Collaborative Validation of User-Contributed Data Using a Geospatial Blockchain Approach: The Simile Case Study

Jimenez, J. R. Cedeno; Folini, A.; Brovelli, Maria Antonia

doi:10.5194/isprs-archives-xlviii-4-w1-2022-89-2022

Cited by 3 publications

(2 citation statements)

References 13 publications

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“…By making sure ethical regulations align with enhancing privacy laws, we can ensure that trust in this process remains intact. The use of smart contracts combined with blockchain technology has remarkable potential for democratic participation [ 44 ], as demonstrated in successful studies that mapped plastic pollution [ 45 ] and analysed lake water quality [ 46 ]. This pioneering arrangement of incentives empowers citizens to actively shape their environments, with automatic rewards for data and engagement in projects that enhance their own health or sustainability.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of a smartphone-based methodology that integrates long-term tracking of mobility, place experiences, heart rate variability, and subjective well-being

Giusti

Samuelsson

2023

Heliyon

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Section: Discussionmentioning

confidence: 99%

Evaluation of a smartphone-based methodology that integrates long-term tracking of mobility, place experiences, heart rate variability, and subjective well-being

Giusti

Samuelsson

2023

Heliyon

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“…Specific technologies like computer vision, acoustic monitoring, radar, and molecular methods revolutionize the monitoring of insects [30]. Blockchain technology contributes to geospatial data-point sharing and validation [31]. Widespread usage of ICT enables monitoring food prices in Africa in real time [32] or observing invasive alien species, which allows for visualizing the spatial distribution of these species [33].…”

Section: The Role Of Technology In Citizen Science Projectsmentioning

confidence: 99%

Technological Innovations for Citizen Environmental Participation: Case of Poland

Roszczyńska-Kurasińska

Wróblewska

2023

Sustainability

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Citizen science is a social innovation that has recently been recognized by social initiatives as a possible tool to increase participation, build knowledge, and raise civic awareness. In order to work efficiently, citizen science requires the adoption of proper technological solutions by a critical mass of people. According to the Unified Theory of Acceptance and Use of Technology, people are more likely to adopt a technology that is compatible with their norms, values, and beliefs. In our research, we studied technological solutions that Polish environmental civic initiatives are using in order to diagnose their potential to implement citizen science projects and increase citizen participation. We interviewed 28 board representatives, managers, and initiators of social movements and conducted desk research of 65 social movements in Poland. Every technological solution was recorded and later categorized. The diagnostic analysis of the technological advancement of grassroots movements in Poland reveals that the full potential for launching citizen science projects has not yet been reached. First of all, the recognition of the citizen science approach is still low. Secondly, grassroots movements operate using standard and easily accessible technological solutions, rarely developing tailored and more advanced technologies that would enable people to be involved in citizen science projects.

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Towards data storage scheme in blockchain based serverless environment: AES encryption and decryption algorithm approach

Kandpal,

Pritwani,

Misra

et al. 2024

Facta Univ Electron Energ

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In today's digital age, data storage has become an increasingly important issue. The exponential growth of data has led to the need for secure and private storage solutions. Unfortunately, without a standardized protocol, the security and privacy of sensitive data can be a challenge. However, blockchain technology has emerged as a promising solution for secure data storage. Blockchain's decentralized and immutable nature provides a comprehensive solution for the security and privacy of all types of data. In this research, we propose an innovative framework that leverages the benefits of blockchain technology to securely handle and store data in a serverless environment of distributed nodes. To ensure the highest level of security, we evaluated four encryption algorithms - Blowfish, RC4, DES, and AES - for storing data in a permissioned blockchain network. We found that AES encryption and decryption algorithms provide the best solution for creating a decentralized, immutable coordinate system. Our proposed framework is based on a permissioned blockchain network that enables multiple users to join the network through suitable identity verification processes, and each user is assigned certain special and designated permissions to perform actions. This framework provides a secure and efficient solution for the storage of all types of data, ensuring privacy and security. Our proposed framework offers an innovative solution for secure data storage and management in a decentralized environment. This research has practical implications for organizations that need to store sensitive data securely, and it also contributes to the ongoing development of blockchain technology.

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Collaborative Validation of User-Contributed Data Using a Geospatial Blockchain Approach: The Simile Case Study

Cited by 3 publications

References 13 publications

Evaluation of a smartphone-based methodology that integrates long-term tracking of mobility, place experiences, heart rate variability, and subjective well-being

Evaluation of a smartphone-based methodology that integrates long-term tracking of mobility, place experiences, heart rate variability, and subjective well-being

Technological Innovations for Citizen Environmental Participation: Case of Poland

Towards data storage scheme in blockchain based serverless environment: AES encryption and decryption algorithm approach

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