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Footfall Response Analysis

Demo Movies

• GSA Footfall Demo

GSA Footfall

Footfall response is of interest to clients concerned about vibration in their structures, whether they are laboratories, bridges, hospitals, airports, offices or retail buildings. Sensitivity to vibration is becoming increasingly significant as advances in structural design result in lighter structures; the lighter the structure the more sensitive it is to induced vibration.

What is the solution?

In the past it has proved difficult to calculate footfall response on irregular floor or staircase structures; that is until now. GSA Building and GSA Bridge analyse the footfall response of structures to the Arup method (as adopted by the Concrete Centre), the Steel Construction Institute forcing functions, and more. Not only that, but because they can predict absolute vibration levels at all locations on a floor, they enable the engineer to advise on the positioning of sensitive equipment and services or to improve problem areas in a cost-effective way.

GSA Footfall analysis is the best way to predict the footfall response of any struture (see our footfall whitepaper for a more in-depth look) and is included in GSA Building and GSA Bridge.

Product benefits

• GSA is the only program available that allows you to analyse any structure for footfall analysis, whether an irregular floor, a bridge or a staircase, whether concrete, steel, or composite.
• Quick and accurate predictions of resonant and transient response to footfall vibrations, including response factors, peak accelerations, and peak, RMS and RMQ velocities.
• Define areas of interest on a floor; eg the effect of running down a corridor next to an operating theatre

Features

Modal analysis

• Choice of vibration analysis: Modal, Modal P-delta, Ritz, Ritz P-delta
• Chose number of vibration modes and start mode
• Include additional horizontal or vertical restraints
• Specify mass or derive mass from loads and self weight
• Include stiffening effects of loads

Footfall analysis

• Quick or full excitation methods
• Check full model or specified areas
• Damping by user input values, modal damping or table
• Vary number of footfalls for resonant response
• Vary weight of walker
• Choice of excitation force methods: Arup / Concrete Centre, Steel Construction Institute, or Arup Stair
• Adjust minimum and maximum walking frequencies
• Detailed chart views of results