OPENGATE 2.0 Webinar: Improving Weapons Detection and Entry Throughput
Maintaining secure entry points without slowing down operations is a growing challenge for many organizations. High traffic environments require consistent screening, but traditional systems often create delays, increase manual checks, and disrupt the overall experience.
Security teams are expected to improve detection while keeping people moving. This balance is difficult to achieve with outdated technology.
Our recent OPENGATE 2.0 webinar focused on how modern weapons detection systems are helping organizations strengthen security while improving entry flow.
Entry Screening Challenges in High Traffic Environments
Entrances are one of the most important areas to manage. Schools, healthcare facilities, venues, and commercial buildings all rely on controlled access to maintain safety.
Many existing screening methods create operational issues:
- Frequent alarms caused by everyday items
- Manual bag checks that slow entry
- Inconsistent performance in busy environments
- Limited flexibility for different use cases
These challenges can lead to longer wait times and increased strain on staff.
How OPENGATE 2.0 Improves Detection and Throughput
The OPENGATE 2.0 webinar highlighted key improvements designed to support both security and efficiency.
The system allows people to move naturally through entry points while maintaining accurate threat detection.
Key capabilities include:
- Reduced nuisance alarms to limit unnecessary secondary screening
- Faster throughput to keep entry lines moving
- Stable performance in real world conditions
- Detection that extends beyond standard metal screening
These improvements help organizations maintain a strong security posture without interrupting daily operations.
Watch the OPENGATE 2.0 Webinar
The full OPENGATE 2.0 webinar provides a closer look at system performance, deployment insights, and real-world applications. Watch to see how organizations are improving weapons detection and entry throughput with modern screening technology.