17550766. PAGE TRANSITION DETECTION USING SCREEN OPERATION HISTORY simplified abstract (INTERNATIONAL BUSINESS MACHINES CORPORATION)
PAGE TRANSITION DETECTION USING SCREEN OPERATION HISTORY
Organization Name
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventor(s)
TAKAHIDE Nogayama of Kawasaki-shi (JP)
Akihiko Tozawa of Minato-ku (JP)
PAGE TRANSITION DETECTION USING SCREEN OPERATION HISTORY - A simplified explanation of the abstract
This abstract first appeared for US patent application 17550766 titled 'PAGE TRANSITION DETECTION USING SCREEN OPERATION HISTORY
Simplified Explanation
The patent application describes automation methods and systems that identify common parts of consecutive screen outputs and cluster them together. This clustering is done when the distance between the common parts of consecutive pairs is lower than a threshold distance value. The innovation automates interactions with a remote computer system based on the clustered consecutive screen outputs.
- Identifying common parts of consecutive screen outputs
- Clustering consecutive screen outputs based on the distance between common parts
- Automating interactions with a remote computer system using the clustered screen outputs
Potential Applications
- Automation of repetitive tasks in computer systems
- Streamlining user interactions with remote computer systems
- Enhancing efficiency in data processing and analysis
Problems Solved
- Reducing manual effort in repetitive tasks
- Improving accuracy and consistency in automated interactions
- Simplifying complex interactions with remote computer systems
Benefits
- Time-saving by automating repetitive tasks
- Increased productivity and efficiency in computer systems
- Improved accuracy and reliability in automated interactions
Original Abstract Submitted
Automation methods and systems include identifying common parts of consecutive pairs of consecutive screen outputs. The consecutive screen outputs are clustered responsive to a determination that a distance between the common parts of the consecutive pairs is lower than a threshold distance value. Interactions with a remote computer system are automated based on the clustered consecutive screen outputs.