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|Abstract=Pollution monitoring systems (PMSs) are used worldwide to sense environmental changes such as air quality or temperature increase and to monitor compliance with regulations. However, organizations manage the environmental data collected by such PMSs in a centralized manner, which is why recorded environmental data is vulnerable to manipulation. Moreover, the analysis of pollution data is often not transparent to outsiders, which may lead to wrong decisions regarding environmental regulations. To address these challenges, we propose a software design for PMSs based on distributed ledger technology (DLT) and the long range (LoRa) protocol for flexible, transparent, and energy-efficient environment monitoring and data management. To design the PMS, we conducted a comprehensive requirements analysis for PMSs. We carried out benchmarks of different consensus mechanisms (e.g., BFT-SMaRt and Raft) and digital signature schemes (e.g., ECDSA and EdDSA) to adequately design the PMS and fulfill the identified requirements. On this basis, we designed and implemented a prototype PMS and evaluated it in the field. The evaluation shows the effectiveness of DLT-based PMSs, including portable low-energy sensor nodes and demonstrates the applicability of the proposed software design for PMSs in contexts other than air pollution. | |Abstract=Pollution monitoring systems (PMSs) are used worldwide to sense environmental changes such as air quality or temperature increase and to monitor compliance with regulations. However, organizations manage the environmental data collected by such PMSs in a centralized manner, which is why recorded environmental data is vulnerable to manipulation. Moreover, the analysis of pollution data is often not transparent to outsiders, which may lead to wrong decisions regarding environmental regulations. To address these challenges, we propose a software design for PMSs based on distributed ledger technology (DLT) and the long range (LoRa) protocol for flexible, transparent, and energy-efficient environment monitoring and data management. To design the PMS, we conducted a comprehensive requirements analysis for PMSs. We carried out benchmarks of different consensus mechanisms (e.g., BFT-SMaRt and Raft) and digital signature schemes (e.g., ECDSA and EdDSA) to adequately design the PMS and fulfill the identified requirements. On this basis, we designed and implemented a prototype PMS and evaluated it in the field. The evaluation shows the effectiveness of DLT-based PMSs, including portable low-energy sensor nodes and demonstrates the applicability of the proposed software design for PMSs in contexts other than air pollution. | ||
+ | |DOI Name=10.1109/ACCESS.2020.3028430 | ||
|Projekt=COOLedger | |Projekt=COOLedger | ||
|Forschungsgruppe=Critical Information Infrastructures | |Forschungsgruppe=Critical Information Infrastructures | ||
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{{Forschungsgebiet Auswahl | {{Forschungsgebiet Auswahl | ||
|Forschungsgebiet=Blockchain | |Forschungsgebiet=Blockchain | ||
+ | }} | ||
+ | {{Forschungsgebiet Auswahl | ||
+ | |Forschungsgebiet=Systems-Engineering | ||
}} | }} |
Aktuelle Version vom 30. September 2020, 12:00 Uhr
The Merits of a Decentralized PollutionMonitoring System based on Distributed Ledger Technology
The Merits of a Decentralized PollutionMonitoring System based on Distributed Ledger Technology
Veröffentlicht: 2020 November
Journal: IEEE Access
Nicht-referierte Veröffentlichung
Kurzfassung
Pollution monitoring systems (PMSs) are used worldwide to sense environmental changes such as air quality or temperature increase and to monitor compliance with regulations. However, organizations manage the environmental data collected by such PMSs in a centralized manner, which is why recorded environmental data is vulnerable to manipulation. Moreover, the analysis of pollution data is often not transparent to outsiders, which may lead to wrong decisions regarding environmental regulations. To address these challenges, we propose a software design for PMSs based on distributed ledger technology (DLT) and the long range (LoRa) protocol for flexible, transparent, and energy-efficient environment monitoring and data management. To design the PMS, we conducted a comprehensive requirements analysis for PMSs. We carried out benchmarks of different consensus mechanisms (e.g., BFT-SMaRt and Raft) and digital signature schemes (e.g., ECDSA and EdDSA) to adequately design the PMS and fulfill the identified requirements. On this basis, we designed and implemented a prototype PMS and evaluated it in the field. The evaluation shows the effectiveness of DLT-based PMSs, including portable low-energy sensor nodes and demonstrates the applicability of the proposed software design for PMSs in contexts other than air pollution.
DOI Link: 10.1109/ACCESS.2020.3028430
Critical Information Infrastructures
Systems-Engineering, Blockchain