Abstract

One of the most important challenges of volunteered geographic information (VGI) is the quality assessment. Existing methods of VGI quality assessment, either assess the quality by comparing a reference map with the VGI map or deriving the quality from the metadata. The first approach does not work for a real-time scenario and the latter delivers approximate values of the quality. Internet of Things (IoT) networks provide real-time observations for environment monitoring. Moreover, they publish more precise information than VGI. This paper introduces a method to assess the quality of VGI in real-time using IoT observations. The proposed method filters sensor observation outliers in the first step. Then it matches sensors and volunteers’ relationships in terms of location, time, and measurement type similarity using a hypergraph model. Then the quality of matched data is assessed by calculating positional and attribute accuracy. To evaluate the method, VGI data of the water level and quality in Tarashk–Bakhtegan–Maharlou water basin is studied. A VGI quality map of the data is assessed by a referenced authoritative map. The output of this step is a VGI quality map, which was used as a reference to check the proposed method quality. Then this reference VGI quality map and the proposed method VGI quality map are compared to assess positional and attribute accuracy. Results demonstrated that 76% of the method results have less than 20 m positional error (i.e., difference with the reference VGI quality map). Additionally, more than 92% of the proposed method VGI data have higher than 90% attribute accuracy in terms of similarity with the reference VGI quality map. These findings support the notion that the proposed method can be used to assess VGI quality in real-time.

Highlights

  • The significant advances of Web2.0 technologies and mobile device proliferation have enabled none professionals to collect and map spatial data. This phenomenon has been described with different terminologies: volunteered geographic information (VGI) [1], neogeography [2], crowdsourcing [3], citizen science [4], and user-generated content [5]

  • Previous works on VGI data quality assessment fall into two categories: The main goal of this paper is to demonstrate how to assess the VGI quality of point features using the Internet of Things (IoT) network in real-time

  • As environmental sensors are used for the VGI quality assessment, the IoT network observations are assumed as a reference for VGI

Read more

Summary

Introduction

The significant advances of Web2.0 technologies and mobile device proliferation have enabled none professionals to collect and map spatial data. This phenomenon has been described with different terminologies: volunteered geographic information (VGI) [1], neogeography [2], crowdsourcing [3], citizen science [4], and user-generated content [5]. They have shared the same concept in most research, some studies conclude that they deliver different ideas [6]. In the case study discussed in this paper, volunteers are collecting point-based water quality information along with location information

Objectives
Methods
Results
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.