SYSTEMS AND METHODS FOR EXTENDED HORIZON TIME-SEQUENCES

Organization Name

UKG Inc.

Inventor(s)

David Henry Wayne of Arlington MA (US)

Brian Robert Muras of Maples Grove MN (US)

Keith Alan Briggs of Pompano Beach FL (US)

Alexander L. Krowitz of Biddeford ME (US)

SYSTEMS AND METHODS FOR EXTENDED HORIZON TIME-SEQUENCES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240020597 titled 'SYSTEMS AND METHODS FOR EXTENDED HORIZON TIME-SEQUENCES

Simplified Explanation

The patent application describes an apparatus for extended horizon scheduling that includes several circuits to interpret and analyze data in order to make adjustments to a target.

• The time-sequence interpretation circuit interprets time-sequence data.
• The target interpretation circuit interprets target data.
• The time-sequence trend analysis circuit extracts a trend from the time-sequence data.
• The horizon target analysis circuit determines whether the extracted trend furthers or impedes a target defined by the target data.
• If the extracted trend impedes the target, the horizon target analysis circuit generates a promotive action command value to trigger an adjustment to the time-sequence data.
• The adjustment is designed to mitigate the extracted trend from impeding the target.
• The promotive action provisioning circuit transmits the promotive action command value.

Potential applications of this technology:

• Scheduling and planning systems in various industries such as manufacturing, transportation, and logistics.
• Financial forecasting and investment analysis.
• Resource allocation and optimization in project management.

Problems solved by this technology:

• Inaccurate or inefficient scheduling and planning due to limited horizon and lack of trend analysis.
• Difficulty in identifying and mitigating trends that impede target goals.
• Manual adjustments to time-sequence data that are time-consuming and prone to errors.

Benefits of this technology:

• Improved accuracy and efficiency in scheduling and planning processes.
• Better decision-making based on trend analysis and target interpretation.
• Automated adjustments to time-sequence data to mitigate impediments to target goals.

Original Abstract Submitted

an apparatus for extended horizon scheduling that includes a time-sequence interpretation circuit, a target interpretation circuit, a horizon target analysis circuit, and a promotive action provisioning circuit. the time-sequence interpretation circuit interprets time-sequence data, the target interpretation circuit interprets target data, and the time-sequence trend analysis circuit extracts a trend from the time-sequence data. the horizon target analysis circuit: determines whether the extracted trend furthers or impedes a target defined, in part, by the target data, and responsive to a determination that the extracted trend impedes the target, generates a promotive action command value structured to trigger an adjustment to the time-sequence data. the adjustment is structured to mitigate the extracted trend from impeding the target. the promotive action provisioning circuit transmits the promotive action command value.