Fully-Automated Interference Hunting
An easy-to-use solution that allows users to quickly locate an interference source by following guidance on a tablet-based map application.
Identifying and rectifying interference issuesin a mobile environment is a challenging but critical task. Mobile users near the interference source will experience degraded call success rates, increased dropped calls, decreased battery life, poor voice quality, and reduced data throughput. Detecting, locating, and finally eliminating sources of RF interference is critical to maintaining good user experience throughout the network.
VIAVI InterferenceAdvisor™, our fully automated interference hunting solution, is the most user-friendly solution available today. Simple to set up and completely intuitive, InterferenceAdvisor allows one RF engineer to easily identify and locate an interference source with minimal effort: voice prompts simply direct the engineer to the source of interference. What used to take days to troubleshoot can now be done in hours by following a few simple steps.
InterferenceAdvisor is versatile tool that can help in isolating all types of RF interference for common cellular channels.
Highlights:
Automated interference area indication and navigation guide
Voice prompt guides the driver to the estimated interference location
Built-in accessories minimize cabling requirements
Cable-free Android tablet with WiFi connection
Spectrum control display allows for detailed signal monitoring
Gated sweep control and display for TDD interference hunting
Benefits:
Reduces setup time by providing an integrated antenna solution with a GPS antenna, minimizing cable requirements
Supports three tracking modes: RSSI, Channel Power and Peak Power--to track down most of types of interference signals
The fully automated EagleEye™ software, running on an Android device, provides visual and voice prompts to guide engineers to the suspected area of interference, eliminating the need for guesswork
Spectrum display quickly allows engineers to validate any change in signal strength of the interfering source and its location