Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.) Active Application number US14/853,578 Other versions US20160006768A1 Google Patents Controlling physical access to secure areas via client devices in a network environmentĭownload PDF Info Publication number US9438635B2 US9438635B2 US14/853,578 US201514853578A US9438635B2 US 9438635 B2 US9438635 B2 US 9438635B2 US 201514853578 A US201514853578 A US 201514853578A US 9438635 B2 US9438635 B2 US 9438635B2 Authority US United States Prior art keywords mobile device access credential physical physical access user Prior art date Legal status (The legal status is an assumption and is not a legal conclusion. Google Patents US9438635B2 - Controlling physical access to secure areas via client devices in a network environment Get the source files from AnyLogic Cloud and play with it yourself.US9438635B2 - Controlling physical access to secure areas via client devices in a network environment Ultimately, you can see how the created doorway provides the necessary throughput of 100 people per minute.īelow you will find the revolving door model. Revolving door with added Pedestrian Flow Statistics The Pedestrian Flow Statistics component and its traffic() function, which returns the throughput you need, can be used to measure the pedestrian flow. To be sure the created passage provides the required throughput, it’s important to measure it and, if necessary, rearrange the elements. Revolving door layout with rectangular node for speed restriction A Rectangular Node with speed restriction enabled should be handy here. This area is indicated by the dashed blue rectangle in the screenshot below. Since revolving doors rotate slower than people usually move, you need to find a way to slow down the pedestrians in the whole revolving door area. Revolving door pedestrian layout with pathways It will prevent them from colliding and creating further gridlock. Furthermore, it makes sense to use an additional wall to separate these pathways and pedestrian flows. It’s especially convenient to use AnyLogic Pathway markup element to model pedestrian flows as you can direct pedestrians where you need them to go. Since there’s a two-way flow, it’s better to make sure they’re separated, as it would be in a real revolving door. It’s important to understand that both in and out flows are taken into account, which means there should be a maximum of 50 people entering and 50 people exiting per minute. Let’s say you’re modeling a revolving door with a throughput of 100 people per minute. For example, if such a doorway is supposed to allow for 100 people per minute, it’s better to apply the right modeling approach to a pedestrian model so that there is no congestion. This is why it’s so important to consider how much throughput revolving doors can provide when modeling them. However, the original and more important purpose of the revolving door, as a pedestrian flow management solution remains. Less energy required to maintain the climate means a reduction in the carbon footprint of the building. Opening a regular door allows a large amount of air to escape, but with the always open-always closed principle of revolving doors, drafts, dust, and noise coming into the building are greatly reduced. Revolving doors offer the ideal solution for convenience and security as well as energy efficiency.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |