Orolia was contacted by a global defense infrastructure client to evaluate the obsolescence of its fixed site timing infrastructure, and the impact on overall system performance. This case study demonstrates how Orolia’s SecureSync® time server solutions can upgrade and enhance legacy defense timing infrastructure while preserving critical system functionality, at minimal cost.
Time Synchronization in a Public Safety Answering Point.
March 12, 2019
The Catawba County (Newton, North Carolina) E911 Communications Center had a problem: The inability to synchronize its systems to determine what time an incident occurred. They implemented an Orolia NetClock® GPS system that connected directly to a server. It is now the time server for the complete County network of over 1,000 computers.
Synchronizing Services With a Public Safety Answering Point
March 12, 2019
Terrebonne Parish (Louisiana) relied on wall clocks to provide less-than accurate time. As a result, CAD reports were depicting fire apparatus arriving prior to the call being received. Police and deputies’ times were equally as skewed. The Parish decided to purchase an Orolia NetClock solution. Terrebonne Parish now has the ability for its agency and remote agencies to add numerous items and offices for synchronization, ensuring that all their reports are accurate.
The Importance of Legally Traceable Time® In Criminal Cases
March 12, 2019
The Martinsville-Henry County 911 Center, located in Henry County, Virginia, installed an Orolia NetClock® time server
solution. During an investigation, there was some confusion as to the timeline of a homicide. The 911 Center was able to testify with certainty about the times that its recorder showed that the 911 calls were placed.
Broadcast Studio Synchronization System
February 13, 2019
When a major national broadcaster set out to update its synchronization infrastructure to provide precise timing and frequency control of its studio operations and broadcast transmissions, their contractor looked to Orolia to design and install a fault-tolerant 1PPS and 10 MHz distribution system for new digital equipment as well as legacy systems.
