Publications by authors named "Maryam Alavi-Shoshtari"
Aiming at minimizing the costs, both of capital expenditure and maintenance, of an extensive air-quality measurement network, we present simple statistical methods that do not require extensive training data sets for automated real-time verification of the reliability of data delivered by a spatially dense hybrid network of both low-cost and reference ozone measurement instruments. Ozone is a pollutant that has a relatively smooth spatial spread over a large scale although there can be significant small-scale variations. We take advantage of these characteristics and demonstrate detection of instrument calibration drift within a few days using a rolling 72 h comparison of hourly averaged data from the test instrument with that from suitably defined proxies.
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- A cost-efficient monitoring system for surface ozone was developed using gas-sensitive semiconducting oxide technology, solar power, and cell phone communication, tested over three months with 50 sensors in British Columbia.
- Instrument accuracy was validated through colocating with reference instruments, yielding a standard error of 3 ± 2 ppb and a mean difference of -1 ppb when compared to reference site readings.
- Challenges faced included logistical difficulties, issues with communication and battery life, and the need for increased redundancy and optimization in sensor placement for better reliability and coverage.