Month: January 2020

The Monterey Bay Aquarium has a rich history of innovation. Since its founding in 1984, the facility has become one of the world’s leading public aquariums and ocean conservation organizations. Monterey Bay Aquarium has produced significant insights into the life history of sharks, sea otters, and bluefin tuna. The aquarium also was the first to exhibit a living kelp forest, and in 2004 it was the first to successfully exhibit and return to the wild a young great white shark. It is therefore no surprise that the Monterey Bay Aquarium desired the most innovative and state-of-the-art cameras as a key component for its security system, and Arecont Vision® was able to deliver what they required. The challenge The aquarium has a huge campus, with multiple separate properties and an average annual visitation of two million people. Until recently, the Monterey Bay Aquarium relied upon up to 60 analog cameras for its video security needs. With such a large area to cover and with so many people to monitor, this type of system proved increasingly unreliable and insufficient to its growing security needs. The aquarium’s securitystaff also found it a major inconvenience that accessories and other parts for the system were exclusive to the original provider, limiting the security team’s options both technically and financially. The footage from the analog cameras was monitored on monochrome screens and useful viewing of surveillance video was quite difficult at times. The quality of the images was low, and the inflexible nature of the cameras resulted in a number of blind spots throughout the aquarium’s large campus. The aquarium also has some very challenging lighting situations, requiring more specialized, versatile cameras in order to properly capture images. “We have some very difficult light levels here. The reflections of the water tanks can make certain areas lighter on camera than they are in person, or vice-versa,” stated Thomas Uretsky, Director of Security and Emergency Management for the facility. The security team reached the point where they knew they needed to upgrade. “The system needed more flexibility, multiple views on one camera, the works,” Uretsky said, “Blind spots needed to be eliminated, and we wanted as close to a 360-degree view as possible.” After thorough research, San Jose, California-based security integrator NSI Systems recommended Arecont Vision for the camera solution. The solution Mr. Uretsky and the team at Monterey Bay Aquarium collaborated with Arecont Vision regarding what they were looking for, where coverage was needed, and how to best fit in into their budget. Monterey Bay Aquarium chose ExacqVision as their video management system, another solid partner to help upgrade their prior surveillance system. Monterey Bay Aquarium, open sea tank coverage A range of different Arecont Vision cameras were ultimately deployed to serve the aquarium’s varying needs. Arecont Vision MicroDome® cameras were ideal for the ticketing area and customer lines. The series includes wide dynamic range (WDR) models, which can achieve clear images across extreme lighting conditions such as those found in some of the indoor spaces at the aquarium. MicroDome cameras have an extremely low profile and only a 4” diameter, making them ideal for discreet security surveillance. When asked for his thoughts about the MicroDome camera, Uretsky responded, “They are small and nearly invisible to anyone who doesn’t know what they’re looking for. The fact that they have such a small footprint makes them ideal for us in the ticketing and front entrance areas.” Another favorite at Monterey Bay Aquarium were Arecont Vision SurroundVideo® Omni G1 and G2 adjustable view cameras. The SurroundVideo Omni series utilizes a patented 360° track where each of its four megapixel sensors can be moved to cover virtually any angle. Remote motorized focus simplified installation with the Omni G2. Combined with the ability to interchange lenses, the Monterey Bay Aquarium now has the unique and flexible camera solution it required. The customizable features of the camera also simplify future changes that may occur at the aquarium, saving time and money if construction or remodelling were to occur. “The SurroundVideo Omni cameras are some of our favorites because we are getting four cameras in one. They have the most flexibility,” said Kevin Wright, Monterey Bay Aquarium’s Security Manager, “Our blind spots are much more limited, and we don’t need to use nearly as many cameras as we previously had in those areas.” Although each camera offers four separate views, only a single PoE (Power-over-Ethernet) cable and a single software license is required for integration with the Exacq software, further reducing costs. The result The system has performed incredibly well to date. Not only was it installed on time, but it was completed within budget. The Monterey Bay Aquarium monitors the system locally, 24-hours per day. The images are viewed on a dynamic video wall in the new security operations center. While most footage is viewed on-site, some cameras have been enabled with the Exacq software for remote monitoring at satellite offices. For example, holding areas for rescued sea otters can be viewed remotely by a research team. Arecont Vision cameras have helped the aquarium’s security department in a variety of ways, one of which is increasingly common – addressing bicycle theft. Individuals will sometimes access a public recreational trail that runs along the aquarium’s main campus to steal unattended bikes parked by visitors or staff. Unlike the previous analog surveillance system, Arecont Vision’s megapixel cameras are able to provide the security department with good views and high-resolution images when reporting such incidents to the police department. The project at Monterey Bay Aquarium fulfilled a vast array of surveillance requirements – indoor and outdoor scenes, large and small spaces, low- to high-lighting conditions – and Arecont Vision cameras addressed each of the challenges. The deployment of the new cameras made an impression on Uretsky and his team. One installation inspired ideas for another, and Arecont Vision helped make these potential security solutions a reality as well. The continual partnership between the aquarium, the system integrator, and Arecont Vision has resulted in…

Security has long been a top priority in the aeronautical industry, and air traffic management (ATM), which refers to the entirety of systems and actions required to manage the movement of aircraft both on the ground and in the air, plays a major role in maintaining secure aeronautical transportation. In different phases of operations, a wide range of diverse facilities and devices need to communicate with each other. An important aspect of ATM is that it must be able to operate in all kinds of conditions, including outdoors, in harsh weather and at remote sites, and all relevant data needs to be collected and monitored correctly and securely to maintain safe and stable operations. Based on this brief introduction, it is concluded that the devices and components comprising an ATM system must satisfy the following requirements: An industrial-grade rugged design suitable for harsh environments including outdoors, at remote sites, and over long distances to ensure that ATM operation is both reliable and stable. Top-notch network security to protect data from hackers. Since OT protocols such as Modbus are generally not designed with transmission security in mind, some governments require high-profile areas such as airports to use IT protocols for Internet-facing data transmissions. The most popular IT protocols in use today emphasize a highly secure design. Essential aspects of such protocols include data encryption, which presents a solid first line of defense against eavesdropping and hacking. SNMP, for example, is widely used in the IT field. Combined with SNMP Trap and Inform, SNMP can be used with both polling-based and alarm-based communication, making it one of the most popular protocols for airport monitoring. System requirements The ability to collect and monitor data from many different airport facilities, including runway lights, tower lights and navigation aids, as well as the ability to actively send data to the ATM server to minimize the response time for critical conditions. Devices must be able to operate reliably in both extremely harsh hot and cold environments so that the devices can be deployed in airports around the world. SNMPv3 and SNMPv3 Trap are required for authentication and active alarms, and data encryption is needed to prevent sensitive information from being stolen during transmission. Moxa solution A remote I/O system deployed at an airport can be used to acquire serial, digital and analog data from runway lights, tower lights and navigation aids, and then transmitted in real time to the control center. In addition, products that feature advanced remote I/O features and wide temperature operation are rugged enough to work 24/7 in all kinds of weather and harsh conditions to provide the non-stop operation demanded by airport operation codes. SNMPv3 and SNMPv3 Trap are required.  Since SNMP is a polling-based protocol, the control center can poll remote I/O status periodically via SNMP to make sure that all monitoring data is up-to-date. In addition, SNMP Trap can update data from remote sites to the control center actively. The user can set the threshold for the monitoring data and receive alarms immediately when preconfigured conditions are met. SNMP and SNMP Trap help ensure that status reports from airport facilities is always up-to-date and all emergencies can be handled promptly and properly. With respect to security, SNMPv3 and SNMPv3 Trap support authentication and data encryption, making version 3 the most secure of all SNMP versions. The most popular encryption algorithm used by SNMP is MD5. However, since MD5’s security weaknesses can be exploited by hackers, cybersecurity experts suggest using a more secure algorithm, like SHA2, to protect sensitive information. Moxa’s modular remote I/O products support the SHA224 and SHA256 encryption algorithms, both of which belong to the SHA2 family.