Ajax Intruder Alarm Accessories

Johnson Controls recently unveiled the findings of its 2018 Energy Efficiency Indicator (EEI) survey that examined the current and planned investments and key drivers to improve energy efficiency and building systems integration in facilities. Systems integration was identified as one of the top technologies expected to have the biggest impact on the implementation in smart buildings over the next five years, with respondents planning to invest in security, fire and life-safety integrations more so than any other systems integration in the next year. As advanced, connected technologies drive the evolution of smart buildings, security and safety technologies are at the center of more intelligent strategies as they attribute to overall building operations and efficiencies. SecurityInformed.com spoke with Johnson Controls, Building Solutions, North America, VP of Marketing, Hank Monaco, and Senior National Director of Municipal Infrastructure and Smart Cities, Lisa Brown, about the results of the study, smart technology investments and the benefits of a holistic building strategy that integrates security and fire and life-safety systems with core building systems. Q: What is the most striking result from the survey, and what does it mean in the context of a building’s safety and security systems? The results show an increased understanding about the value of integrating safety and security systems with other building systems Hank Monaco: Investment in building system integration increased 23 percent in 2019 compared to 2018, the largest increase of any measure in the survey. When respondents were asked more specifically what systems they we planning to invest in over the next year, fire and life safety integration (61%) and security system integration (58%) were the top two priorities for organizations. The results show an increased understanding about the value of integrating safety and security systems with other building systems to improve overall operations and bolster capabilities beyond the intended function of an individual system. Q: The survey covers integration of fire, life safety and security systems as part of "smart building" systems. How do smarter buildings increase the effectiveness of security and life safety systems? Hank Monaco: A true “smart building” integrates all building systems – security, fire and life-safety, HVAC, lighting etc. – to create a connected, digital infrastructure that enables individual technologies to be more intelligent and perform more advanced functions beyond what they can do on their own. For example, when sensors and video surveillance are integrated with lighting systems, if abnormal activity is detected on the building premise, key stakeholders can be automatically alerted to increase emergency response time. With integrated video surveillance, they also gain the ability to access surveillance footage remotely to assess the situation. When sensors and video surveillance are integrated with lighting systems abnormal activity on the premise can automatically be detected Q: How can integrated security and life safety systems contribute to greater energy efficiency in a smart building environment? Hank Monaco: Security, fire and life-safety systems can help to inform other building systems about how a facility is used, high-trafficked areas and the flow of occupants within a building. Integrated building solutions produce a myriad of data that can be leveraged to increase operational efficiencies. From an energy efficiency standpoint, actionable insights are particularly useful for areas that are not frequently occupied or off-peak hours as you wouldn’t want to heat or cool an entire building for just one person coming in on the weekend. When video surveillance is integrated with HVAC and lighting systems, it can monitor occupancy in a room or hallway. The video analytics can then control the dimming of lights and the temperature depending on occupant levels in a specific vicinity. Similarly, when access control systems are integrated with these same systems, once a card is presented to the reader, it can signal the lights or HVAC system to turn on. In this example, systems integration can ultimately help enable energy savings in the long run. Security and life safety systems contribute to help enable greater energy efficiency and energy savings in the long run Q: What other benefits of integration are there (beyond the core security and life safety functions)? Hank Monaco: Beyond increased security, fire and life-safety functions, the benefits of systems integration include: Increased data and analytics to garner a holistic, streamlined understanding of how systems function and how to improve productivity Ability to track usage to increase efficiency and reduce operational costs Enhanced occupant experience and comfort Increased productivity and workflow to support business objectives Smart-ready, connected environment that can support future technology advancements Q: What lesson or action point should a building owner/operator take from the survey? How can the owner of an existing building leverage the benefits of the smart building environment incrementally and absent a complete overhaul? Lisa Brown: Johnson Controls Energy Efficiency Indicator found that 77% of organizations plan to make investments in energy efficiency and smarter building technology this year. This percentage demonstrates an increased understanding of the benefits of smart buildings and highlights the proactive efforts building owners are taking to adopt advanced technologies. There is an increased understanding that buildings operate more effectively when different building systems are connected As smart buildings continue to evolve, more facilities are beginning to explore opportunities to advance their own spaces. A complete overhaul of legacy systems is not necessary as small investments today can help position a facility to more easily adopt technologies at scale in the future. As a first step, it’s important for building owners to conduct an assessment and establish a strategy that defines a comprehensive set of requirements and prioritizes use-cases and implementations. From there, incremental investments and updates can be made over a realistic timeline. Q: What is the ROI of smart buildings? Lisa Brown: As demonstrated by our survey, there is an increased understanding that buildings operate more effectively when different building systems are connected. The advanced analytics and more streamlined data that is gathered through systems integration can provide the building-performance metrics to help better understand the return on investment (ROI) of the building systems. This data is used to better understand the environment and make assessments and improvements overtime to increase efficiencies. Moreover, analytics and data provide valuable insights into where action is needed and what type of return can be expected from key investments.

The smart home market has seen significant growth since 2010. Specifically, less than 0.5% of homes in the American region had connected home devices such as thermostats, lighting, security and entertainment in 2010; by the end of 2017, nearly 12% of households in the region will have connected home devices, an average of six devices per home. The success of smart homes started with professional security providers offering bundled packages, focused mostly on security monitoring. However, due to the cost of professional contracts, consumers began to embrace the do-it-yourself (DIY) approach. Despite the challenges and opportunities that come with professional and DIY approaches, the momentum of smart home growth depends on these two approaches working symbiotically. Smart Home Technology Partnerships A few recent examples include the relationship with Vivint and Best Buy and Vivint with Sprint. In most cases, Best Buy is a competitor to Vivint because a consumer can buy point devices and ecosystem and install it themselves or enlist the help of the Geek Squad. Even more recently, Nest announced optional professional monitoring with its Nest Secure products in partnership with MONI. Although this approach isn’t new, Scout Alarm, LiveWatch and SimpliSafe already have similar approaches, it continues to stress the need to combine multiple channels and approaches to the smart home market. Moreover, these are examples of symbiotic partnerships that will help the total market. In 2017, there were about 122 million smart home devices shipped globally. The retail channel represented about 62 percent of all device shipments in 2017 and will represent about 70 percent in 2021. Despite the increased demand for professional installation, the do-it-for me approach, most the volume remains with ad-hoc purchases. This includes a consumer video camera or a smart thermostat purchase from a retailer or when a consumer wants to add devices to an existing professionally installed system, they often will buy products from retail. There is a growing needto combine multiplechannels and approachesto the smart home market Furthermore, the multiple-system operator (MSO) and professional security provider channels will be evenly split in 2017; however, by 2021, the MSO channel is expected to be double the market size of the security provider channel. The primary reason for this rapid change over five years is the lack of professional security providers in EMEA and APAC; as a result, MSOs will dominate the professional channels in these regions, while across North America, security providers will maintain a strong market presence. Top Trends In Smart Homes A few of the top trends in smart homes to watch out for over the next 12-24 months include user interface, flexible services, cyber security and adjacent markets. The user interface trend continues to evolve for the smart home. Although voice commands are trending towards becoming the new user interface beyond 2017, the voice will not be the only means to control and interact with the smart home. Mobile phones or tablets will still be required to configure most devices. This means that although the Amazon Echo can control a WeMo plug, the consumer will still be required to download the WeMo app and configure the device. However, after the device is added to the same network as the Echo, the app is no longer needed on a day-to-day basis. Displays will also become increasingly popular throughout homes because the smart home is becoming increasingly isolating. Mobile phones or tablets will still be required to configure most devices in future smart homes DIY ecosystems such as Wink or SmartThings or Philips Hue lighting are often limited to one person with one mobile device. As a result, other members of the household would need access to that mobile device or would need access on their own device after being authorized by the primary user (all assuming a smart speaker is not being used). This is very limiting and the user experience is negatively affected. (Voice assistants like Google Home have added a feature to allow multiple accounts using voice recognition, which will help personalize smart homes.) However, displays in the home are a way to access all devices for anyone in the home. Smart Home Equipment Cost Flexible service offerings and pricing is already taking shape across smart home offerings. DIY installed smart home systems such as Scout Alarm already offer no contract monitoring. Professional monitoring companies are already offering no contract pricing and providers such as Comcast are looking to pilot programs for just video monitoring bundled with Internet for a low monthly fee. Options for financing are also going to become commonplace. Smart home equipment is expensive, especially when attempting out outfit a modest size home (2,500 square feet +). Immediate access to services is becoming more critical. This means consumers should be able to access on-demand service options directly from a mobile device to activate or deactivate professional monitoring. Lastly, pricing still needs to come down for many smart home devices but there is a threshold. Since many smart home devices today do not have a recurring monthly fee, the cost of maintaining mobile apps, platforms and support services must be propped up by higher device prices. However, companies can look to offset some cost by sourcing different material. According to the IHS Markit Teardowns Team, the cost of the metal ring on the Nest 3rd Generation thermostat is $10, which is more expensive than the LCD display which comes in at $9. In comparison, the Ecobee3’s most expensive part is the LCD screen at about $4.00. As a result, the Ecobee3 costs nearly $20 less to manufacture compared with the Nest 3rd Generation thermostat. Smart Home Security Securing the smart home will be a hot topic over the next 12 months. One method of change will be manufacturers requiring consumers to change default passwords. Manufacturers need to start requiring consumers to change passwords before a product can be used. Home routers, for example, often use ‘admin’ as the username and ‘password’ as the password and most users never change these. For elder care, door/window sensors and motion sensors could be used in combination with software to monitor routine The challenge that many consumers and suppliers face today is that many passwords are built directly into the firmware and the consumer has no way of making changes. As a result, the integrity of the device comes down to the supplier. As threats become more severe with ransomware and other botnet attacks, manufacturers will need to implement additional thresholds of threat assessments to keep consumers safe. One method involves two-factor authentication. IHS Markit expects the monetization of cyber-security for residential customers to start appearing in 2018. This means that security service providers would monitor network traffic for the consumer. The software would not be monitored or implemented directly by the consumer; instead, the service provider will take care of all the monitoring of network traffic. What this means is that the software or router would monitor network traffic for patterns and manage which servers are pinged by IoT devices such as consumer video cameras. Care Homes And Insurance Companies Although the compound annual growth rate (CAGR) for smart home device revenue is set to exceed 50% through 2021, the growth could be much higher with support from adjacent markets such as elder care, construction/developers and insurance companies. For elder care, door/window sensors and motion sensors could be used in combination with the software to monitor routine. If an elderly person suddenly changes their routine, this would alert caregivers. This same premise can be used in professional elderly care settings to help staff prioritize patient needs. IHS Markit expects the monetization of cyber-security for residential customers to startappearing in 2018 Working with insurance companies is another method of reaching the customer with smart home devices; however, the use of insurance is highly fragmented across regions. As a result, North America is the best opportunity as of 2017 to partner with insurance companies. Furthermore, insurance companies are mostly interested in managing the entire ecosystem. Blending Professional And DIY Smart Homes While offering subsidized equipment (smoke detectors and water leak detection) can reduce claims, insurance companies need to have full access to the data – as a result, they are more interested in creating their own platform from scratch or working with a provider to support data analysis. Working closely with builders will also continue to gain traction, especially across EMEA and APAC. By working closely with builders, this reduces the challenges associated with B2C channels and the overall cost of the system can be masked by the mortgage payment, resulting in more system installations with less distribution expense. Overall, the line between professional and DIY smart home is blending. CEDIA and Amazon recently announced a collaboration and Netgear Arlo announced the first wire-free and battery-operated ONVIF compliant camera. With the combination of voice-control, consultations from Amazon and Best Buy, the reduction in the pile of smart home hubs in the basement as more protocols are embedded in gateways/routers, and no further need for the special Apple chip for HomeKit compliance after iOS 11, smart homes are becoming easier to achieve both for consumers and professionals.

ASAP-to-PSAP technology automates communications between alarm monitoring companies & PSAPs and dispatches emergency service In April 2015, Cary, N.C., adopted a technology called Automated Secure Alarm Protocol to Public Safety Answering Point (ASAP-to-PSAP), but currently they are among only a handful of emergency 911 call response locales that use ASAP-to-PSAP technology in the United States. Commander Scott Edson of the Los Angeles County Sheriff’s Department, speaking to a seminar gathering at ISC West, emphasized the importance of rolling out more implementations of ASAP-to-PSAP. The technology benefits residential and commercial alarm monitoring companies and their customers by eliminating dispatching errors and speeding dispatching times. There are 6,500 PSAPs that respond to emergency 911 calls in the United States. They take more than 250 million 911 phone calls per year from the public and from central station alarm monitoring companies. PSAPs then route the information from 911 calls to the right emergency service and then dispatch police or fire services. ASAP-to-PSAP technology automates the communications between alarm monitoring companies and PSAPs and dispatches the emergency service. The Central Station Alarm Association, the Association of Public Safety Communications Officials and Vector Security developed the software technology back in 2009. So what’s the implementation hold-up? “As always, funding is the issue,” says Ron Lander, CPP, principal with Ultrasafe Security Specialists in Norco, Calif. “The cities don’t want to spend the money. The central stations want to implement it. They say it will reduce personnel needs.” Replacing central station phone calls with data entered by a central station operator offers three major benefits, according to a PowerPoint presentation developed by Bill Hobgood, project manager with the Richmond, Va., Public Safety Team. First, it eliminates telephone calls between alarm monitoring companies and PSAPs, which take up time that could be spent with individual 911 callers, who might be in immediate physical danger. It eliminates the inevitable miscommunications between two human beings talking on the telephone – “Speak up, I can’t hear you.” “Was that Fourth Street or Fifth Street?” “Oh, Fifth Avenue, sorry.” Then there are also communications problems related to language in our increasingly multi-cultural society. Finally, and perhaps most important, it speeds the processing and response times by crucial minutes. Research shows that an ASAP communication takes 15 seconds or less to dispatch police or fire units. By comparison, a telephone communication takes 1.5 to 3 minutes or more to dispatch units. Upon implementing ASAP-to-PSAP, there was a 13 percent drop in the number of police alarms handled by telephone An ASAP application carries out three tasks. It translates data from the alarm monitoring company into a format that the PSAP technology can read and process. Second, it updates the alarm monitoring company on the status of the alarm— message accepted and referred to the right emergency service or rejected for one reason or another. Finally, an ASAP application provides continuing updates including cancellation notices from the alarm monitoring company, notices that emergency service has been dispatched, notices that emergency responders have arrived at the scene and notices that events have been closed out. Houston implemented the technology in 2011 and has reaped enormous benefits. According to Bill Hobgood, Houston encompasses 634 square miles, has a population of 2.3 million people and runs the nation’s fourth largest PSAP. The city receives more than 2,600 police alarms weekly from 43,000 alarm systems monitored by three alarm companies. Upon implementing ASAP-to-PSAP, there was a 13 percent drop in the number of police alarms handled by telephone. Non-emergency telephone calls declined by 15 percent. The PSAP estimates that it is saving $1 - $2 million annually. What about accuracy and response times? Hobgood studied results in his own city of Richmond as well as York County, Va., in the Tidewater region, both of which implemented ASAP-to-PSAP in 2011. Hobgood’s study found that when the system eliminated call-taker involvement, it eliminated spelling mistakes and accidental transposition of street address numbers. It also eliminated problems related to low-volume headsets and accents. Those are impressive business and performance improvements, which is driving Commander Edson’s interest in rolling out more implementations.

With Hub 2, a user will no longer need to live under round-the-clock camera surveillance to know why an alarm has gone off. Like the first generation of hubs, Hub 2 protects the user’s property against burglars, fire, and flood. But unlike its predecessors, it sends not only alarm notifications but also animated series of images from MotionCam motion detectors.  Thanks to the optional Wings radio protocol, a built-in battery, and two SIM card slots, Hub 2 is independent of the guarded facility infrastructure. It will continue protecting the user’s family and property, even if the building has lost power and Internet connection. Hub 2 is a control tool for safe homes, offices, shops, or even industrial facilities. The control panel can manage up to a 100 of Ajax detectors and devices on a distance of up to 2000 meters. Protection of any scale And this is not the limit - the ReX radio signal range extender boosts the hub’s coverage area to up to 16 km². The new hub has three channels to communicate with the users and security companies: Ethernet and two slots for SIM cards. The second slot allows users to improve stability by choosing two different GSM operators. And thanks to the instantaneous switching between communication channels, Hub 2 is guaranteed to transmit photos and alarms even with an unstable Internet connection. The list of features of the Ajax hubs expands every year with the regular updates of the OS Malevich operating system. To ensure the future development of the Hub 2, Ajax Systems has increased the amount of ROM and RAM and equipped it with a fast processor.

Even the most reliable security equipment is never fully protected from false alarms. Most of the time, they occur due to simple oversights, hyperactive pets, or incorrect installation. But when the security companies react to false alarms, they risk getting late in case of a real emergency. Some send security patrols to check the unverified alarms right away. The others count the detector triggerings before responding and lose precious minutes in the result. In any case, false alarms bring stress for the consumers and the risk of suffering losses. Prime security companies found the solution in photo and video alarm verification. Both options came with serious compromises. On the one hand, motion detectors equipped with cameras provided a technical possibility to see what triggered the alarm. But the systems that support such devices required frequent maintenance (due to low battery life), delivered low-quality pictures, and were significantly overpriced. Wireless security system On the other hand, video surveillance allowed for a 24/7 monitoring but came with the new difficulties: complicated installation and configuration, total dependence on the building’s infrastructure, high risks of malfunctioning and exploits, as well as the privacy issues. Both solutions didn’t have a chance to become the new security standard. The market required the new cost-efficient solution that would unite the reliability and informing efficiency of the best security systems with the visual capabilities of the cameras. Ajax Systems was one of the first ones to develop the security system with visual alarm verification. Just like they were not the ones to invent wireless security system when launching Jeweller. Parallel transmission of alarms With Wings, the user can view the first snapshot of the situation in under 9 seconds But that fact gave them company an opportunity to rethink the experience of using the equipment from the consumer’s and the service provider’s points of view. They tested and analyzed the weak spots and best practices in the industry and eventually created a breakthrough product in terms of informing speed, communication distance, and battery life. To ensure fast and reliable transmission of the photo confirmations, the company developed a new Wings radio protocol based on Jeweller. The technologies that MotionCam and Hub 2 use to communicate, nullify the interference between channels during the parallel transmission of alarms and pictures. With Wings, the user can view the first snapshot of the situation in under 9 seconds while the alarm signals sent via Jeweller are still delivered in a split second. Camera-equipped detector Photo transmission does not shorten the MotionCam communication range. Just like the rest of the Ajax detectors, the new gadget operates at a distance of 1700 meters from the hub. This number is one of the top performance results for a camera-equipped detector. The Ajax security system still covers an area of up to 12 km², which is enough to protect the multi-story buildings but now with visual alarm verification. MotionCam features an extraordinary - for a camera-equipped detector - autonomy with up to 4 years of battery life. This is not an optimistic forecast with ideal use conditions. Instead, it is an estimate for the typical operating conditions, which includes the regular activations and changes in weather conditions. And they have considered the privacy issue. The MotionCam detectors activate their cameras only if triggered by motion when the system is armed. Indoor motion detector Without a doubt, the Wings technology sets the new standards in the security industry" The users and the security company have no way to access the camera and request to take pictures. All photos are encrypted during transmission, and as they are stored at the Ajax Cloud (just like all the events in the security system’s log). No one analyses and processes the photographs from the detectors. MotionCam and Hub 2 raise the informing quality of the Ajax security system to the next level while preserving its fundamental characteristics. MotionCam can easily replace any indoor motion detector, which makes upgrading the security system as painless as possible. It will forever change the user’s attitude to alarms, yet they still won’t be bothered with the system maintenance for years to come. Phenomenal energy efficiency “I am proud that we can make such inventions. Without a doubt, the Wings technology sets the new standards in the security industry. Fast photo transmission at a distance of 1700 meters with phenomenal energy efficiency, it’s magic that was previously unavailable on the market. We’ve managed to boost the informing quality of the system to the next level and preserve the familiar user experience at the same time”, says Aleksandr Konotopskyi, CEO Ajax Systems.

With the update of translator software, SBN monitoring stations are now able to process photo confirmations of Ajax security systems. Photos from MotionCam detectors will allow SBN operators all across Europe to evaluate the situation remotely and filter false alarms. Application of Ajax photo verification technologies eliminates dispatching of security guards and police officers at false alarms. As a result, monitoring centers operate more efficiently and gain trust from local police enforcements. Seamless user experience To make photo verification accessible to as many partner security companies as possible became an essential task for us following the MotionCam release, since seamless user experience is encoded in Ajax Systems DNA. That’s why in just 1.5 months, we’ve implemented the integration of Ajax Cloud into SBN, one of the most popular CMS software in Spain and Portugal”, said, Aleksandr Konotopskyi, CEO Ajax Systems. MotionCam detectors take up to 5 photos upon motion detection. In under 9 seconds, users and SBN operators receive the first picture and can start analyzing the situation. Innovative Wings radio protocol allows to install detectors on a distance of up to 1700 meters from the hub and operate up to 4 years on the pre-installed batteries. Moreover, MotionCam never takes a picture by request. The camera activates only when the detector is triggered. Within the next couple of days, Translator update will become available to all Ajax Systems partners. Besides SBN, support of MotionCam photo confirmations is also realized in Ajax PRO Desktop (software for administering and monitoring security systems), ABsistem and in Manitou CMS.