TY - JOUR
T1 - Toward resilient cloud warehousing via a blockchain-enabled auction approach
AU - Li, Ming
AU - Feng, Jianghong
AU - Xu, Su Xiu
N1 - Funding Information:
This work is supported by the National Natural Science Foundation of China (Grant Nos. 52005218 and 72071093), RGC TRS Project (Grant No. T32-707-22-N), and the Guangdong Basic and Applied Basic Research Foundation (Guangdong Natural Science Fund, Grant No. 2019A1515110296).
Publisher Copyright:
© 2023, Higher Education Press.
PY - 2023/3
Y1 - 2023/3
N2 - Cloud warehousing service (CWS) has emerged as a promising third-party logistics service paradigm driven by the widespread use of e-commerce. The current CWS billing method is typically based on a fixed rate in a coarse-grained manner. This method cannot reflect the true service value under the fluctuating e-commerce logistics demand and is not conducive to CWS resilience management. Accordingly, a floating mechanism can be considered to introduce more flexible billing. A CWS provider lacks sufficient credibility to implement floating mechanisms because it has vested interests in terms of fictitious demand. To address this concern, this report proposes a blockchain-enabled floating billing management system as an overall solution for CWS providers to enhance the security, credibility, and transparency of CWS. A one-sided Vickrey–Clarke–Groves (O-VCG) auction mechanism model is designed as the underlying floating billing mechanism to reflect the real-time market value of fine-grained CWS resources. A blockchain-based floating billing prototype system is built as an experimental environment. Our results show that the O-VCG mechanism can effectively reflect the real-time market value of CWSs and increase the revenue of CWS providers. When the supply of CWS providers remains unchanged, allocation efficiency increases when demand increases. By analyzing the performance of the O-VCG auction and comparing it with that of the fixed-rate billing model, the proposed mechanism has more advantages. Moreover, our work provides novel managerial insights for CWS market stakeholders in terms of practical applications.
AB - Cloud warehousing service (CWS) has emerged as a promising third-party logistics service paradigm driven by the widespread use of e-commerce. The current CWS billing method is typically based on a fixed rate in a coarse-grained manner. This method cannot reflect the true service value under the fluctuating e-commerce logistics demand and is not conducive to CWS resilience management. Accordingly, a floating mechanism can be considered to introduce more flexible billing. A CWS provider lacks sufficient credibility to implement floating mechanisms because it has vested interests in terms of fictitious demand. To address this concern, this report proposes a blockchain-enabled floating billing management system as an overall solution for CWS providers to enhance the security, credibility, and transparency of CWS. A one-sided Vickrey–Clarke–Groves (O-VCG) auction mechanism model is designed as the underlying floating billing mechanism to reflect the real-time market value of fine-grained CWS resources. A blockchain-based floating billing prototype system is built as an experimental environment. Our results show that the O-VCG mechanism can effectively reflect the real-time market value of CWSs and increase the revenue of CWS providers. When the supply of CWS providers remains unchanged, allocation efficiency increases when demand increases. By analyzing the performance of the O-VCG auction and comparing it with that of the fixed-rate billing model, the proposed mechanism has more advantages. Moreover, our work provides novel managerial insights for CWS market stakeholders in terms of practical applications.
KW - auction mechanism
KW - blockchain technology
KW - floating billing management system
KW - resilient cloud warehousing
KW - third-party logistics
UR - http://www.scopus.com/inward/record.url?scp=85152593699&partnerID=8YFLogxK
U2 - 10.1007/s42524-022-0224-2
DO - 10.1007/s42524-022-0224-2
M3 - Journal article
AN - SCOPUS:85152593699
SN - 2095-7513
VL - 10
SP - 20
EP - 38
JO - Frontiers of Engineering Management
JF - Frontiers of Engineering Management
IS - 1
ER -