Golden Globes Security Measures Cause Mile Long Traffic Jam

Golden Globes Security Measures Cause Mile Long Traffic Jam

It's more dangerous than it looks the navigating the Golden Globes red carpet.

Olivia Wilde nearly lost a limo door when she opened it in front of oncoming traffic on the two-lane driveway where celebs are being dropped off for the show Sunday evening.

This year's heightened security created a mile-long traffic jam outside the site of the Golden Globes.

Each limo, SUV or other vehicle arriving for valet parking at the Beverly Hilton Hotel were instructed to stop while authorities check the contents of the trunk. Mirrors were used to check underneath vehicles. The new restrictions also barred guests from being dropped off by cab and walking in.

The configuration kept several stars from coming over to the fan bleachers to high five or pose for as they have done in the past. Mark Ruffalo, Amy Schumer and Amy Adams were among those who made up for it by flashing peace signs, blowing kisses or waving from afar.

The heavy security presence around the hotel and the Globes' red carpet included SWAT officers, dogs and representatives of multiple police agencies, including the FBI.

About the Author

Sydny Shepard is the Executive Editor of Campus Security & Life Safety.

Featured

New Products

  • ADI Control4 product image

    ADI Control4® X4 & Control4® Connect

    Drive long-term system value and reduce post-installation friction with a visually redesigned control interface paired with a secure, future-ready smart service framework.

  • NAPCO product image

    StarLink Fire Max2 Dual Cell/IP Communicator

    Streamline commercial fire compliance with dual-carrier cellular connectivity, a dedicated FACP data path, and dual-layer electronic inspection verification.

  • ROAMEO and SARA new product image

    AITX ROAMEO™ and SARA™

    Deploy a unified, self-coordinating outdoor security presence by combining ROAMEO’s autonomous patrol capabilities with SARA’s proactive event assessment and real-time response.