This paper discusses two types of fiber optic sensors used for monitoring h
ighway bridges in Manitoba, Canada. The first, the Taylor Bridge, is the lo
ngest smart bridge built in North America and was completed in 1997. Four g
irders, large portions of the deck slab and the barrier wall are reinforced
with carbon and glass fiber reinforced polymer (FRP) materials. The bridge
is remotely monitored using fiber optic sensors embedded in the girders, t
he deck slab and the barrier wall to provide continuous information on the
health and structural performance of the bridge. Signals obtained from the
optical sensors are transmitted through a telephone line, thereby allowing
an office-based engineer to monitor the stresses and strains via a computer
anywhere in the world. The paper discusses the expert system program used
to reduce the data collected from the bridge into engineering information w
hich can be used to assess the performance of the FRP material and the beha
vior of the bridge.
The second, the Norwood Bridge, is another innovative bridge also built in
Winnipeg, Manitoba. The bridge is a complex precast reinforced concrete str
ucture including an innovative mechanical connection at the supports to pro
vide continuity. Monitoring of the bridge was requested by the owner, the C
ity of Winnipeg, to verify structural behavior during different stages of c
onstruction and operation. A different type of fiber optic system was used
in this bridge. Both the Taylor and the Norwood Bridge projects were undert
aken by the Network of Centres of Excellence on Intelligent Sensing for Inn
ovative Structures (ISIS Canada) which was able to provide the valuable lin
k between the emerging new technology in structural remote monitoring and t
he construction industry.