2006-2008

My Post-Doc: A Crucible of Innovation in the Wake of Tragedy

My first post-doctoral position wasn't just a job; it was a profound trial by fire, directly shaped by the devastating Nicoll Highway collapse in Singapore in 2004. This tragic event, where four lives were lost due to soil caving during tunnel excavation, cast a long, urgent shadow over the nation. When I joined the Defense Science Technology Agency of Singapore, the pressure was immense. The government had a deep, vested interest in preventing such a catastrophe from ever happening again, and the potential of smart sensors was seen as a critical solution. The burden of understanding where to deploy these advanced sensors, what specific measurements were crucial, and how to extract meaningful data to avert future disasters fell squarely on my shoulders.

The Symphony of Signals: Unraveling the Invisible

The chosen site, Telok Blangah, a vital location for the upcoming MRT construction, became my intense, real-world laboratory. We deployed over 60 sensors, creating an intricate network designed to capture the subtlest whispers of the structure and its surrounding environment. The sheer volume of data streaming in, round the clock, from our automated monitoring system was initially overwhelming. These signals, at first, felt like a chaotic, indecipherable language.

But I kept my nerve. Slowly, painstakingly, the patterns began to emerge. The data, far from being random noise, revealed itself as a rich tapestry of the site's dynamic life. We started to discern the unmistakable signs of sudden load shifts, the rhythmic cadence of construction workers' movements, the distinct signature of each new strut installation, and even the subtle changes brought about by rainfall. It was a profound realization: these smart sensors weren't just measuring the structure directly; they were indirectly providing insights into the very soil around the struts, the critical element that had failed so tragically in the past.

From Data Deluge to Decisive Insights

The pressure was constant, the memory of those lost lives a heavy weight. I tirelessly analyzed the enormous dataset, and critically, I automated the process of calculating the Root Mean Square Deviation (RMSD). This allowed for continuous, objective assessment of the signals, identifying significant deviations that could signal danger.

Triumph and Transition: Success at Telok Blangah

Thankfully, throughout our rigorous monitoring at the Telok Blangah site, I detected no signs of imminent danger. The project was a resounding success, demonstrating the power of diligently applied smart sensor technology to provide crucial, real-time insights for civil defense. This success was not only a professional triumph but also a pivotal moment in my career, validating the extensive research from my PhD. It directly led to a Postdoctoral position at the University of Pittsburgh, USA, marking my move to the United States and the next chapter of my scientific journey.

Annamdas V. G. M and Yang Y (2012) " Practical implementation of piezo-impedance sensors in monitoring of excavation support structures " Structural Control Health Monitoring, Volume 19, Issue 2, pages 231–245, March 2012 [Published online http://dx.doi.org/10.1002/stc.418 , 3rd september 2010] 

Annamdas V. G. M, Yang Y and Soh C K (2011) " Smart Sensor for Monitoring Excavation of Mass Rapid Transit Station " Publisher: LAP- Lambert Academic  Publishing, Germany. Released in Aug 2011. ISBN: 978-3-8454-3967- 9 

[World’s First application of Peizo - impedance technique for Civil Engineering, used in a massive Mass Transit Station, Singapore]