Air Quality Sensing Wherever You Go in Taipei: Difference between revisions
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* more than 50 mobile PM2.5 sensing nodes, carried by volunteering citizens, using the developed portable AirBox device and LoRa network in Taipei city | * more than 50 mobile PM2.5 sensing nodes, carried by volunteering citizens, using the developed portable AirBox device and LoRa network in Taipei city | ||
* Integrated data platform for data collection, analysis, and visualization of the PM2.5 monitoring data collected from EPA, the existing stationary AirBox sites, and the proposed portable AirBox devices. | * Integrated data platform for data collection, analysis, and visualization of the PM2.5 monitoring data collected from EPA, the existing stationary AirBox sites, and the proposed portable AirBox devices. | ||
|chapter=Physical Health | |||
|supercluster=Transportation | |supercluster=Transportation | ||
|year=2016 | |year=2016 |
Latest revision as of 20:26, January 24, 2023
Air Quality Sensing Wherever You Go in Taipei | |
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Air Quality Sensing | |
Team Organizations | Academia Sinica EDIMAX Technology Co. Ltd. Realtek Semiconductor Corp. |
Team Leaders | Poh-Shi Ko |
Participating Municipalities | Taipei Taiwan |
Status | Ready for Public Announcement |
Document | None |
Description
The proposed project will develop portable AirBox devices to facilitate mobile air quality monitoring, with a focus on PM2.5 sensing, in Taipei city. The device is small-sized and light-weight, and it uses the LoRa technology for low-power and long-range data communication. The expected results of this project are:
- it promotes citizen engagement of wearable environmental monitoring ranging from walking, jogging to cycling;
- it provides a finer spatio-temporal granularity of air quality monitoring results for further data analysis and environment awareness; and
- it interconnects government, academia, industry, and maker community for social good and real-world impacts.
Challenges
- LoRa infrastructure: the project relies on a robust LoRa network infrastructure, which has been deployed in Taipei, but has yet to be stress tested.
- Sensor calibration: the project use COTS tiny PM2.5 sensors for mobile sensing, which is emerging but yet to be thoroughly verified.
- Power management: the project requires GPS for location-based sensing, which is notorious for being a ‘power-hungry’ app, thereby creating a challenge for wearable/portable applications.
Solutions
TBD
Major Requirements
The proposed project will be carried out in four steps:
- development of portable AirBox devices (by Sept. 2016)
- sensor calibration of the developed devices and performance tuning of LoRa network (by Dec. 2016)
- recruiting citizens to participate the project and act the role of “mobile sensors” in the city (by Mar. 2017)
- AirBox-enabled decision making and urban planning for adaptation strategies and innovative applications (by June 2017)
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
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Standards, Replicability, Scalability, and Sustainability
The project will follow the existing collaboration model of the AirBox project, which
- uses open hardware and COTS sensors so everyone can duplicate the system,
- pushes the measurement data to a open data broker so everyone can publish and subscribe the data, and
- works closely with local community to improve engagement, expanding, and growing of the project.
Cybersecurity and Privacy
TBD
Impacts
- The project will implement a tight collaboration between government, academia, industry, and citizens; and the experience can be duplicated for other smart city deployment projects in different cities.
- The data collected from the deployment will be used for pollution emission sourcing, adaptation policy making, city management, and urban planning.
- The project will make measurement data and analysis results open to the public, and will promote citizen engagement from personal to community scale on different aspects, such as environment education, science education, and LOHAS living.
Demonstration/Deployment
Phase I Pilot:
- 100 stationary AirBox sites deployed for PM2.5 sensing in Taipei city
- Full coverage of LoRa network in Taipei city
Phase II Deployment:
- more than 50 mobile PM2.5 sensing nodes, carried by volunteering citizens, using the developed portable AirBox device and LoRa network in Taipei city
- Integrated data platform for data collection, analysis, and visualization of the PM2.5 monitoring data collected from EPA, the existing stationary AirBox sites, and the proposed portable AirBox devices.