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Blockchain, an enabling technology for transparent and accountable decentralized public participatory GIS

Farnaghi, Mahdi LU and Mansourian, Ali LU (2020) In Cities 105.
Abstract

Web-based public participatory GIS (PPGIS) has been used by governmental organizations to facilitate people's contribution to decision-making processes. However, these applications do not provide an open and transparent environment for public participation. This study suggests that PPGISs should be developed as decentralized applications (DApp) based on Ethereum blockchain technology to have a fully open, transparent, and accountable environment for public participation. In a blockchain-based PPGIS, the collected data are securely saved on the blockchain. The validity of the data, replicated on the nodes of the peer-to-peer blockchain network, is ensured through a consensus process without any central control. The data is tamper-free... (More)

Web-based public participatory GIS (PPGIS) has been used by governmental organizations to facilitate people's contribution to decision-making processes. However, these applications do not provide an open and transparent environment for public participation. This study suggests that PPGISs should be developed as decentralized applications (DApp) based on Ethereum blockchain technology to have a fully open, transparent, and accountable environment for public participation. In a blockchain-based PPGIS, the collected data are securely saved on the blockchain. The validity of the data, replicated on the nodes of the peer-to-peer blockchain network, is ensured through a consensus process without any central control. The data is tamper-free and immutable. Additionally, the data is openly accessible to institutions and citizens. A prototype PPGIS was developed as a DApp through which users can participate in the site selection of urban facilities. Using the application, they compare and rank different criteria. The system solves an analytic hierarchy process to calculate the weights of the criteria. A suitability map is generated afterward and published to be used by both citizens and decision-makers. The feasibility of the application, along with the issues that need to be considered while using blockchain technology for urban planning and development, are thoroughly discussed.

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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Analytic hierarchy process, Blockchain, Ethereum, Public participatory GIS, Spatial decision support system, Web GIS
in
Cities
volume
105
article number
102850
publisher
Elsevier
external identifiers
  • scopus:85086588105
ISSN
0264-2751
DOI
10.1016/j.cities.2020.102850
language
English
LU publication?
yes
id
bb978d4a-7cf5-483d-be93-53736281da0d
date added to LUP
2020-06-29 10:47:09
date last changed
2022-04-18 23:10:00
@article{bb978d4a-7cf5-483d-be93-53736281da0d,
  abstract     = {{<p>Web-based public participatory GIS (PPGIS) has been used by governmental organizations to facilitate people's contribution to decision-making processes. However, these applications do not provide an open and transparent environment for public participation. This study suggests that PPGISs should be developed as decentralized applications (DApp) based on Ethereum blockchain technology to have a fully open, transparent, and accountable environment for public participation. In a blockchain-based PPGIS, the collected data are securely saved on the blockchain. The validity of the data, replicated on the nodes of the peer-to-peer blockchain network, is ensured through a consensus process without any central control. The data is tamper-free and immutable. Additionally, the data is openly accessible to institutions and citizens. A prototype PPGIS was developed as a DApp through which users can participate in the site selection of urban facilities. Using the application, they compare and rank different criteria. The system solves an analytic hierarchy process to calculate the weights of the criteria. A suitability map is generated afterward and published to be used by both citizens and decision-makers. The feasibility of the application, along with the issues that need to be considered while using blockchain technology for urban planning and development, are thoroughly discussed.</p>}},
  author       = {{Farnaghi, Mahdi and Mansourian, Ali}},
  issn         = {{0264-2751}},
  keywords     = {{Analytic hierarchy process; Blockchain; Ethereum; Public participatory GIS; Spatial decision support system; Web GIS}},
  language     = {{eng}},
  publisher    = {{Elsevier}},
  series       = {{Cities}},
  title        = {{Blockchain, an enabling technology for transparent and accountable decentralized public participatory GIS}},
  url          = {{http://dx.doi.org/10.1016/j.cities.2020.102850}},
  doi          = {{10.1016/j.cities.2020.102850}},
  volume       = {{105}},
  year         = {{2020}},
}