Predicting human behavior to help save lives in an emergency

Knowing the performance of your facility during day-to-day operations is critical to understand. 无论是音乐厅, airport ticketing or a train station platform; circulation capacity and space is important to the overall efficiency of the building. Visual queues such as effective wayfinding, 售票机位置, design and location of security checkpoints and queue systems play a key role. Modeling can help you simulate human behavior when subjected to smoke movement and physical barriers such as security gates and ticket kiosks. 通过考虑皇家88账户注册些情况, we can help you identify potential modifications to inform security, 应急响应, daily operations and improve life safety compliance.


Predicting pedestrian behavior and how queues influence occupant behavior can help inform your design. 皇家88娱乐行人建模 tools help you assess the occupant movement in new buildings and existing facilities. You will be able to simulate a range of scenarios with varying origins and destinations and complex connection paths. 皇家88娱乐的 visual 3-D tools help you alleviate pinch points and optimize efficiency, providing an effective circulation network.

Evacuation Modeling + Performance-Based Design

It's important to understand how people move in emergency events. We use computational evacuation models that provide 3D simulations as well as a variety of movement and congestion data. We use this data to assess the adequacy of an egress design, examine alternative architectural design and security screening activities. We identify critical events, informing our approach toward performance-based design. We also use these models within the context of emergency preparedness to evaluate severe weather, 炸弹威胁, 活跃枪手和其他紧急事件.


We use timed egress modeling to evaluate crowd movement scenarios, both during normal building usage and special events, to estimate the impact of security barriers and checkpoints as well as the impact of events such as fires, 炸弹威胁和枪击事件.


During emergency events, dynamic exit signage helps to re-route occupants in real-time. We use model predictions to determine optimal paths and provide direction in all corridors, stairways and junction points in the building.