For the physical placement, a "pass-through" design is highly effective. Position the Bag Scanners so that they sit on either side of a central walkway. The Metal Detectors should be placed in the middle, flanked by the Bag Scanners, much like a real airport. This design ensures that passengers exit the ID Check Stand, drop their bags, walk through the metal detector, and pick up their bags from the other side in a seamless motion.
A verified layout follows this exact order from landside to airside: simairport security layout verified
The Security Zone must be indoors and semi-enclosed by walls. Forced Routing: Do not let passengers choose their own path. Use the For the physical placement, a "pass-through" design is
SimAirport Security Layout Verified: Creating Highly Efficient Checkpoints This design ensures that passengers exit the ID
A verified layout addresses this by utilizing the game’s zone view tool to confirm a continuous path of secure flooring from the security checkpoint to every single gate and boarding desk. Verification involves checking that service providers, such as food court vendors or retail staff, can actually reach their posts. If a passenger purchases a ticket and proceeds through security, only to find that the path to their gate is broken by a zone error, the entire verification fails. Therefore, the primary step in layout verification is confirming that the secure zone creates a unified, accessible footprint for all post-security operations.
A common mistake is having passengers wander "willy-nilly" to whichever station they prefer. To prevent this, you must assign each Bag Scanner and Metal Detector to a specific ID Check Stand. This creates a designated lane and enforces the correct order, ensuring a smooth, efficient flow. In many cases, one ID Check Stand can be assigned to multiple Bag Scanners and Metal Detectors, which is the basis for the lane ratios discussed next.
