Difference between revisions of "Robotic Process Automation (RPA)"

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Robotic Process Automation (RPA) is an effective tool in automating manual steps and rule-based processes by replicating human action, based on software robots or digital workers. Robots mimicking human actions across multiple software platforms. It is becoming a widely used tool due to it’s scalability and efficiencies at streamlining work that mimics high volume, repetitive business processes and it’s effectiveness at reducing error rates, assuring greater accuracy, reducing turnaround times and providing more timely information. It is non-invasive and can be integrated without changing the existing IT landscape.  It transforms end to end business processes and realizes the best qualities of humans and computers working in tandem.
 
Robotic Process Automation (RPA) is an effective tool in automating manual steps and rule-based processes by replicating human action, based on software robots or digital workers. Robots mimicking human actions across multiple software platforms. It is becoming a widely used tool due to it’s scalability and efficiencies at streamlining work that mimics high volume, repetitive business processes and it’s effectiveness at reducing error rates, assuring greater accuracy, reducing turnaround times and providing more timely information. It is non-invasive and can be integrated without changing the existing IT landscape.  It transforms end to end business processes and realizes the best qualities of humans and computers working in tandem.
  
=== Capability and Expectations ===
+
=== <big>Capability and Expectations</big> ===
 +
[[File:RPA in gov.png|thumb|RPA Opportunities Across Government]]
  
 
==== What Can Robots Do? ====
 
==== What Can Robots Do? ====
 +
Robots can log into applications, move files and folders, copy and paste data, fill in forms, extract data from documents, scrape websites, do calculations and more.
  
 
==== Expected Outputs ====
 
==== Expected Outputs ====
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**As bots are handling the execution here, a larger amount of work can be done in a relatively much shorter period. A faster delivery, coupled with accuracy becomes the norm with automation.
 
**As bots are handling the execution here, a larger amount of work can be done in a relatively much shorter period. A faster delivery, coupled with accuracy becomes the norm with automation.
  
====Expected Outcomes====
+
=== Centre of Excellence (CoE) ===
  
===Development===
 
  
====Intake ====
+
In order for the software solution to be implemented into business processes Department-wide, a Centre of Excellence (CoE) aids in overseeing and guiding the RPA practice development and evolution within HC. Health Canada’s Regulatory Operations & Enforcement Branch (ROEB) will lead in the establishment of the Health Canada RPA CoE in the inception of this model (Phase 1). However, the future-state of the CoE is intended to be managed by IT services going forward.
  
=====Process Discovery: Business Unit Process Owners, Lead BA, End-Users, RPA Champion=====
+
The Health Canada RPA CoE will provide resources, governance and guidance through the process of ensuring RPA projects are efficiently and effectively delivered with a focus on organizational needs, client service and departmental priorities. The RPA practice at HC will enable enterprise-wide digital transformation, which reduces cost, increases speed, reduces  manual processing, and improves quality and control.
Conduct interviews to discover business challenges and solicit automation candidates to aid with RPA demand.
 
  
=====Process Analysis: Business Unit Process Owners, RPA Champion, Lead BA  =====
+
===<big>Development</big>===
Determine high level RPA candidate feasibility and detailed assessment consideration.  
+
[[File:Workflow.png|thumb|right|381x381px]]
  
=====Automation Assessment: RPA Champion, Lead BA=====
+
==== Intake ====
Perform detailed assessment to review complexity, frequency, stability and input types.
+
The process of intake consists of 5 stages. In the first stage of process discovery challenges in businesses are discovered and candidates are solicited through interviews. Following this is the process analysis where the feasibility of a high level RPA candidate is determined and detailed assessment is considered. Third stage is the Automation Assessment in which performance is tested through reviewing complexity, frequency, stability and input types. After this is Automation Qualification where RPA candidates are further qualified using benefit analysis and comparing assessment score cards. In the final step resources are assigned to start the implementation processes and items are added to Jira.  
  
=====Automation Qualification: RPA Champion, Lead BA=====
+
==== Governance ====
Further qualify RPA candidate with cost benefit analysis and compare against assessment scorecard.  
+
Governance and prioritization is to be handled by the CoE Team, and are reviewed during the ROEB Transformation Meetings.  
  
=====Resources Assigned: Project Manager=====
+
==== Build, Test and Implement ====
Items are added to backlog repository and resources are assigned.
 
 
 
==== Governance and Prioritization (EMC)====
 
 
 
====Build, Test and Implement====
 
 
The following table shows the process of building, testing and implementing RPA.
 
The following table shows the process of building, testing and implementing RPA.
{| class="wikitable"
 
|+
 
!
 
!Deliverables
 
|-
 
|Prepare RPA
 
 
* One-time setup activities
 
** Set up infrastructure
 
** Design server architecture
 
** Install & configure product and applicable applications
 
** Gain access to all needed applications and systems  
 
** Develop solution & test environments
 
* Select process based on pipeline management
 
|
 
* Automation Pipeline updates
 
* Infrastructure Diagrams  
 
* Security Assessment/ATO
 
|-
 
|Solution Analysis and Design  
 
 
* Document and re-engineer processes
 
* Complete Process Definition Document (PDD)
 
** Understand As-Is and document To-Be
 
* Develop high level timeline
 
* Create test scenarios and start test plan
 
* Conduct infrastructure and security review
 
* Create the Solution Design Document (SDD)
 
|
 
* Process Definition Document
 
* User Acceptance Testing Plan
 
* Solution Design Document
 
|-
 
|Build RPA Solution
 
 
* Develop automation for in-scope processes
 
* Build the robot core structure
 
**Make process specific changes
 
**Build and integrate needed Queues
 
*Develop reusable component library
 
**Test existing custom Libraries
 
**Build new custom Libraries
 
**Unit testing for new custom Libraries
 
*Develop workflows with application integration
 
**Build GUI interaction actions
 
**Application state validation (start and end of workflows)
 
* Develop validation workflows
 
* Integrate all workflows into final robot process
 
**Check in and out arguments
 
**Add any required notifications and logging
 
  
* Conduct unit and technical testing for queue processing, exception handling and workflows
+
RPA is first prepared, with one-time set up activities that set up infrastructure and design server architecture. Products and applicable modules are installed, and access to all applications and systems needed are acquired. A process is selected based on pipeline management.
* Create the Development Specifications Document (DSD)
 
* Prepare Test Data
 
* Execute code review using development best practices
 
|
 
* Development Specifications Document
 
* Reusable Component Architecture
 
* Development Best Practices
 
* Standard Naming Conventions
 
* JIRA logs / Change Requests
 
|-
 
|Test RPA Solution
 
  
* Provide test plan
+
A solution is analyzed and designed through documenting and re-engineering processes, creating a high level timeline, creating test scenarios and conducting infrastructure review.
* Conduct User Acceptance Testing (UAT)
 
* Fix issues identified during UAT
 
* Report test results
 
* Signoff on production and Make Go/ No Go decision
 
|
 
* User Acceptance Testing Plan
 
* Exception Management  
 
* Production Release Document
 
* JIRA logs / Change Requests
 
|-
 
|Stabilize RPA
 
  
* Go Live  
+
RPA solution is then configured, building the robot automation. a reusable component library is developed, along with workflows with application integration. Workflow is integrated into the robot automation process, and testing is done for queue processing. A development specification document is created and test data is prepared.
* Submit ATWS request for migration/deployment approval
 
* Perform Read Only testing in production
 
**Run robot in READ ONLY mode to test selectors
 
**Update any selector changes
 
**Document & build any new exceptions
 
**Volume end to end testing (READ ONLY)
 
**Set up Schedule, Assets and Queues
 
* Move robot to production
 
**Set Config Run Mode to PROD
 
**Increment code versioning  
 
**Save final code in control repository
 
**Publish production code in PROD Orchestrator
 
**Monitor execution
 
**Finalize DSD Documentation
 
* Monitor robots in production
 
* Track and report on metrics and SLAs
 
* Document lessons learned
 
|JIRA logs / Change Requests
 
|-
 
|Hypercare RPA
 
  
* Conduct regular reviews and assessments
+
For RPA solution testing, a test plan is provided, conducting a user acceptance test and fixing issues uncovered during the testing. Test results are reported and signed off.
* Make changes to workflow and /or code based on Improvement opportunities  
 
* Track benefit realization
 
* Enable Service model
 
|
 
* Report on pre-defined metrics
 
* Operational Reports
 
* JIRA logs / Change Requests
 
|}
 
  
====Monitoring, Maintenance and Support====
+
==== Monitoring, Maintenance and Support ====
 +
This stage in the process consists of going live with RPA, performing a Read Only testing in production. The automation is deployed to production and monitored. Metrics and SLAs are consistently tracked and reported. Results are documented along the way.
  
====Reporting, KPIs, Continuous Improvement====
+
==== Reporting, KPIs, Continuous Improvement ====
 +
This stage of the process involves conducting regular reviews and assessments, with changes to workflow and/or code made based on improvement opportunities. Tracking benefits are realized and service models are enabled.
  
====Work to Date====
+
===<big>Work to Date</big>===
 
*Two 2 successful pilots with RPA software were conducted by ROEB:
 
*Two 2 successful pilots with RPA software were conducted by ROEB:
 
**Medical Device Establishment Licensing (UiPath)
 
**Medical Device Establishment Licensing (UiPath)
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*#create a HC/PHAC RPA Center of Expertise (CoE)
 
*#create a HC/PHAC RPA Center of Expertise (CoE)
  
===Next Steps===
+
===<big>Next Steps</big>===
 
*Engaging IT resources to implement and support RPA software implementation:
 
*Engaging IT resources to implement and support RPA software implementation:
 
**Cloud intake
 
**Cloud intake

Latest revision as of 14:17, 28 April 2022

Robotic Process Automation (RPA) is an effective tool in automating manual steps and rule-based processes by replicating human action, based on software robots or digital workers. Robots mimicking human actions across multiple software platforms. It is becoming a widely used tool due to it’s scalability and efficiencies at streamlining work that mimics high volume, repetitive business processes and it’s effectiveness at reducing error rates, assuring greater accuracy, reducing turnaround times and providing more timely information. It is non-invasive and can be integrated without changing the existing IT landscape.  It transforms end to end business processes and realizes the best qualities of humans and computers working in tandem.

Capability and Expectations

RPA Opportunities Across Government

What Can Robots Do?

Robots can log into applications, move files and folders, copy and paste data, fill in forms, extract data from documents, scrape websites, do calculations and more.

Expected Outputs

  • Cost-Effective
    • Robots can operate 24/7 and take no vacation. Depending on the volume of work processed,  automation can recover its costs within a short time span.
  • Precision & Quality
    • Robots are reliable and consistent, and they do not falter or lose concentration with heavy workloads. They follow all rules to the dot, thereby producing 100% precision in the process results, greatly reducing re-works and manual entry errors.
  • Non-Invasive
    • Robotics is a safe technology that doesn’t interfere with the inherent systems, and it will only mimic those actions capable by a human on the same console.
  • Improved Analytics and Decision Making
    • Having access to error-free, accurate data from various sources improves the quality of analytics possible for a given the process. This leads to better decision making and overall, to the betterment of the process execution.
  • Increased Employee Productivity
    • RPA ultimately facilitates humans and robots to do just what they excel at. As RPA frees the employees from their mundane tasks, they can focus more on client and customer interaction, relationship management and other such activities where humans naturally excel.
  • Faster
    • As bots are handling the execution here, a larger amount of work can be done in a relatively much shorter period. A faster delivery, coupled with accuracy becomes the norm with automation.

Centre of Excellence (CoE)

In order for the software solution to be implemented into business processes Department-wide, a Centre of Excellence (CoE) aids in overseeing and guiding the RPA practice development and evolution within HC. Health Canada’s Regulatory Operations & Enforcement Branch (ROEB) will lead in the establishment of the Health Canada RPA CoE in the inception of this model (Phase 1). However, the future-state of the CoE is intended to be managed by IT services going forward.

The Health Canada RPA CoE will provide resources, governance and guidance through the process of ensuring RPA projects are efficiently and effectively delivered with a focus on organizational needs, client service and departmental priorities. The RPA practice at HC will enable enterprise-wide digital transformation, which reduces cost, increases speed, reduces  manual processing, and improves quality and control.

Development

Workflow.png

Intake

The process of intake consists of 5 stages. In the first stage of process discovery challenges in businesses are discovered and candidates are solicited through interviews. Following this is the process analysis where the feasibility of a high level RPA candidate is determined and detailed assessment is considered. Third stage is the Automation Assessment in which performance is tested through reviewing complexity, frequency, stability and input types. After this is Automation Qualification where RPA candidates are further qualified using benefit analysis and comparing assessment score cards. In the final step resources are assigned to start the implementation processes and items are added to Jira.

Governance

Governance and prioritization is to be handled by the CoE Team, and are reviewed during the ROEB Transformation Meetings.

Build, Test and Implement

The following table shows the process of building, testing and implementing RPA.

RPA is first prepared, with one-time set up activities that set up infrastructure and design server architecture. Products and applicable modules are installed, and access to all applications and systems needed are acquired. A process is selected based on pipeline management.

A solution is analyzed and designed through documenting and re-engineering processes, creating a high level timeline, creating test scenarios and conducting infrastructure review.

RPA solution is then configured, building the robot automation. a reusable component library is developed, along with workflows with application integration. Workflow is integrated into the robot automation process, and testing is done for queue processing. A development specification document is created and test data is prepared.

For RPA solution testing, a test plan is provided, conducting a user acceptance test and fixing issues uncovered during the testing. Test results are reported and signed off.

Monitoring, Maintenance and Support

This stage in the process consists of going live with RPA, performing a Read Only testing in production. The automation is deployed to production and monitored. Metrics and SLAs are consistently tracked and reported. Results are documented along the way.

Reporting, KPIs, Continuous Improvement

This stage of the process involves conducting regular reviews and assessments, with changes to workflow and/or code made based on improvement opportunities. Tracking benefits are realized and service models are enabled.

Work to Date

  • Two 2 successful pilots with RPA software were conducted by ROEB:
    • Medical Device Establishment Licensing (UiPath)
    • Annual License Renewal Invoice processing (Blue Prism)
  • ROEB presented the RPA pilot findings and intent to move forward with an RPA solution at Architectural Review Board (ARB) on Q1 FY2021-22.
  • ROEB returned to ARB Q3 FY2021-22 and received endorsement to:
    1. run a Request for Proposal (RFP) procurement process to procure an enterprise RPA software solution that program areas can leverage.
    2. establish a separate professional services procurement vehicle (e.g.: TBIPS) for development
    3. create a HC/PHAC RPA Center of Expertise (CoE)

Next Steps

  • Engaging IT resources to implement and support RPA software implementation:
    • Cloud intake
    • Security for RPA licenses
    • Accessibility verification
    • Governance and approvals
  • Establish a Center of Expertise, starting with ROEB and expanding to other programs areas :
    • Intake process (e.g. use cases) / RPA guidelines and guardrails - Done
    • Governance and prioritization
    • Security for each RPA architecture pattern
    • Change management
    • Training
    • Release management
    • Resourcing
    • Terms of Reference - Done
  • Implement RPA technology within selected business use cases
    • Will require support and engagement from program SMEs and process owners
    • Intake form was the first step that will lead the discovery phase, and subsequent planning
    • First process to automate will be ALR