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Auction Mechanisms in Cloud/Fog Computing Resource Allocation for Public Blockchain Networks
As an emerging decentralized secure data management platform, blockchain has gained much popularity recently. To maintain a canonical state of blockchain data record, proof-of-work based consensus protocols provide the nodes, referred to as miners, in the network with incentives for confirming new b...
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| Published in: | IEEE transactions on parallel and distributed systems 2019-09, Vol.30 (9), p.1975-1989 |
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| Main Authors: | , , , |
| Format: | Article |
| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c359t-94a3aa2b98a3329101f5e758a176fad3514b20a2bdf1fb796a37b097b3faa96e3 |
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| cites | cdi_FETCH-LOGICAL-c359t-94a3aa2b98a3329101f5e758a176fad3514b20a2bdf1fb796a37b097b3faa96e3 |
| container_end_page | 1989 |
| container_issue | 9 |
| container_start_page | 1975 |
| container_title | IEEE transactions on parallel and distributed systems |
| container_volume | 30 |
| creator | Jiao, Yutao Wang, Ping Niyato, Dusit Suankaewmanee, Kongrath |
| description | As an emerging decentralized secure data management platform, blockchain has gained much popularity recently. To maintain a canonical state of blockchain data record, proof-of-work based consensus protocols provide the nodes, referred to as miners, in the network with incentives for confirming new block of transactions through a process of “block mining” by solving a cryptographic puzzle. Under the circumstance of limited local computing resources, e.g., mobile devices, it is natural for rational miners, i.e., consensus nodes, to offload computational tasks for proof of work to the cloud/fog computing servers. Therefore, we focus on the trading between the cloud/fog computing service provider and miners, and propose an auction-based market model for efficient computing resource allocation. In particular, we consider a proof-of-work based blockchain network, which is constrained by the computing resource and deployed as an infrastructure for decentralized data management applications. Due to the competition among miners in the blockchain network, the allocative externalities are particularly taken into account when designing the auction mechanisms. Specifically, we consider two bidding schemes: the constant-demand scheme where each miner bids for a fixed quantity of resources, and the multi-demand scheme where the miners can submit their preferable demands and bids. For the constant-demand bidding scheme, we propose an auction mechanism that achieves optimal social welfare. In the multi-demand bidding scheme, the social welfare maximization problem is NP-hard. Therefore, we design an approximate algorithm which guarantees the truthfulness, individual rationality and computational efficiency. Through extensive simulations, we show that our proposed auction mechanisms with the two bidding schemes can efficiently maximize the social welfare of the blockchain network and provide effective strategies for the cloud/fog computing service provider. |
| doi_str_mv | 10.1109/TPDS.2019.2900238 |
| format | article |
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To maintain a canonical state of blockchain data record, proof-of-work based consensus protocols provide the nodes, referred to as miners, in the network with incentives for confirming new block of transactions through a process of “block mining” by solving a cryptographic puzzle. Under the circumstance of limited local computing resources, e.g., mobile devices, it is natural for rational miners, i.e., consensus nodes, to offload computational tasks for proof of work to the cloud/fog computing servers. Therefore, we focus on the trading between the cloud/fog computing service provider and miners, and propose an auction-based market model for efficient computing resource allocation. In particular, we consider a proof-of-work based blockchain network, which is constrained by the computing resource and deployed as an infrastructure for decentralized data management applications. Due to the competition among miners in the blockchain network, the allocative externalities are particularly taken into account when designing the auction mechanisms. Specifically, we consider two bidding schemes: the constant-demand scheme where each miner bids for a fixed quantity of resources, and the multi-demand scheme where the miners can submit their preferable demands and bids. For the constant-demand bidding scheme, we propose an auction mechanism that achieves optimal social welfare. In the multi-demand bidding scheme, the social welfare maximization problem is NP-hard. Therefore, we design an approximate algorithm which guarantees the truthfulness, individual rationality and computational efficiency. Through extensive simulations, we show that our proposed auction mechanisms with the two bidding schemes can efficiently maximize the social welfare of the blockchain network and provide effective strategies for the cloud/fog computing service provider.</description><identifier>ISSN: 1045-9219</identifier><identifier>EISSN: 1558-2183</identifier><identifier>DOI: 10.1109/TPDS.2019.2900238</identifier><identifier>CODEN: ITDSEO</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Algorithms ; Approximation algorithms ; auction ; Bids ; Blockchain ; Cloud computing ; cloud/fog computing ; Computer simulation ; Cryptography ; Data management ; Demand ; Electronic devices ; game theory ; Incentives ; Miners ; Nodes ; Optimization ; Peer-to-peer computing ; pricing ; proof of work ; Protocol (computers) ; Protocols ; Resource allocation ; Resource management ; social welfare ; Task analysis ; Transaction processing</subject><ispartof>IEEE transactions on parallel and distributed systems, 2019-09, Vol.30 (9), p.1975-1989</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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To maintain a canonical state of blockchain data record, proof-of-work based consensus protocols provide the nodes, referred to as miners, in the network with incentives for confirming new block of transactions through a process of “block mining” by solving a cryptographic puzzle. Under the circumstance of limited local computing resources, e.g., mobile devices, it is natural for rational miners, i.e., consensus nodes, to offload computational tasks for proof of work to the cloud/fog computing servers. Therefore, we focus on the trading between the cloud/fog computing service provider and miners, and propose an auction-based market model for efficient computing resource allocation. In particular, we consider a proof-of-work based blockchain network, which is constrained by the computing resource and deployed as an infrastructure for decentralized data management applications. 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Through extensive simulations, we show that our proposed auction mechanisms with the two bidding schemes can efficiently maximize the social welfare of the blockchain network and provide effective strategies for the cloud/fog computing service provider.</description><subject>Algorithms</subject><subject>Approximation algorithms</subject><subject>auction</subject><subject>Bids</subject><subject>Blockchain</subject><subject>Cloud computing</subject><subject>cloud/fog computing</subject><subject>Computer simulation</subject><subject>Cryptography</subject><subject>Data management</subject><subject>Demand</subject><subject>Electronic devices</subject><subject>game theory</subject><subject>Incentives</subject><subject>Miners</subject><subject>Nodes</subject><subject>Optimization</subject><subject>Peer-to-peer computing</subject><subject>pricing</subject><subject>proof of work</subject><subject>Protocol (computers)</subject><subject>Protocols</subject><subject>Resource allocation</subject><subject>Resource management</subject><subject>social welfare</subject><subject>Task analysis</subject><subject>Transaction processing</subject><issn>1045-9219</issn><issn>1558-2183</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNo9kFFLwzAQx4MoOKcfQHwJ-NwtlzRN8zinU2Hq0PkmhLRLZreumUmL-O3N3PDpjuP3vzt-CF0CGQAQOZzPbt8GlIAcUEkIZfkR6gHneUIhZ8exJylPJAV5is5CWBECKSdpD32MurKtXIOfTPmpmypsAq4aPK5dtxhO3BKP3WbbtVWzxK8muM6XBo_q2pX6L2Wdx7OuqKsS38ThOu6I6WfTfju_DufoxOo6mItD7aP3yd18_JBMX-4fx6NpUjIu20SmmmlNC5lrxqgEApYbwXMNIrN6wTikBSURWFiwhZCZZqIgUhTMai0zw_roer93691XZ0KrVvHTJp5UlAoCOSWMRAr2VOldCN5YtfXVRvsfBUTtJKqdRLWTqA4SY-Zqn6mMMf98nmWZoIL9AgEHbe8</recordid><startdate>20190901</startdate><enddate>20190901</enddate><creator>Jiao, Yutao</creator><creator>Wang, Ping</creator><creator>Niyato, Dusit</creator><creator>Suankaewmanee, Kongrath</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Due to the competition among miners in the blockchain network, the allocative externalities are particularly taken into account when designing the auction mechanisms. Specifically, we consider two bidding schemes: the constant-demand scheme where each miner bids for a fixed quantity of resources, and the multi-demand scheme where the miners can submit their preferable demands and bids. For the constant-demand bidding scheme, we propose an auction mechanism that achieves optimal social welfare. In the multi-demand bidding scheme, the social welfare maximization problem is NP-hard. Therefore, we design an approximate algorithm which guarantees the truthfulness, individual rationality and computational efficiency. 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| identifier | ISSN: 1045-9219 |
| ispartof | IEEE transactions on parallel and distributed systems, 2019-09, Vol.30 (9), p.1975-1989 |
| issn | 1045-9219 1558-2183 |
| language | eng |
| recordid | cdi_proquest_journals_2270182030 |
| source | IEEE Xplore (Online service) |
| subjects | Algorithms Approximation algorithms auction Bids Blockchain Cloud computing cloud/fog computing Computer simulation Cryptography Data management Demand Electronic devices game theory Incentives Miners Nodes Optimization Peer-to-peer computing pricing proof of work Protocol (computers) Protocols Resource allocation Resource management social welfare Task analysis Transaction processing |
| title | Auction Mechanisms in Cloud/Fog Computing Resource Allocation for Public Blockchain Networks |
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