Delta Scientific Safety & Security Gates(14)
The TT280 Linear Crash Gate will withstand the impact of a 6,803 kg vehicle striking the gate at 80 KPH, suffering no significant damage. The TT280 was created for the highest security applications such as embassies, government facilities and corporate headquarters. The gate can be tailored to match the surrounding decor in a wide variety of architectural treatments. Delta Scientific's sliding security gates are all crash rated. One model, the TT280, pictured here, exceeds every known standard for crash worthiness. Some models operate without contact with the ground across the opening, one is a manually operated swing gate while others operate with rack and pinion drives across V-groove wheel ground tracks while incorporating IR safety beam and safety edges. Swing versions are also available. The clear openings range from 12 to 30 feet (3,657 mm to 9,144 mm). The standard height for all, except the swing gate, is 109 inches (2,769 mm).Add to Compare
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Public spaces in cities and suburbs are important places for community development and promoting outdoor recreation. These areas may include main streets, parks, promenades, band shells and fields. Such locations are often utilised by public event planners for community activities, including summer festivals, wintertime ice skating rink installations, music concerts and art fairs. As the year drew to a close, holiday and Christmas markets as well as major New Year’s Eve events, presented cities with constant public event security needs. The public nature of these events increases risks of incidents with high-speed vehicles that put attendees in danger. Fortunately, there are three ways for public space managers to prevent casualty-causing collisions and further promote the use of local public areas. Developing an effective action plan When strategising how to react to an alert, think about what time of the year and time of day the event is occurring It is important to have a plan developed before an incident or accident occurs. Warning systems, utilising doppler radar and digital loop technologies, alert guards to abnormal vehicle velocity changes in the surrounding area. Managers of public areas should organise a meeting with public safety authorities and local agencies to discuss what must immediately occur when a high-speed vehicle is approaching a public event. When strategising how to react to an alert, think about what time of the year and time of day the event is occurring. Having such a reaction plan in place combines technology and strategic planning to ensure everyone is on the same page to effectively target a threat and promote overall event safety. Securing public areas Ideally, there will be no need to implement a well-conceived action plan. After all, taking preventive measures to secure public areas where events take place is important to keep people safe from accidental vehicle collisions and intentional attacks. Protect attendees by clearly separating pedestrian and vehicle locations using security devices such as – Barricades Portable barriers Bollards Install guard booths Avoid the risk of vandalism and theft, making sure people are safe when walking back to the cars at night by keeping parking areas illuminated with flood lights. Install guard booths with employees who monitor activity in the parking area and who are prepared to react if an alert is triggered. Furthermore, prevent accidental collisions by clearly marking the parking area with informative warning signs and using barricades to direct traffic. These three tips can be used by public area managers to promote security at the next community event. Additionally, the technologies used to secure an event can also be used as infrastructure for year-round security. Installing gates that shut when the public space is closed or using aesthetically pleasing bollards are steps any public area manager can take to promote community safety.
From satellite imagery to street views to indoor mapping, technology has disrupted our past world. This has left us dependent upon new ways to visualise large spaces. This new world has brought many benefits and risks. But what does that mean for the security professional or facility manager today and what technologies can be used to secure buildings and improve facility operations? A brief history of 3D technology Starting May 5, 2007 (inception 2001), Google rolled out Google Street View to augment Google Maps and Google Earth; documenting some of the most remote places on earth using a mix of sensors (Lidar/GSP/Radar/Imagery). The mission to map the world moved indoors May 2011 with Google Business Photos mapping indoor spaces with low cost 360° cameras under the Trusted Photographer program. In the earlier days, 3D scanning required a high level of specialisation, expensive hardware and unavailable computing power With the growth of 3D laser scanning from 2007 onwards, the professional world embraced scanning as effective method to create digitised building information modelling (BIM), growing fast since 2007. BIM from scanning brought tremendous control, time and cost savings through the design and construction process, where As-Built documentation offered an incredible way to manage large existing facilities while reducing costly site visits. In the earlier days, 3D scanning required a high level of specialisation, expensive hardware, unavailable computing power and knowledge of architectural software. Innovation during the past 8 year, have driven ease of use and lower pricing to encourage market adoption. Major investments in UAVs in 2014 and the commercial emergence of 360° photography began a new wave of adoption. While 3D scanners still range from $20K – $100K USD, UAVs can be purchased for under $1K USD and 360° cameras for as low as $100. UAVs and 360° cameras also offer a way to document large spaces in a fraction of the time of terrestrial laser scanners with very little technical knowledge. Access to building plans, satellite imagery, Google Street View, indoor virtual tours and aerial drone reconnaissance prove effective tools to bad actors The result over the past 10+ years of technology advancement has been a faster, lower cost, more accessible way to create virtual spaces. However, the technology advances carry a major risk of misuse by bad actors at the same time. What was once reserved to military personal is now available publicly. Access to building plans, satellite imagery, Google Street View, indoor virtual tours and aerial drone reconnaissance prove effective tools to bad actors. Al Qaeda terror threats using Google Maps, 2007 UK troops hit by terrorists in Basra, 2008 Mumbai India attacks, 2016 Pakistan Pathankot airbase attacks, ISIS attacks in Syria using UAVs, well-planned US school shootings and high casualty attacks show evidence that bad actors frequently leverage these mapping technologies to plan their attacks. The weaponization of UAVs is of particular concern to the Department of Homeland Security: "We continue to face one of the most challenging threat environments since 9/11, as foreign terrorist organisations exploit the internet to inspire, enable or direct individuals already here in the homeland to commit terrorist acts." Example comparison of reality capture on the left of BIM on the right. A $250 USD 360° camera was used for the capture in VisualPlan.net software What does this mean for the security or facility manager today? An often overlooked, but critical vulnerability to security and facility managers is relying on inaccurate drawing. Most facilities managers today work with outdated 2D plan diagrams or old blueprints which are difficult to update and share.Critical vulnerability to security and facility managers is relying on inaccurate drawing Renovations, design changes and office layout changes leave facility managers with the wrong information, and even worse is that the wrong information is shared with outside consultants who plan major projects around outdated or wrong plans. This leads to costly mistakes and increased timelines on facility projects. Example benefits of BIM There could be evidence of a suspect water value leak which using BIM could be located and then identified in the model without physical inspection; listing a part number, model, size and manufacture. Identification of vulnerabilities can dramatically help during a building emergency. First Responders rely on facilities managers to keep them updated on building plans and they must have immediate access to important building information in the event of a critical incident. Exits and entrances, suppression equipment, access control, ventilation systems, gas and explosives, hazmat, water systems, survival equipment and many other details must be at their fingertips. In an emergency situation this can be a matter of life or death. Example benefit of reality capture First Responders rely on facilities managers to keep them updated on building plans A simple 360° walk-through can help first responders with incident preparedness if shared by the facility manager. Police, fire and EMS can visually walk the building, locating all critical features they will need knowledge of in an emergency without ever visiting the building. You don’t require construction accuracy for this type of visual sharing. This is a solution and service we offer as a company today. Reality capture is rapidly becoming the benchmark for facility documentation and the basis from which a security plan can be built. Given the appropriate software, plans can be easily updated and shared. They can be used for design and implementation of equipment, training of personnel and virtual audits of systems or security assessments by outside professionals. Our brains process visual information thousands of times faster than text. Not only that, we are much more likely to remember it once we do see it. Reality capture can help reduce the need for physical inspections, walk-throughs and vendor site-visits but more importantly, it provides a way to visually communicate far more effectively and accurately than before. But be careful with this information. You must prevent critical information falling into the hands of bad actors. You must watch out for bad actors attempting to use reality capture as a threat, especially photo/video/drones or digital information and plans that are posted publicly. Have a security protocol to prevent and confront individuals taking photos or video on property or flying suspect drones near your facility and report to the authorities. Require authorisation before capturing building information and understand what the information will be used for and by who.There are a number of technologies to combat nefarious use of UAVs today Nefarious use of UAVs There are a number of technologies to combat nefarious use of UAVs today, such as radio frequency blockers and jammers, drone guns to down UAVs, detection or monitoring systems. Other biometrics technologies like facial recognition are being employed to counter the risk from UAVs by targeting the potential operators. UAVs are being used to spy and monitor for corporate espionage and stealing intellectual property. They are also used for monitoring security patrols for the purpose of burglary. UAVs have been used for transport and delivery of dangerous goods, delivering weapons and contraband and have the ability to be weaponised to carry a payload.Investigating reality capture to help with accurate planning and visualisation of facilities is well worth the time The Federal Aviation Administration has prevented UAV flights over large event stadiums, prisons and coast guard bases based on the risks they could potentially pose, but waivers do exist. Be aware that it is illegal today to use most of these technologies and downing a UAV, if you are not Department of Justice or Homeland Security, could carry hefty penalties. Facility managers must have a way to survey and monitor their buildings for threats and report suspicious UAV behaviours immediately to authorities. At the same time, it’s critical to identify various potential risks to your wider team to ensure awareness and reporting is handled effectively. Having a procedure on how identify and report is important. Investigating reality capture to help with accurate planning and visualisation of facilities is well worth the time. It can help better secure your facilities while increasing efficiencies of building operations. Reality capture can also help collaboration with first responders and outside professionals without ever having to step a foot in the door. But secure your data and have a plan for bad actors who will try to use the same technologies for nefarious goals.
As anyone who has ever flown on a commercial airline since 2001 knows, security measures at airports are well enforced and the emphasis on traveller safety is all around the airport and its grounds. Mass transportation, meanwhile, presents a special but not any less significant challenge when it comes to determining security issues. These facilities need to develop the means to protect a constantly changing and large population of passengers. And unlike airports these facilities often have hundreds of points of entry and exit on multiple modes—buses, subways, light rail, commuter trains, even ferries. About 2 million Americans will use the nation’s airways on a given work day, while 35 million people will board some form of public transportation. In fact, statistics have shown that nearly 11 billion trips are taken on public transportation every year. In some large metropolitan areas in North America where mass transit is well established, more than 20 percent of the area’s inhabitants get around via public transportation.About 2 million Americans will use the nation’s airways on a given work day, while 35 million people will board some form of public transportation Solving mass transit security For transportation officials and their security providers, solving the mass transit security issue begins with determining the key concerns and then creating the proper responses via security systems, policies and procedures to mitigate the risks. Although vandalism and graffiti are very visible signs of criminal behaviour in mass transit settings such as bus stops and subway stations, this is not where transportation officials typically focus their energy. Fences and gates can secure out-of-service buses and train cars, as can remote surveillance methods to keep such vandalism at a minimum. Instead, it is the day-to-day safety and security of transit riders and employees that should become the highest priority. This begins with creating the safest environment possible that is highlighted with appropriate signage and, when necessary, audible warnings, and supporting that with technology, such as surveillance cameras, that will document what has happened if an incident occurs.Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package Crime prevention in transportation Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package Incidents of concern within a transit setting can take several forms, ranging from legitimate accidents or crimes to false claims such as faked fall down the stairs to potential and actual suicides. Bus and subway stations also have become magnets for homeless people who may put themselves and others in harm’s way by trying to access less secure public areas within a station as temporary shelters. If someone is injured on a subway platform and the transit provider is held liable, it could be on the hook for hundreds of thousands, if not millions of dollars. Suicides are a major concern for operators, with personnel now being trained to look for individuals who seem distressed, are loitering in the area or are intentionally putting themselves in a dangerous situation, such as standing too close to the edge of a platform. The deployment of video analytics, which can be programmed to send alerts when certain pre-set actions occur, can help determine when such dangerous behaviours come into play. Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package or a person going into a restricted area. Whether it is on the bus, train or ferry or at the stops themselves, cameras and intuitive video management systems are the key to both active and forensic transit security. Some cities use buses that are up to 60 feet long and those can be equipped with up to a dozen cameras Train security and safety By using the proper cameras and recording systems in a transit environment, quick-acting personnel can locate a person of interest who boarded a train at one station, follow him during his trip and produce a crisp, clear identifiable image at the end. Those setting up the system thus should keep in mind proper camera positioning, resolution and motion-based changes to framerates or other compression settings. A typical 30-foot bus often has six cameras—one each at the front and middle doors, two more within the bus and then one looking forward and another looking behind the bus. The latter two are important in the event of accidents to verify liability. Some cities use buses that are up to 60 feet long and those can be equipped with up to a dozen cameras.Train stations often deploy high-definition cameras to better support facial recognition software to get that actionable image Train cars are similarly equipped with two to four cameras to view activity down the centre aisle. Within the stations themselves, there can be from 15 to 30 or more cameras capturing wide-angle shots. Train stations, which have a restricted point of egress, often deploy high-definition cameras to better support facial recognition software to get that actionable image. Installing the right technology for the solution Although bandwidth and storage can be a concern, with motion-based recording, the resolution can be bumped up during event, resulting in a 1-megapixel stream jumping to 4 or even 8mbps when needed. By changing the resolution on demand, end users can cut their storage needs significantly. Transportation settings often rely on the same technology used in other security installations, primarily mini dome cameras, although there are some mini transit domes built specifically for the environment with the proper aesthetics. Because of vandalism threats, transit typically avoids pendant mounts, which can be more easily grabbed and damaged. Temperature ratings for cameras also come into play in cold climates with cameras often getting outdoor exposure.Today’s new buses and trains are constructed with the cameras onboard and newer stations also take security into consideration at the earliest design stage As trains and buses move along their routes, especially those that service outlying areas, Internet connectivity becomes an issue as well. Because it may be difficult for video to be sent in transit, security bus barns are equipped with Wi-Fi so video from onboard cameras can be downloaded at the end of the day. And the use of hardened recorders at the stations allows security personnel to retrieve recorded video. Transit security with modern technology Today’s new buses and trains are constructed with the cameras onboard and newer stations also take security into consideration at the earliest design stage. Older infrastructure from long-standing subway and bus terminals can prove to be a challenge when adding security, but these issues aren’t insurmountable. Often the solution is to add more cameras to cover the same square footage because of less-than-ideal sight lines and to place conduit wherever it works best, which may mean positioning it under platforms or in other out-of-the-way places within older stations. Looking ahead, transit security will continue to evolve, not only as new stations and modes of transportation are added to the system, but in terms of communicating with commuters. People can expect to get mass notification alerts on their mobile devices, and those same devices can provide vital data to transportation entities to better develop their overall systems.
Video, access control and visitor management are among the technologies that are enabling greater safety and security at hospitals and other healthcare facilities. Video surveillance systems enable hospital management and security professionals to know what goes on in and around a medical facility. Recording images in high resolutions (megapixels and gigapixels) is becoming more and more important in healthcare, says Jason Ouellette, Product Line Director – Access Control, Tyco Security Products. Video event management software Video analytics are now being leveraged for patient tracking, asset tracking, and operational purposes If an incident occurs in a medical facility, the security staff has to be able to identify faces easily and accurately. Storage and costs have to be considered, of course. With technology improving and prices decreasing, video solutions can even be used for purposes beyond traditional security. For example, video analytics are now being leveraged for patient tracking, asset tracking, and operational purposes, and captured video can be used to defend against liability claims. What’s next? Video analytics will continue to be a valuable addition to any surveillance infrastructure due to its ability to address patient needs, operational efficiencies and early risk detection, says Brandon Reich, Senior Director of Surveillance Solutions, Pivot3. Through video event management software (VEMS), hospitals can customise the statistics that are relevant to their individual buildings or campuses without having to spend extra time or money on rigorous employee training. Data capture form to appear here! Real-time access control security updates Furthermore, once healthcare facilities are able to digitise all of their patient records, secure any of their ingress and egress points with real-time access control security updates, and fully transition from analogue to IP video surveillance cameras, VEMS systems that house analytical software will be able to multiply the benefits offered to hospitals, not just in real time, but in planning ahead for future risk, expansion and safety protocols. It is vital to implement integrated and innovative access control solutions With large, complex facilities, directors of security at hospitals struggle with controlling access to various levels of the facility, according to Eric Widlitz of Vanderbilt Industries. To manage the risks that hospitals face and ensure a comprehensively protected atmosphere for patients and staff, it is vital to implement integrated and innovative access control solutions. For example, ease of access with controlled entrances is vital to medical crash teams, as is the need for a zonal access control lockdown in the event of a contagious disease outbreak. Strict access limitations Different hallways, rooms, floors and waiting areas within a hospital require different amounts of restriction, and sensitive materials, such as medical files, controlled substances and sterile environments (such as operating and procedure rooms) all necessitate an additional layer of protection. Access control in particular has advanced significantly to offer healthcare facilities the ability to control access remotely, through mobile applications, confirm identity quickly and easily and program varying levels of access for visitors, patients, doctors and staff. One area that is recently experiencing rapid growth – and drastic change – is the securing of narcotics within healthcare facilities, says Robert Laughlin, CEO and Chairman, Galaxy Control Systems. In the past, all medicine was controlled in a central pharmacy located somewhere in the hospital or health facility. These pharmacies were highly secured areas, with strict access limitations; only authorised staff could get near the medicine stocks. Fiber optic communication lines For vehicle access control, medical centers and hospitals prefer beam barricades and shallow foundation barriers To improve the speed of delivery, and to have the necessary medicines ready at hand for in-patients without retaining a large delivery staff, the current trend is to have distributed pharmaceutical closets or carts that hold medicines much closer to the intended patients. For vehicle access control, medical centers and hospitals prefer beam barricades and shallow foundation barriers, according to Gregg Hamm of Delta Scientific. Manual beam barricades are installed at the Fort Bragg Veterans Administration Hospital in North Carolina to shut down certain areas of the facility when a higher alert is sounded. They will stop a 15,000-pound vehicle traveling 50 mph. The Navy Hospital in San Diego uses high speed, high security and very shallow foundation barricades to control all vehicles going in and out of the facility. With their extremely shallow foundation, they obviate the concerns of interference with buried pipes, power lines and fiber optic communication lines. They will stop a 15,000-pound vehicle traveling 50 mph. At the National Institute of Health in Bethesda, Maryland, even stronger shallow foundation barriers are used for traffic control and protection. These barriers will destroy a 65,000-pound (5.4 million foot-pounds) dump truck traveling 50 mph and continue to stand. Physical access control systems Controlling visitors to hospitals and healthcare facilities can directly impact security Controlling visitors to hospitals and healthcare facilities can directly impact security. Traditional methods of visitor management, such as paper visitor logs and handwritten badges are insufficient given today’s variety of security challenges. A hospital using paper-based systems cannot easily cross-check information, confirm patient information, check visitor names against up-to-date watch lists, or visually confirm identity. An increasingly popular and important application is secure and simplified visitor management, integrated with the physical access control systems (PACS). Today’s visitor management systems enable the screening, badging and tracking all visitors or, at a minimum, those visiting critical areas or during ‘after hours’ periods, Quickly identify inappropriate visitors One other growing technology is the ability to link to internal or governmental watch lists, to quickly identify inappropriate visitors before they gain access to the facilities. For example, Visitor Management systems can be configured to perform a Sex Offender search in both Children’s Hospitals and Pediatric areas, further decreasing the likelihood that someone of the list could gain access. Wayfinding is indoor navigation to guide a person step-by-step on the way to a desired destination HID Global and Phunware Inc. are addressing the need of healthcare institutions to deploy standardised technology to provide a better wayfinding and visitor engagement experience inside the hospital, across campus and even in parking lots. The companies are collaborating to improve the experience for hospital patients and visitors to find their way within medical facilities, using wayfinding on their mobile phones. Wayfinding is indoor navigation to guide a person step-by-step on the way to a desired destination. Enterprise-level mobile wayfinding “It’s easy for visitors and patients to get lost in hospitals, and every time they do it puts appointment times and patient satisfaction at risk,” says Rom Eizenberg, Vice President of Sales, Bluvision, part of HID Global “With our location-aware app on a mobile device, we equip the visitor to get instant, turn-by-turn navigation that creates a better experience than that which is currently available on the market.” HID’s healthcare IoT solution-enablement platform simplifies the delivery of real-time location of clinicians, patients and devices. The platform is enabled by Bluvision (part of HID Global). Phunware’s Multiscreen-as-a-Service (MaaS) platform also provides enterprise-level mobile wayfinding, engagement, data and more for other vertical markets, including retail, residential, hospitality, media and entertainment and more. Missed the rest our healthcare mini series? Read part one here and part two here.
Delta Scientific, the prominent manufacturer of counter-terrorist vehicle control systems used in the United States and internationally, announced that, on Monday, October 7, at approximately 7 am, a Delta MP5000 portable barrier stopped a stolen Dodge Ram pick-up truck at an entrance gate of the Naval Air Station - Corpus Christi. The stolen car was chased by the local police onto the base. The barrier then impacted the rear of the vehicle, disabling it. Simultaneously, the Air Station announced that an unauthorised person was on base and the facility immediately would go under lockdown with all gates secured to all traffic. Having taken flight after the truck was stopped by the barrier, the intruder was quickly apprehended within the hour and taken into custody by the Bureau of Alcohol, Tobacco, Firearms and Explosives. "This is the second attempted intrusion into the Naval Air Station - Corpus Christi in eight months," explained Greg Hamm, Delta vice president of sales and marketing. Control vehicle access "On February 14, a Delta MP5000 portable barrier stopped a stolen Ford Edge crossover SUV at the North Gate. The trespasser had driven across the base to escape but crashed into the Delta unit and erupted into flames. The driver was shot and killed." Delta's totally self-contained MP5000 mobile deployable vehicle crash barriers now carry an ASTM rating as high as M50, able to stop and disable a 15,000 lb (66.7 kN) G.V.W. vehicle moving at 50 mph (80.4 kph). They tow into position to control vehicle access within 15 minutes. No excavation or sub-surface preparation is required. Once positioned, the mobile barricades will unpack themselves by using hydraulics to raise and lower the barriers off their wheels. DC-powered pumps will then raise or lower the barriers. Once the event is over, procedures are reversed and the barriers are towed away.
Delta Scientific, global manufacturer of counter-terrorist vehicle control systems used in the United States and internationally, has announced that traffic access control professionals can now set up MP5000 portable barriers on concrete, asphalt, compacted soils or vegetation in 15 minutes or less to provide certified M50 stopping power against unauthorised vehicle access. Original models provide M40 protection while the new MP5000 models stop 15,000 pound (6804 kg) medium-duty trucks traveling at a speed of 50 mph (80.4 kph). M50 rated portable barrier system "Significantly, we are releasing the first M50 rated portable barrier system to the world at a time when military grade portable protection is imperative," emphasises Keith Bobrosky, Delta Scientific senior vice president. He adds, "With over 2,000 working units in the field over the past decade, this portable barrier has proven its capabilities to clients throughout the world. Especially important to our government customers and select commercial clients, high security professional can now protect assets that have traditionally required an M50 rating with a portable product." Deployed for international events and military facilities security The MP5000 is available in 12-, 16- and 20-foot openings. It is easily towed behind a truck or other vehicle to its location where it sets up in less than fifteen minutes. Once it has performed its duty, it is quickly packed up and towed to its next project. The MP5000 is self-contained and battery powered. It has been seen at G20 meetings, presidential inaugurations, papal parades, international embassies, municipal parades, Mardi Gras, stadiums and other civilian locales from the United States to Australia and is especially popular at forward operating military bases from Afghanistan through the rest of the world.
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