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Enclosures containing electronics, communications or cabling infrastructure offer a simple attack point for cyber breaches and an opportunity for a physical attack on the hardware. Yet, many of these assets are housed within enclosures that provide minimal security features to offer a deterrent to any would-be attacker. This has always just been a pet hate. Walking down the high street of a town anywhere in the United Kingdom, you can often see open street communication cabinets. You can actually look directly inside at the equipment. And if I was a bad guy, I could quite easily just put my foot into their enclosure and quite quickly take out their infrastructure. Charged service for enclosures This seems crazy when a US$ 2 magnetic contact on a door can quickly tell you whether your enclosure is open or shut, and can be vital in keeping your network alive. Moreover, the operators of these systems, whether it is telecoms or internet providers, are providing a charged service to their customers, so they should really be protecting their enclosures. Why has that security level not been so readily taken into the outside world, into the unprotected environment? More sobering, if you contrast this security approach to the approach taken in the data center world, an environment that already has multiple stringent security protocols in place, you get a very different picture. For instance, security devices can capture snapshots of anyone who opens a cabinet door in a data room, so it is recorded who has opened that door. While that is just one simple example, it begs the question. Why has that security level not been so readily taken into the outside world, into the unprotected environment? In my mind, a lot of it boils down simply to education. Network connection, easy point of cyber attacks Our preconceived idea about cyber security is some big corporation being knocked out or held to ransom by, again in our mind, someone sitting at a laptop, probably with their hood up over their head, typing away in the darkness, attacking us through the internet. But how the would-be criminal is going to come at us is just like in sport. They attack at the weakest point. Networks can be deployed in the outside world in many ways, such as cameras monitoring the highways. That means those locations will have a network connection. And that can be a point of attack in a non-secure outside world. Enclosures can be broken into by attackers Many people think, ‘That is okay because I’m going to take that ethernet device that my cameras are connected to and I’m going to put it inside an enclosure.’ However, what people do not realize is that the only thing that the enclosure is doing is protecting the ethernet device from Mother Nature. Because, without proper security, those enclosures can be broken into pretty easily. Many of them are just a single key that is not in any way coded to the device. Twofold cyber security People need to realize that cyber security is twofold. It can be carried out by hacking the network or physically breaking Therein lays the problem. People need to realize that cyber security is twofold. It can be carried out by hacking the network or physically breaking into the weakest physical point. And so, a simple boot through the open door of an enclosure can vandalise the devices inside and take down a small or large part of a network. And by definition, this meets the criteria for a cyber-attack. So, how do we go about tackling this problem? Well, security is a reaction marketplace. And for enclosures, there’s not, at present, a plethora of solutions out there for to counter these types of attacks. It can be challenging to find what you’re looking for through a quick Google search compared to searching for more traditional security protection measures. Deploying smart sensors and detectors But, under Vanderbilt and ComNet, we are currently taking our knowledge and experience from system installation and compiling it together. We’re bringing different products from different parts of our business to make a true solution. For instance, we have sensors for enclosures that detect anything from gas or smoke to open doors, detectors that will tell you if someone is trying to smash open your enclosure with a sledgehammer, or that someone is trying to lift your enclosure off of its mount. More importantly, as is not really a one-size-fits-all solution, we have developed a menu structure available that allows customers to pick and choose the ones that will best fit their own requirements.
For decades, cable theft has caused disruption to infrastructure across South Africa, and an issue that permeates the whole supply chain. Here, Ian Loudon, international sales and marketing manager at remote monitoring specialist Omniflex, explains how new cable-alarm technology is making life difficult for criminals and giving hope to businesses. In November 2020, Nasdaq reported that, “When South Africa shut large parts of its economy and transport network during its COVID-19 lockdown, organized, sometimes armed, gangs moved into its crumbling stations to steal the valuable copper from the lines. Now, more than two months after that lockdown ended, the commuter rail system, relied on by millions of commuters, is barely operational.” Private security firm Despite this most recent incident, cable theft is not a new phenomenon to sweep South Africa Despite this most recent incident, cable theft is not a new phenomenon to sweep South Africa. In 2001, SABC TV broadcast a story following two members of a private security firm working for Telkom, a major telecoms provider. In the segment, the two guards, working in Amanzimtoti on the south coast of KwaZulu-Natal, head out to investigate a nearby alarm that has been triggered. They reach a telecoms cabinet and discover that it has been compromised, with the copper cable cut and telephone handsets strewn across the ground. In the dark, they continue to search the area when one of the guards discovers the problem: 500 metres of copper wire has been ripped out. In their haste, the thieves have dropped their loot and fled. Widespread cable theft Had they managed to get away, they would have melted the cable to remove the plastic insulation and sold the copper to a local scrap dealer for around 900 Rand, about $50 US dollars. For the company whose infrastructure has been compromised, it may cost ten times that amount to replace and repair the critical infrastructure. The disappointing takeaway from this story is that two decades on from this incident the country still faces widespread cable theft, whether it’s copper cables from mines, pipelines, railways, telecoms or electrical utilities. In fact, the South African Chamber of Commerce and Industry estimates that cable theft costs the economy between R5–7 billion a year. The answer to the problem must go further than the existing measures used by companies. Detect power failure Most businesses already invest in CCTV, fences, barriers and even patrol guards, but this is not enough. Take the mining sector, for example. These sites can be vast, spanning dozens of kilometres - it’s simply not cost effective to install enough fences or employ enough guards or camera operators. As monitoring technology gets better, the company has seen site managers increasingly use cable alarms in recent years that detect when a power failure occurs. The idea is that, if one can detect a power failure, they can detect whether the cable has been cut The idea is that, if one can detect a power failure, they can detect whether the cable has been cut. The problem is though: how does one distinguish the difference between a situation where a cable has been cut intentionally and a genuine power outage? Power outages in South Africa are an ongoing problem, with the country contending with an energy deficit since late 2005, leading to around 6,000 MW of power cuts in 2019. Remote terminal units Eskom Holdings SOC Ltd., the company that generates around 95 per cent of South Africa’s power has already warned of further blackouts as the company works to carry out repairs to its power plants. According to a statement on the company’s website, “Eskom spends in the region of R2 billion a year replacing stolen copper cables." The result is that criminals take advantage of the gaps in power to steal cable, timing their robberies to coincide with the published load shedding schedules. The basic alarms used to detect power outage won’t recognize the theft because they register a false-positive during a power cut. By the time the power comes back on, the deed has been done and the criminals have gotten away with the cable. The good news is that recent breakthroughs in cable monitoring technology are helping tackle just this problem. New alarms on the market now combine sophisticated GSM-based monitoring systems that use battery powered remote terminal units. Legitimate supply chain Unlike the basic alarms that look for the presence or absence of power, these new systems monitor whether the cable circuit is in an open or closed state. In the event of a power outage, the unit continues to run on battery power and can detect if a cable has been cut, sending a priority SMS alert to the site manager immediately, giving them a fighting chance to prevent a robbery in progress. Beyond the opportunistic theft carried out by petty criminals, the theft of copper cables forms a wider problem Beyond the opportunistic theft carried out by petty criminals, the theft of copper cables forms a wider problem across the supply chain in South Africa. In recent years, the combination of unscrupulous scrap dealers, the alleged involvement of large scrap processing companies and lax penalties meant that much of the stolen copper ended up back in the legitimate supply chain. However, recent changes in the law have sought to take a tougher stance on copper theft. Alarm monitoring technology According to the Western Cape Government, “The Criminal Matters Amendment Act, regulates bail and imposes minimum offences for essential infrastructure-related offences." The act, which came into effect in 2018, recommends sentencing for cable theft, with the minimum sentence for first-time offenders being three years and for those who are involved in instigating or causing damage to infrastructure, the maximum sentence is thirty years. It seems to be working too. In January 2021, the South African reported that a Johannesburg man was sentenced to eight years behind bars for cable theft in Turffontein. While the longer-term outlook is a positive one for industry, the best advice for businesses seeking to alleviate the problem of cable theft in the immediate future is to invest in the latest cable-theft alarm monitoring technology to tackle the problem and make life difficult for criminals.
For decades, the nature of global safety has been evolving. From physical security threats like large-scale terrorist attacks and lone actor stabbings to chemical threats such as the Salisbury poisonings and even microbiological threats such as COVID-19, new challenges are constantly arising and the threat landscape we operate in today is constantly changing. Compounding the complexity of the security issues is the complexity and nature of attacks. With the economic downturn, there is the traditional rise in theft, violence and other crimes. Compound this with unmanned businesses and work-at-home staff, and there is a perfect storm for a rise in security threats. Artificial intelligence (AI) and specifically the branch of AI known as machine learning (ML), was already causing widespread disruption in many industries, including the security industry. AI has been a driving force to replace labor-based business models with integrated data and actionable intelligence that is context-aware. It has become apparent that AI will play a big part in the ongoing fight against both pandemics such as COVID-19, as well as other threats that we may face in the future. With all of this in mind, 2021 is poised to be a big year for AI growth. While AI is going to continue to impact our lives in dozens of ways, from smart sensors to face mask compliance detection, the following reflects a few top trends and challenges that I have my eye on for 2021 as we close out this year. The rise of smart city investments One such example is the increasing development of smart cities and how AI can be leveraged to build safe communities. To date, we’ve seen an increase in the number of smart city programmes around the globe; cities that are beginning to deploy innovative technologies for the management and ease of life services. Compounding the complexity of the security issues is the complexity and nature of attacks Typical development of a city includes standard infrastructure - roads, schools, power, water, transportation. Now, internet, data and AI capabilities are part of the standard infrastructure requirements for all new developments. AI promises to deliver increased efficiencies with the infrastructure that will accommodate growing populations while reducing our impact on the environment, resources, and communities. Global cities now account for more than half of the world’s population, and the United Nations projects the number to balloon to 68% by mid-century. Owing to both demographic shifts and overall population growth, that means that around 2.5 billion people could be added to urban areas by the middle of the century, predicts the UN Department of Economic and Social Affairs (DESA). With an increase in population has come an increase in global spending on smart city initiatives to drive down the impact of growing urban concentration. Global spending on smart city initiatives is expected to total nearly $124 billion this year, an increase of 18.9% over 2019, according to IDC's Worldwide Semiannual Smart Cities Spending Guide, while Singapore, Tokyo, London and New York as the big spenders - expected to spend more than $1 billion in 2020. Using AI-driven technology to create safer public and private spaces Today, security solutions driven by AI are being developed and can be covertly deployed across a range of physical environments to protect the population in a more efficient, and accurate manner. As we look ahead to the future of public safety, it’s clear that new AI technology can dramatically improve the effectiveness of today’s physical security space. One such deployment is the use of video object recognition/computer vision software that can be integrated into existing video monitoring security (VMS) systems. These enhanced VMS systems can be deployed both inside and outside of buildings to identify risks and flag threats, such weapons, aggressive behaviours, theft, and safety compliance. This helps to minimize the impact of a breach by an early alert to onsite security in real-time to the location and nature of the potential threat, allowing them to intervene before a loss occurs. These same AI-enabled video solutions can similarly be used to provide advanced business operations in retail, logistics, and manufacturing organizations. Multi-sensor security solutions Also, targeted magnetic and radar sensor technologies, concealed in everyday objects like planter boxes or inside walls, can now scan individuals and bags entering a building for concealed threat objects. Using AI/machine learning, these two sensor solutions combined can identify metal content on the body and bag and match the item to a catalog of threat items, such as guns, rifles, knives and bombs. Security solutions driven by AI are being developed and can be covertly deployed across a range of physical environments Without this advanced multi-sensor solution, it becomes nearly impossible to discover a weapon on a person's body before it appears in an assailant’s hands. This multi-sensor solution allows for touchless, unobtrusive access to a building, but allows for immediate notification to onsite security when a concealed threat is detected. The hidden technology thus empowers security staff to intercept threats before they evolve into a wider scale attack, while also maintaining the privacy and civil liberties of the public, unless, of course, they are carrying a concealed weapon or pose a physical threat. With the advent of sophisticated surveillance and technological innovation, a level of caution must be exerted. Despite the ongoing global debate, there remains little regulation about the use of AI technologies in today’s physical security space. One thing is certain; it must be deployed in the right place, at the right time, with the right privacy and civil liberty protection objectives. People don’t want to be protected by omnipresent, obstructive and overbearing security systems that infringe on their privacy and civil liberties. They want a proper balance between security and their current way of life, one that must be fused together. Technology and tracing COVID-19 Machine learning-based technologies are playing a substantial role in the response to the COVID-19 pandemic. Traditionally, the key purpose of surveillance systems has been to detect and deter threats, including the detection of visible and hidden weapons and abnormal behavior. While this, of course, remains a primary focus, today we are seeing how surveillance systems defend against new invisible threats, as well as rapidly automate the process of contact-tracing to capture and contain a virus before it spreads. Again, the ability to track and trace through parsing algorithms that can manage through enormous amounts of data provides a highly scalable and rapid response mechanism to control the spread of threats. AI has demonstrated potential for identifying those displaying symptoms of infectious diseases, without requiring physical human contact Although the threat may not be visible, it is just as destructive. By incorporating AI into existing technologies, government, healthcare and security professionals can monitor public spaces and environments through the combined use of digital and thermal video surveillance cameras and video management systems); just one of the solutions being explored. AI has demonstrated potential for identifying those displaying symptoms of infectious diseases, without requiring physical human contact. By Using AI-powered video analytic software, businesses can monitor face masks, social distancing and large gathering compliance and also detect elevated body temperature. Critically, technology must be capable of both identifying and tracking the virus but also be unobtrusive. An unobtrusive system that is adaptable enough to be deployed across a range of environments where the public gathers in enclosed spaces is necessary to be effective. Security in 2021 Technology has proven itself to be a valuable ally in times of crisis. For smart cities, the use of innovative AI/machine learning technologies will help optimize security solutions in areas that are brimming with potential. As we look ahead to the future of security in a world that is impacted by such a wide range of threats, from physical to chemical to microbiological, it’s clear that new technologies, specifically AI can dramatically improve the effectiveness of security systems and help us to better defend against a wide spectrum of threats. Technology has a huge role to play in making our communities safe in 2021 and beyond, but for security systems to be effective, they must not be oppressive or obstructive. This will ensure they have the full support of the public - the key to success.
Pionen is a former civil defense center constructed in the White Mountains Södermalm borough of Stockholm, Sweden in 1943 to safeguard essential government functions. It was transformed into a data center by the Swedish internet service provider, Bahnhof. Sweden’s Bahnhof Data Center was officially opened on September 11, 2008, and the company continues to use the facility till now. The building is concealed under the mountain and is secured by a 15.75 in (40 cm) thick door and can only be reached by an entrance tunnel. Due to all of these features, the data center can withstand even a hydrogen bomb. Constructing something exceptional The Bahnhof Data Center is also a co-location center. In 2010, WikiLeaks used its co-location services to store its servers. The facility is architected in such a way that it looks like a vision right out of a science fiction movie. Bahnhof purposefully planned its server environment to bring to mind the cinematic look and feel of science fiction movies like Silent Running and Logan’s Run. The company has preserved the place’s cold war moniker, Pionen White Mountains The Bahnhof Data Center exists in a previous nuclear shelter about 100 ft (30 m) under the ground. The company has preserved the place’s cold war moniker, Pionen White Mountains, and some of its accouterments. One of the signs near the entrance reads: these doors should be locked at DEFCON1. This extraordinary facility came to life thanks to a distinct design idea, thoughtful use of technology, and a strong aspiration to construct something exceptional. Hydrogen bomb explosion Bahnhof Data Center facts are as follows: It took 20 months to design and construct the facility. The center has an IT usable capacity of 800 kW. There are 140 cabinets with a power density of 5.7 kW average per cabinet. There is no particular maximum. Cooling, organized cabling, and electrical wiring are fitted under a 3.3 ft (1 m) deep raised flooring. The facility is located in a site that was initially an army bunker and nuclear shelter during the cold war. The shelter was designed to withstand a hydrogen bomb explosion. It houses the Network Operations Center (NOC) for all of ISP’s operations. They have five (5) data centers in the country, with Pionen being the largest. The facility also serves as a co-location hosting center, so one can really put their own servers here. It features two Maybach MTU diesel engines and Baltimore Aircoil fans. A team of only 15 senior technical employees work permanently in the facility. Former nuclear bunker The data center is situated below 30 m of solid granite foundation The Bahnhof Data Center is a Hollywood-style Swedish data center situated in a former nuclear bunker, deep in the bedrock right beneath the city of Stockholm. It was constructed to be able to survive a blast by a hydrogen bomb. The building has a total area of 10,764 sq ft (1,000 sq m), with 5,382 sq ft (500 sq m) of hosting area and 2,153 sq ft (200 sq. m) for back-of-house systems. The residual area is for office and personnel spaces. It can tolerate a structural loading of 403 lbs per sq ft (2 tons per sq m). The data center is situated below 30 m of solid granite foundation. Glass-Walled room When one enters the facility, the first thing they will notice are two huge engines that automatically start in the event of a power cut. These are genuine German submarine engines. The mountain walls inside are covered with green plants that makes one feel as if they provide the site with extra oxygen. Excess heat created by the servers is recycled into the local district heating network There is also a massive insulated, circular glass-walled room that floats above the ground, serving as a conference room. The round carpet inside the conference room looks like the moon. For a pleasant work atmosphere, the facility has simulated daylight, conservatories, man-made waterfalls, and a massive 2600 lt saltwater fish tank. Excess heat created by the servers is recycled into the local district heating network, making this facility one of the most environmentally-friendly data centers across the globe. Co-Location hosting According to Jon Karlung, CEO at Bahnhof, the exceptional design of the data center makes it a much-talked-about facility worldwide. If one has been inside the building, they will certainly tell other people about it. The exclusive approach also aids the business to get the word out about their building. It makes them stick out, and as the building provides co-location hosting, they have consumers who often visit the site and work there. These individuals share what they see with others, which creates positive word-of-mouth marketing for the company. Server capacity services Bahnhof has delivered internet and hosting services since its establishment in 1994 Bahnhof has delivered internet and hosting services since its establishment in 1994. In 2006, it came across an exciting prospect to expand its premises and include a subterranean bunker initially serving as an army shelter and nuclear bunker during the Cold War era. In 2007-2008, Bahnhof Data Center was totally repurposed to become the remarkable facility. Over 4,000 cubic m (141,300 cubic ft) of solid rock was blasted away to create the 1,200 sq m that the company required. The redesigned facility became operational in September 2008, accommodating a huge part of the company’s network operations and serving as a co-location center for a range of businesses and people looking for server capacity services. Human-Friendly atmosphere The Bahnhof Data Center is different from all other hosting facilities across the globe. It was inspired by movies like The Empire Strikes Back and James Bond. The building has an exceptional human-friendly atmosphere, housing magnificent waterfalls, conservatories, a glass-walled meeting room floating above the ground, and artificial daylight. Bahnhof Data Center is one of the best-connected sites in the North European region Bahnhof Data Center is one of the best-connected sites in the North European region. It provides triple redundancy internet backbone access. The network has complete redundancy with both fiber optics and additional copper lines with several different physical ways into the mountain. The data center depends on Eaton’s UPS protection to offer rock-solid network operations and co-location services. The backup power supply is guaranteed by two Maybach MTU diesel engines that were initially designed for submarines. They can generate 1.5 megawatts of power. A submarine sound-horn is fitted near the engines and alarms in case of a system breakdown. Rack-Mounted servers The cooling is controlled by Baltimore Aircoil fans generating a cooling effect of 1.5 megawatts. This is sufficient to cool hundreds of rack-mounted servers at a time. With a massive 11,950 sq ft space, the facility houses a NOC for all of the ISP’s operations. The network of Global Switch includes numerous main production servers As one of five data centers, it is the biggest and is operated by a team of 15 senior technical employees. The network of Global Switch includes numerous main production servers, backup servers, and administrative, standby, and dedicated servers. Pionen is Bahnhof’s largest data center and can house over 6,000 server computers. Subterranean data center What makes Bahnhof Data Center one of the most secure buildings? As the world becomes increasingly dependent on online services, internet service providers are going above and beyond to protect their systems. This fact is more obvious at the subterranean data center run by Bahnhof. When Karlung secured a former nuclear shelter below 100 ft of Stockholm bedrock as the location for a data center, he believed it would be suitable to bring his love of 1970s science fiction to the design of the site. The facility is a server housing center that can endure a hydrogen bomb explosion. In case of power failure, backup power is delivered by a few German submarine engines. Fabricated waterfalls, interior jungle plants, lowland smog, and a meeting room with an image of the moon’s surface on the flooring provide the preferred effect of a sci-fi dream pad. Access control system Its working atmosphere is made more liveable for workers with artificial daylight Constructed 30 m underneath a granite mountain, the building was initially used as a cold war shelter and was planned to provide security from a nuclear conflict between Soviet and Western forces. With servers situated deep within the mountain and only reachable through one tunnel sheltered by a 40 cm thick steel door and can run independently of the national grid because of two submarine engines that serve as backup generators. Although the data center is acknowledged to be one of the most secure facilities across the globe because of its underground location, its working atmosphere is made more liveable for workers with artificial daylight, conservatories, and a saltwater fish tank. Identiv’s flexible physical access control system (PACS) and video intelligence solutions provide the highest security at the lowest cost possible. Regardless of the physical location, one can easily manage access control through the robust, feature-rich systems, hardware, and software. Their technology integrations deliver high-security physical security solutions in partnership with other providers.
It seems that only a few days pass between cyber security stories of concern to the public such as personal data leaks and DIY home camera hacks. With this in mind and the need for increased connectivity, the industry is in need for guidance in cyber security. 2020 is set to be a year of change for the physical security industry. Here are the top four predictions to stay head of market trends in the year ahead. 1. There will be more clarity for installers about industry-standard for cyber security The professional security industry will next year see the launch of a new set of cybersecurity guidelines Through the work being conducted by the BSIA Cyber Security Product Assurance Group (CySPAG), the professional security industry will next year see the launch of a new set of cybersecurity guidelines. This will provide the industry with the guidance and clarity that is currently missing. A key area of clarification is the chain of responsibility. It is not just the responsibility of the manufacturer to keep everything secure from a cyber-perspective. The whole supply chain is responsible - once a product leaves the lab where they’re manufactured, conditions change. Those who maintain, install and operate the product have a shared responsibility to ensure that a product or system remains cyber secure. As the sector develops and more cyber-enabled products become available to the market, this cyber security approach will become more important, and a key differentiator to the DIY market, which can only be a good thing. 2. Cloud and 4G connectivity are giving end-customers better physical security The percentage of panels connected to cloud services is now increasing every year Manufactures have been producing cloud-ready products for several years. Initially, not all installers had been taking advantage of benefits of cloud-connected panels, however the percentage of panels connected to cloud services is now increasing every year. Trust and education have improved, meaning that installers and end-users have realised that connectivity is positive, enabling consumers to check on their properties remotely and allow installer to remotely support their customers. However, one area of constraint has been the dependency on customers networks which may, or may not, offer the level of performance that a robust and resilient security system demands. With the introduction of mobile data connectivity to connected products over the past few years, and as connectivity becomes more widespread across physical security products there will also be a greater shift toward mobile technologies such as 4G, either as a back up to a router connection or for complete network independence. 3. Connectivity is changing the way installers work Installers are a vital part of the chain of when a new alarm system is fitted into a property Installers are a vital part of the chain of when a new alarm system is fitted into a property, providing both installation and maintenance services. Traditionally maintenance activities have always been delivered on-site. With the increased ease of connectivity for security systems and the advancements in how these systems are used, installers are provided further opportunity to enhance customer service around the delivery of maintenance. It is no longer a requirement to have a customer wait until an engineer can attend a property to remedy a fault, as many can now be addressed within minutes from any location in the world. This ability allows installation businesses to focus their engineers on more critical tasks while delivering an overall higher level of customer service. Indeed, some installation businesses are moving to a model of having dedicated remote support engineers in addition to the road-based team. 4. Manufacturers are ready for IP-only alarms, ahead of the 2025 analog switch off The PSTN switch off being conducted by BT and other service providers is due to be completed in 2025 The PSTN switch off being conducted by BT and other service providers is due to be completed in 2025 as part of the move to Next Generation Networks, ending the use of analog phone lines and moves communications technology into an all IP-only space. Although some service providers have indicated that there may be some type of initial PSTN simulation, those providers that are doing this are also making it clear that this is only a temporary solution. The switch off will be a huge change for the security industry. Where heritage, analog alarm systems are in use, installers will need to plan to reconfigure existing systems to use the temporary PSTN simulation functions (where available) or upgrade systems to an all IP solution. Although 2025 feels a long way off, installers and end-users need to start planning now and taking the necessary action. In our sector, manufacturers are ready for IP-only alarms through the provision of cloud-based solutions and the use of techniques such as SIA IP for ARC monitoring.
Kwikset brand of Spectrum Brands, Inc. – Hardware & Home Improvement Division, announces that its SmartCode 888 Deadbolt Lock was chosen to become part of the new Home is Connected smart home system from D.R. Horton, Inc. The inclusion of Kwikset’s SmartCode 888 in the system was based on its value (great functionality at an entry-level price), reliability, and high degree of security. Incorporating the latest Z-Wave 500 chipset, the SmartCode 888 offers keyless entry through a convenient, easy-to-use touchpad. Kwikset’s patented Home Connect technology enables the lock to wirelessly communicate with other devices in the home through a third-party smart home controller, as well as to remotely check the door lock status, lock or unlock the door and receive notifications. Innovative Program D.R. Horton’s Home Is Connected system is included in the base price of each new home from the company’s family of brands D.R. Horton’s 'Home Is Connected' system is included in the base price of each new home from the company’s family of brands. The system includes a robust central hub by Qolsys that controls the smart home features, including a home alarm and automation platform by Alarm.com, Honeywell Home thermostat from Resideo, smart switches by Eaton Corporation, video doorbell by SkyBell and hands-free, voice-first experiences with Amazon Alexa. “We are pleased to be part of such an innovative program created by the nation’s largest volume homebuilder,” said Dave Seeman, Director of National Builder Accounts, Kwikset and Baldwin, Spectrum Brands, Inc. – Hardware & Home Improvement Division. Convenience Of Keyless Entry “We are confident that buyers of D.R. Horton homes will not only appreciate the security and convenience of keyless entry that our SmartCode 888 provides, but also the endless benefits of whole home automation. To be a part of a system that includes such well-known, reputable brands indicates to us the high level of trust D.R. Horton puts in our products.” Brad Conlon, Vice President of National Accounts for D.R. Horton, said, “We are pleased to work with Kwikset to provide this essential component to D.R. Horton’s new Home is Connected smart home system. We know our customers will appreciate the peace of mind that comes from Kwikset’s SmartCode 888 lock and the Home is Connected system overall.”
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