Vibration Control of Pedestrian Bridges
Keywords:
footbridges, vibration control, damping systems, passive control, active control, serviceabilityAbstract
In the last years, a wide number of footbridges have been
built as demand response of more direct pathways in
cities. These structures have lower building requirements
as compared with standard bridges. This circumstance has
facilitated the development of new structural design with
complex geometries and innovative materials. As a result,
these structures may be slender, light and low damped,
leading to vibration problems once in service. The current
codes take into account this problem, and recommend designs
with natural frequencies away from the typical pedestrian
pacing rates and fi x comfort limits to guarantee the
serviceability of the structure.
This paper studies this problem from a practical point of view.
Thus, the key points of codes and footbridges guidelines
are showed, the typical experimental dynamic analysis
techniques are presented, and the usual solutions adopted
to improve the dynamic performance of these structures are
discussed. Finally, the works carried out on the Valladolid
Science Museum Footbridge by Centro Tecnológico CARTIF in
collaboration with the Universities of Valladolid and Castilla
La Mancha are showed. These works include: (1) the dynamic
study of the three steel spans of the footbridge, (2) the design
and implementation of a tuned mass damper in the liveliest
span, (3) the implementation of an active mass damper using
an electrodynamic shaker, and (4) the development of fi eld
tests to assess the serviceability of such span.
