-to-see LED can provide visual notification through pulsing and flashing lights as an example. Q: What about system maintenance? Does a thermal imaging camera require regular service in order to operate accurately? First it’s important to make sure the system is calibrated. This can be done after the unit stabilises for at least 30 minutes to establish the initial reference temperature source known as the blackbody. Calibrations conducted before this warm up and stability time period can throw off accuracy. Also, as part of your system maintenance schedule you will want to perform a calibration check of the blackbody device every 12 months, along with following recommendations of the FDA and IEC. If you install the solution and don’t perform maintenance and the blackbody calibration certificate expires, over time there’s a risk that the device will experience drift and a less accurate reading will result. There’s a risk that the device will experience drift and a less accurate reading will result Q: What final pieces of advice do you have for either an integrator who plans to install a thermal imaging camera system or an end user who plans to invest in this solution? 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Recognising the importance of security officers to promote safety
Recognising the importance of security officers to promote safety

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