CHARLOTTESVILLE, VA, October 28, 2008 â€“ This month, Virginia Tech conducted the first campus-wide test of its emergency mass notification system since installing visual alerting displays. During the multi-modal test, Virginia Tech instantly communicated to the vast majority of its campus community with Inova Solutionâ€™s OnAlert LED displays, while other modes of communication, such as SMS/text and email messages, took up to 20 minutes to deliver messages.
"A college campus is like a small city, so itâ€™s important to have multiple communication channels," said Larry Hincker, Virginia Techâ€™s Associate Vice President for University Relations, explaining that Virginia Tech has more than 29,000 full-time students and 1,300 full-time instructors. With the largest full-time student population in Virginia, the main campus includes more than 130 buildings, 2,600 acres, and an airport.
Supplementing audio alerts with visual alerts helps ensure a comprehensive mass notification program. Failure to use multi-modal systems can result in ineffective or incomplete crisis communications because:
â€¢ Most cell phone towers are ill-equipped to handle a spike of incoming and outgoing communication traffic as a result of an emergency situation. In some cases, this can delay message transmission by up to two hours.
â€¢ Large academic buildings are notorious for poor mobile device coverage. In some cases, the use of mobile devices is even prohibited during lectures.
As demonstrated by the tragedy at Virginia Tech on April 16, 2007, the intensity and frequency of campus violence and other disasters has increased in recent years, prompting law enforcement and emergency management personnel to develop more sophisticated campus security and mass notification strategies. Virginia Techâ€™s previous emergency response plan included email and SMS/text messaging, but critical â€œsoft spotsâ€ limited the reach in captive spaces, such as classrooms and hallways.
Virginia Techâ€™s Solutions
Virginia Tech thoroughly researched alternative modes of communication, concluding that some are unreliable or excessively costly, such as PA systems. In August 2008, Virginia Tech selected OnAlert displays as part of its â€œVT Alertsâ€ mass notification plan.
Comprised of a variety of methods, VT Alerts includes a mix of SMS/text messaging to mobile devices, calls to home, office, or mobile phone numbers, email notification, and LED displays. The system cycles through all points of contact for a recipient until confirmation of receipt is received. For example, students may rank their top three preferred methods, and VT Alerts will use the preferred, quickest method of delivery.
The benefit of augmenting a broad-reaching delivery mechanism with LED displays is threefold:
â€¢ In emergency situations, students, faculty, and staff without ready access to mobile or networked devices will receive instant notification.
â€¢ LED displays can be powered by an organizationâ€™s own network through Power-over-Ethernet (PoE) technology, using consolidated, uninterruptible power supplies.
â€¢ LED displays counteract wireless delays by providing instant notification.
When an important message is posted to the LED boards, a brief audible tone and message color indicates urgency. Virginia Tech installed more than 200 OnAlert LED displays in general assignment classrooms and other high-traffic locations. Full deployment of the displays was completed within 60 days of the purchase decision. Additional message boards are under consideration. For the complete case study on Virginia Techâ€™s use of Inova OnAlert mass notification displays, go to http://www.inovasolutions.com/mass-notification/landing/virginia-tech-emergency-response-plan.htm.
What Are Inova OnAlert LED Displays?
Inova OnAlert is a visual communications system that processes and displays customized messages on bright, visible LED wallboards. The displays normally show time and date information, and draw attention with audible alerts and/or color changes for emergency messages. The displays have a wide viewing angle and can be clearly seen from more than 100 feet away. In the Washington Metrorail system, the displays were among the few functional communication devices in Washington, D.C., following the terrorist attacks of 9/11. The displays provided informational and directional messages that led passengers to safety.