Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/258003 
Year of Publication: 
2020
Citation: 
[Journal:] Risks [ISSN:] 2227-9091 [Volume:] 8 [Issue:] 2 [Article No.:] 49 [Publisher:] MDPI [Place:] Basel [Year:] 2020 [Pages:] 1-29
Publisher: 
MDPI, Basel
Abstract: 
The paper proposes a novel computational impact analysis framework to proactively manage dynamic constraints and optimally promote the inception of central banks' regulatory policies. Currently, central banks are encountering contradictory challenges in developing and implementing regulatory policy. These constraints mainly comprise of incomplete or anomalous information (information asymmetry), and very tight temporal and resources limitations (bounded rationality) when the efficiency of a policy is determined at a system-level. The complex relationships of the policy attributes and their interactions generate very dynamic emergent behaviours due to the complex causal relationships. This paper adopted and tailored the hierarchical change management structure framework to design a first step framework called 'computational regulatory policy change governance'. The methodology uses interviews, focus-group workshop and the application of empirical data. The results of the evaluation and case study validate its applicability in computing policy parameters and the impacts of their interactions. The evaluation of the framework gained a remarkable score, averaging a 130 per cent improvement compared to the existing methods. However, the research paper used a single case study, and its outcomes require further evaluation and testing. Accordingly, we invite regulators, banks, scholars and practitioners to explore the uniqueness and features of the proposed framework.
Subjects: 
regulatory policy management
banking regulation
computational regulation
ripple effects
feedback loops
causal loop analysis
quality attribute constraints
Persistent Identifier of the first edition: 
Creative Commons License: 
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Document Type: 
Article
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