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CN-121986352-A - Computer-based system configured to orchestrate the transfer of digital workpieces and methods of use thereof

CN121986352ACN 121986352 ACN121986352 ACN 121986352ACN-121986352-A

Abstract

In some embodiments, the present disclosure provides an exemplary method that may include the steps of identifying a plurality of entities seeking to interact with each other, determining a set of artifacts associated with each of the plurality of entities, dynamically connecting the at least two entities based on the determination of the set of artifacts shared between the at least two entities with cloud-based functionality, dynamically integrating a plurality of protocols into an interaction session associated with the at least two entities, verifying the plurality of protocols associated with the interaction session, initiating an interaction session between the at least two entities based on the plurality of protocols and the set of artifacts, and automatically modifying the interaction session to orchestrate delivery of at least one artifact of the set of artifacts between the at least two entities.

Inventors

  • S. Rao
  • STANTON MATTHEW
  • J. Rothenberg
  • V. Bandaru
  • J. KLEIN
  • M. HERMAN
  • O. Heilman
  • J. Hoddlem
  • M. WARD
  • M. Speed
  • T. Proffit
  • R. Swana
  • A. Riccio
  • S. Pirela
  • P. Skaglione
  • M. Steinmeier
  • T. Ashby
  • R. Stafford
  • R. Redigari
  • K. Hegde
  • J. PRICE
  • L. Kenyon
  • N. PATEL

Assignees

  • 布罗德里奇金融解决方案股份有限公司

Dates

Publication Date
20260505
Application Date
20240404
Priority Date
20230404

Claims (20)

  1. 1. A computer-implemented method, comprising: identifying, by at least one processor, a plurality of entities seeking to interact with each other; Determining, by the at least one processor, a set of artifacts associated with each entity of the plurality of entities; Dynamically connecting, by the at least one processor, the at least two entities based on a determination of the set of artifacts shared between the at least two entities using cloud-based functionality; dynamically integrating, by the at least one processor, a plurality of protocols into an interaction session associated with the at least two entities in response to connecting the at least two entities, Wherein the plurality of protocols associated with the interaction session include connection requirements received from each of the plurality of entities; verifying by the at least one processor the plurality of protocols associated with the interactive session, Wherein verifying the plurality of protocols includes ensuring that a number of sharing requirements from the plurality of entities exceeds a predetermined threshold; initiating, by the at least one processor, an interaction session between at least two entities based on the plurality of protocols and the set of artifacts, and Automatically modifying, by the at least one processor, an interaction session to orchestrate the transfer of at least one artifact in the set of artifacts between the at least two entities.
  2. 2. The method of claim 1, wherein each entity is a server computing device associated with a financial institution.
  3. 3. The method of claim 1, wherein the workpiece comprises a digitally transmittable data item.
  4. 4. The method of claim 1, wherein the determining of the set of artifacts includes analyzing any artifacts shared between the at least two entities with an interaction constraint module.
  5. 5. The method of claim 1, wherein the cloud-based functionality comprises a digital network capable of facilitating digital interactions between a plurality of computing devices.
  6. 6. The method of claim 1, wherein the dynamic integration of the plurality of protocols includes utilizing a rules engine to identify data interrupts in the artifact set for subsequent comparison with a plurality of artifact requests.
  7. 7. The method of claim 1, wherein the interaction session comprises a secure digital marketplace that allows entities to exchange data with artifacts.
  8. 8. The method of claim 1, wherein the automatic modification of the interactive session includes one or more authentication steps required to orchestrate the transfer of artifacts between the at least two entities.
  9. 9. The method of claim 1, further comprising utilizing an enterprise integrated services layer module to predict a likelihood associated with successful delivery of a particular artifact between the at least two entities.
  10. 10. The method of claim 9, wherein the enterprise integrated services layer comprises: A single gateway module; An API management module; a data workstation framework; Data translation layer, and At least one reverse bridging layer.
  11. 11. The method of claim 9, wherein the enterprise integrated services layer predicting the likelihood of successful delivery includes dynamically predicting that each entity can meet the requirements without modifying the plurality of protocols for subsequent artifact delivery.
  12. 12. The method of claim 11, wherein dynamically predicting that each entity can meet the requirements without modification comprises utilizing a rules engine to sort any transfer information associated with a particular artifact and a particular entity for any derivative attributes to construct a plurality of derivatives and providing attributes required for the plurality of derivatives as part of the requirements associated with the plurality of protocols.
  13. 13. The method of claim 1, further comprising: Systematically capturing at least one predicted workpiece transfer of a particular workpiece that fails to match the verified plurality of protocols, and A plurality of system reports associated with a plurality of predicted workpiece transfers and requests for workpiece transfers that are automatically verified over a predetermined period of time are generated.
  14. 14. The method of claim 1, further comprising: At least one machine learning module is utilized to analyze a particular data set associated with each entity, wherein the particular data set includes protocol preferences and predetermined artifact transmission rules.
  15. 15. The method of claim 1, further comprising: Receiving a plurality of workpiece transfer related inputs using an interactive constraint module; Comparing the plurality of workpiece transports with a plurality of transport-related inputs using an assigned scout tool to determine additional inputs associated with the interactive session and a common workpiece transport; identifying, with a machine learning module, a plurality of data interruptions associated with a comparison of the plurality of workpiece transfers and the plurality of transfer related inputs; Automatically tracking an age associated with each request of the plurality of workpiece transfers within an external database, and A plurality of system notifications are generated to ensure that the plurality of workpiece transfers are committed within a predetermined time period.
  16. 16. The method of claim 1, further comprising initiating a secure interaction session between the at least two entities using an interaction constraint module.
  17. 17. The method of claim 1, further comprising utilizing a data workstation framework to display notifications associated with workpiece transfers within the interactive session.
  18. 18. A computer-implemented method, comprising: identifying, by at least one processor, a plurality of entities seeking to interact with each other; Determining, by the at least one processor, a set of artifacts associated with each entity of the plurality of entities; dynamically connecting, by the at least one processor, the at least two entities based on a determination of the set of artifacts shared between the at least two entities using cloud-based functionality; dynamically integrating, by the at least one processor, a plurality of protocols into an interaction session associated with the at least two entities in response to connecting the at least two entities, Wherein the plurality of protocols associated with the interaction session include connection requirements received from each of the plurality of entities; Analyzing by the at least one processor the particular data set associated with each entity using at least one machine learning module, Wherein the particular data set contains protocol preferences and predetermined artifact transmission rules associated with each entity; verifying by the at least one processor the plurality of protocols associated with the interactive session, Wherein verifying the plurality of protocols includes ensuring that a number of sharing requirements from the plurality of entities exceeds a predetermined threshold; initiating, by the at least one processor, an interaction session between at least two entities based on the plurality of protocols and the set of artifacts; predicting, by the at least one processor, a likelihood associated with successful delivery of the particular artifact between the at least two entities using an enterprise integrated services layer module; Automatically modifying, by the at least one processor, an interaction session to orchestrate the transfer of at least one artifact in the set of artifacts between the at least two entities, and Systematically capturing at least one predicted workpiece transfer of a particular workpiece that fails to match the verified plurality of protocols, and A plurality of system reports associated with a plurality of predicted workpiece transfers and requests for workpiece transfers that are automatically verified over a predetermined period of time are generated.
  19. 19. The method of claim 18, further comprising: Receiving a plurality of workpiece transfer related inputs using an interactive constraint module; Comparing the plurality of workpiece transports with a plurality of transport-related inputs using an assigned scout tool to determine additional inputs associated with the interactive session and a common workpiece transport; identifying, with a machine learning module, a plurality of data interruptions associated with a comparison of the plurality of workpiece transfers and the plurality of transfer related inputs; Automatically tracking an age associated with each request of the plurality of workpiece transfers within an external database, and A plurality of system notifications are generated to ensure that the plurality of workpiece transfers are committed within a predetermined time period.
  20. 20. A system, comprising: A non-transitory computer memory storing software instructions; At least one processor of a computing device associated with an entity; Wherein, when the at least one processor executes the software instructions, the computing device is programmed to: identifying a plurality of entities seeking to interact with each other; Determining a set of artifacts associated with each entity of the plurality of entities; Dynamically connecting at least two entities based on a determination of the set of artifacts shared between the at least two entities using cloud-based functionality; In response to connecting the at least two entities, dynamically integrating a plurality of protocols into an interaction session associated with the at least two entities, Wherein the plurality of protocols associated with the interaction session include connection requirements received from each of the plurality of entities; verifying the plurality of protocols associated with the interactive session, Wherein verifying the plurality of protocols includes ensuring that a number of sharing requirements from the plurality of entities exceeds a predetermined threshold; initiating an interaction session between at least two entities based on the plurality of protocols and the set of artifacts, and An interaction session is automatically modified to orchestrate the transfer of at least one artifact in the set of artifacts between the at least two entities.

Description

Computer-based system configured to orchestrate the transfer of digital workpieces and methods of use thereof RELATED APPLICATIONS The present application claims the benefit of U.S. application Ser. No. 63/494,186, titled "Computer-based Systems Configured to Automatically Update a Security Engine with a Plurality of Notifications and Methods of Use Thereof", U.S. application Ser. No. 63/494,188, titled "Computer-based Systems Configured to Dynamically Retrieve a Plurality of Data Points from Disparate Data Sources and Methods of Use Thereof", U.S. application Ser. No. 63/494,193, titled "Computer-based Systems Configured to Simultaneously Connect Multiple Parties and Methods of Use Thereof", U.S. application Ser. No. 63/494,190, titled "Computer-based Systems Configured to Generate a Plurality of Navigation Tools for a Plurality of Users and Methods of Use Thereof", titled 2023, 4, U.S. application Ser. No. 63/494,144, titled "Computer-based Systems Configured to Dynamically Modify Input Data in Real-Time Based on a Baseline and Methods of Use Thereof", titled "Computer-based Systems Configured to Automatically Connect a Plurality of Data Frameworks Simultaneously and Methods of Use Thereof", titled U.S. application Ser. No. 63/494,195, titled "Computer-based Systems Configured to Automatically Connect a Plurality of Data Frameworks Simultaneously and Methods of Use Thereof", and titled U.S. application Ser. No. 63/494,199, titled "Computer-based Systems Configured to Modify Data to Perform at Least One Function and Methods of Use Thereof". Technical Field The present disclosure relates generally to computer-based systems configured to orchestrate the transfer of digital workpieces (DIGITAL ARTIFACT) and methods of use thereof. Background Generally, data transfer is the process of transferring or transmitting electronic or analog data from one computer node to another computer node using computational processes and techniques. Data is transferred in bit and byte form over digital or analog media and the process enables digital or analog communication between devices and movement thereof. Digital workpieces are typically data changes introduced, undesired or unintended in digital processing by the processes and/or techniques involved. Disclosure of Invention In some embodiments, the present disclosure provides an exemplary technically improved computer-based method that includes at least the steps of identifying a plurality of entities seeking to interact with each other, determining a set of artifacts associated with each of the plurality of entities, dynamically connecting the at least two entities based on the determination of artifacts shared between the at least two entities using cloud-based functionality, dynamically integrating a plurality of protocols into an interaction session associated with the at least two entities in response to connecting the at least two entities, wherein the plurality of protocols associated with the interaction session include connection requirements received from each of the plurality of entities, verifying the plurality of protocols associated with the interaction session, wherein verifying the plurality of protocols includes ensuring that a number of sharing requirements from the plurality of entities exceeds a predetermined threshold, initiating an interaction session between the at least two entities based on the plurality of protocols and the set of artifacts, and automatically modifying the interaction session to orchestrate transfer of at least one of the set of artifacts between the at least two entities. In some embodiments, a non-transitory computer-readable storage medium tangibly encoded with computer-executable instructions that, when executed by a device, perform a method comprising identifying a plurality of entities seeking to interact with each other, determining a set of artifacts associated with each of the plurality of entities, dynamically connecting at least two entities based on a determination of artifacts shared between the at least two entities with a cloud-based function, dynamically integrating a plurality of protocols into an interaction session associated with the at least two entities in response to connecting the at least two entities, wherein the plurality of protocols associated with the interaction session include connection requirements received from each of the plurality of entities, verifying the plurality of protocols associated with the interaction session, wherein verifying the plurality of protocols includes ensuring that a number of sharing requirements from the plurality of entities exceeds a predetermined threshold, initiating an interaction session between the at least two entities based on the plurality of protocols and the set of artifacts, and automatically modifying the set of artifacts between the at least two entities. Drawings Various embodiments of the present disclosure may be further explained with reference to the