Abstract
Some workflow automation systems may evaluate tasks based on a single dimension of logical feasibility, which may not account for human-centric factors and can potentially lead to suboptimal automation strategies. A system may utilize a dual-axis scoring engine to analyze discrete operational tasks along both a cognitive complexity axis and a relational sensitivity axis. Based on a resulting two-dimensional score, each task can be mapped to an execution authority protocol that suggests an appropriate level of automation. An algorithmic synthesis module may then restructure the operational process by applying a library of execution patterns, such as parallelizing independent tasks. This process can generate one or more deployable, machine-readable schemas for new operational architectures, providing a computable method for balancing processing efficiency with human-centric considerations in workflow design.
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Recommended Citation
Rengarajan, Hariprasad and Jindal, Rahul, "Dual-Axis Scoring for Automated Synthesis of Operational Architectures", Technical Disclosure Commons, ()
https://www.tdcommons.org/dpubs_series/10275