Punish or reward? How to strengthen supervision of nucleic acid testing

Kai, Ji Jung; Liu, Ming; Wang, Yue; Zhang, Ding

doi:10.1108/k-12-2022-1722

2023

DOI: 10.1108/k-12-2022-1722

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Punish or reward? How to strengthen supervision of nucleic acid testing

Ji Jung Kai

Ming Liu

Yue Wang

et al.

Abstract: PurposeNucleic acid testing is an effective method of accurate prevention and control and a key measure to block the spread of the epidemic. However, the fraud in nucleic acid testing occurred frequently during epidemics. This paper aims to provide a viable scheme for the government to strengthen the supervision of nucleic acid testing and to provide a new condition for the punishment for the negative act of the government and the upper limit of the reward for nucleic acid testing institution of no data fraud.… Show more

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2024

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Cited by 3 publications

References 22 publications

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Uniform or demand-driven allocation? Optimal management of social donations distribution in response to sudden outbreaks

Zhu,

Liu,

Zhang

2024

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PurposeThis study aims to address challenges in the distribution of social donations during epidemic emergencies, focusing on issues such as uneven distribution and material stacking. The goal is to propose optimized strategies that enhance equity and efficiency in the allocation of donated resources.Design/methodology/approachFirstly, the satisfaction function is constructed from two perspectives of the designated hospital and the Red Cross. On this basis, the fairness perception level of the two is portrayed. Then, we set the time weights, and construct a multi-objective programming model by combining the resource constraints in the social donation distribution process. The combined algorithm of NSGA-II and TOPSIS is also designed for model solving. Finally, an example of social donation distribution of the Red Cross Society of China Wuhan Branch is conducted for numerical analysis.FindingsNumerical analysis reveals that timely transmission of demand information favors a demand-oriented distribution strategy for optimal efficiency. However, in scenarios with poor demand information transmission, an equal distribution of social donations proves to be a more effective strategy. Equal distribution ensures rapid allocation while minimizing perceived unfairness at designated hospitals, ultimately improving overall satisfaction levels and emergency response effectiveness.Practical implicationsThe findings provide practical insights for emergency response planners. These include translating the developed methods into guiding principles, establishing real-time monitoring systems, enhancing training for relevant departments, and implementing evaluation mechanisms. Practitioners can utilize this knowledge to optimize the efficiency of social donation distribution during sudden outbreaks.Social implicationsThe equitable distribution of social donations ensures efficient resource allocation and minimizes perceived unfairness, contributing to improved social satisfaction levels. This has broader implications for community resilience and support during emergencies.Originality/valueThis research contributes to the field by proposing a comprehensive model for optimizing social donation distribution in emergencies. The integration of fairness perception, time weights, and a multi-objective planning approach, along with the application of the combined algorithm of NSGA-II and TOPSIS, adds novelty and practical value to the existing literature. The study serves as a decision-making reference for enhancing emergency response theories in sudden event.

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Uniform or demand-driven allocation? Optimal management of social donations distribution in response to sudden outbreaks

Zhu,

Liu,

Zhang

2024

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How to improve the quality of emergency supplies? A tripartite evolutionary game model

Wang,

Liu,

Viana

et al. 2024

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PurposeProviding quality emergency supplies is crucial to mitigate and respond to emergencies. However, despite government and consumer oversight of emergency supplies’ quality, a troubling trend persists among some enterprises to sacrifice product quality for financial gain. This paper examines the influence of strategy selections among governments, enterprises, and consumers to enhance the quality of emergency supplies.Design/methodology/approachWe develop a tripartite evolutionary game model consisting of three stakeholders: government, enterprises, and consumers, considering factors including subsidies and penalties. After analysing three stakeholders’ strategic choices to ascertain system stability, parametric analyses were conducted.FindingsExcessive or insufficient subsidies are not conducive to encouraging enterprises to adopt an authentic production strategy; excessive subsidies may result in consumers enduring counterfeiting. Furthermore, the government’s supervision strategy can stabilise the system quickly, suggesting that consumer reporting cannot replace government supervision. Additionally, incentivising enterprises to adopt an authentic production strategy can be achieved by increasing penalties and enhancing compensation while reducing consumer reporting, government supervision, and raw materials costs.Originality/valueWe present a preliminary exploration of how to promote the production of qualified emergency supplies in the early stages of an emergency event. The model and findings proposed in this paper can be generalised and applied to various emergency events, including epidemics and earthquakes.

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How to Control Waste Incineration Pollution? Cost-Sharing or Penalty Mechanism—Based on Two Differential Game Models

Li,

Tan

2024

Decision Analysis

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This study explores whether the government should implement a cost-sharing or penalty mechanism to control waste incineration pollution and investigates which policy can best incentivize incineration plants to invest in pollution control. We design two differential game models, one based on a cost-sharing approach and one on a penalty system, to model the interactions between the government and incineration plants. We then compare and analyze the equilibrium outcomes in both scenarios. Our findings reveal that when incineration pollution significantly impacts the government, both the cost-sharing and penalty mechanisms are effective in stimulating incineration plants to enhance their pollution control efforts. However, when incineration pollution significantly affects the incineration plants themselves, the cost-sharing mechanism proves to be more effective in terms of pollution control. Furthermore, we find that the government derives greater utility under the cost-sharing mechanism compared with the penalty mechanism, especially as the amount of municipal solid waste (MSW) increases. In contrast, incineration plants tend to generate higher profits under the cost-sharing mechanism. These findings and their accompanying managerial implications may provide valuable guidance for government agencies in formulating policies to manage incineration pollution and encourage waste incineration plants to invest in improving their pollution control systems. Funding: This work was supported by the National Natural Science Foundation of China [Grant 71571149], Humanities and Social Sciences Foundation for Youth Scholars of Ministry of Education of China [Grant 22YJC630171], and Natural Science Foundation of Sichuan Province of China [Grant 2023NSFSC1055].

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Punish or reward? How to strengthen supervision of nucleic acid testing

Cited by 3 publications

References 22 publications

Uniform or demand-driven allocation? Optimal management of social donations distribution in response to sudden outbreaks

Uniform or demand-driven allocation? Optimal management of social donations distribution in response to sudden outbreaks

How to improve the quality of emergency supplies? A tripartite evolutionary game model

How to Control Waste Incineration Pollution? Cost-Sharing or Penalty Mechanism—Based on Two Differential Game Models

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