https://www.youtube.com/watch?v=_mMzS7MK6n8&list=PLwgLshipvt3eDtwXWAaceDqkBuzhHfx2l
This is the 2021-2022 FYP project of ISD. The project identified that while land-movement monitoring solutions in the construction industry are widely used, they remain inconvenient. To address this, we proposed an Intelligent Real-Time Land-movement Monitoring System (IRLMS) with two methods: Smart Inclinometer (SInc) and Meter In a Tube (MIT). These methods aim to make ground monitoring real-time and affordable while enhancing user experience. We built and tested functional prototypes, which performed as expected despite room for improvement. Both methods matched the performance of traditional inclinometers while offering better data refresh rates, data manipulation, and user interaction. Additionally, both methods show promise for future integration into construction IoT systems.
I worked on the Smart Inclinometer (SInc) solution in this project.
Using SolidWorks and available materials in the market
Using HTML, CSS, JS, NodeJS, ExpressJS
Our team did the empathize parts mainly by talking to our industry partnerĀ Paul Y. Engineering. We have several conversations with their staffs and workers. Our first taget topic is actually Line Indication and we would like to built a Advanced Line Indication (ALI) solution. But later, we found that there are already mature product deployed in America and in Hong Kong, though workers intensive, they have existing solutions that make our solution hard to deploy. Therefore we change to land-movement monitoring.
How might we make landslide monitoring process more systematic, more user friendly while making the monitoring process real time and affordable.
The smart inclinometer is a device put on top of each inclinometer tube. The device performs the works of a construction worker but fully automatically and more frequently. Smart Inclinometer will enter the working stage after every waiting period. At a working stage, it will put the inclinometer probe through the tube to collect data. The data will be processed and sent to the cloud for processing, visualization, and alert. Several Smart Inclinometers at different tubes and different sites form a network system. The workers can access the processed and visualized data of the whole system directly online and download the generated reports if needed. The Smart Inclinometer also has a human interaction interface for maintenance needs and special activities. Our prototype is fully functional and our experiment shows that the Smart Inclinometer performed equally to the traditional inclinometer but better in measuring frequency, data manipulation, and user interaction.
Meter In a Tube (MIT) is a device that reduces the number of total parts required by integrating the sensor with the tube. This eliminates the step of inserting a separate sensor into the tube and will still be useable when the tube is bent sharply since there are no moving parts. The sensors used are called strain gauges and they are adhered to the inner surface of the tube. There are 3 sensors along the circumference of the tube and 4 sets of these triplets along the 1-meter segment. Each segment is connected mechanically with a one-step connector and electrically with an aviator plug. After collecting data from these sensors, an algorithm will convert the collected data into a digital curve that reflects the shape of the actual tube.