Skip to main content

We'd prefer it if you saw us at our best.

Pega.com is not optimized for Internet Explorer. For the optimal experience, please use:

Close Deprecation Notice

Process automation

What is process automation?

What is process automation?

Process automation uses technology to streamline operations, reduce the need for human intervention, and improve efficiency and accuracy.

Automating processes involves integrating disparate systems and breaking down silos for seamless data flow across an organization. Additionally, it’s a critical part of continuous optimization, and core to many organizations’ digital transformation initiatives.

Why is process automation important?

Large organizations grapple with the challenges of managing high-volume, complex operations. Handling intricate processes manually is often inefficient and prone to error. The rapid pace of business today demands quick decision-making and fast execution, which manual processes cannot always support. Furthermore, large organizations are often inundated with vast amounts of data, making management a significant challenge. Process automation emerges as a critical solution, streamlining operations for consistency and accuracy and freeing up valuable resources to focus on strategic initiatives rather than routine tasks. It's not just advantageous, but essential for large organizations that strive to succeed and maintain competitiveness in the current business environment.

Benefits of process automation

  • Streamlined resource allocation: Automating processes reduces time and costs in manual operations, allowing for more investment in growth areas like research and marketing.
  • Strategic resource utilization: Automation frees employees from routine tasks to focus on strategic activities, enhancing competitive advantage and growth potential.
  • Precision in execution: Automation reduces errors, improving the reliability of products and services and leading to increased customer satisfaction and brand reputation.
  • Robust compliance and oversight: Consistent and transparent processes make it easier to comply with regulations, reducing legal risks and building trust with customers and partners.
  • Flexible process adaptation: Rapidly adjusting processes enables quick responses to market changes and operational challenges, allowing you to maintain continuity while seizing new opportunities.
  • Enhanced organizational productivity: Business automation optimizes operations, resulting in faster turnaround, higher-quality output, and improved customer service, all of which drive revenue growth and market position.
Benefits of process automation
How process automation works

How does process automation work?

Process automation solutions use technology to execute and manage tasks and processes that would otherwise require manual effort. Let's imagine an auto manufacturer wants to implement process automation within its manufacturing setting. The auto manufacturer would:

  • Identify automation opportunities: The auto manufacturer would use process mining to identify key areas in its supply chain that can benefit from automation, such as inventory management, parts ordering, and supplier communication.
  • Implement automation tools: The manufacturer can then deploy a sophisticated workflow management system integrated with robotic process automation and Internet of Things technologies.
  • Integrate across the organization: The workflow management system can integrate various aspects of the supply chain, from supplier order management to logistics and warehouse management. This creates a seamless flow of information and materials across different supply chain stages.
  • Analyze data and schedule predictive maintenance: The system now collects and analyzes data from various sources, including production lines, quality control, and supply chain logistics. Using this data, predictive models can forecast potential disruptions or maintenance needs in manufacturing equipment, allowing for proactive maintenance scheduling without human intervention.

The result is a more responsive and adaptable manufacturing process.

Explore what's possible with Pega for robotic process automation

What are the different types of process automation?

Robotic process automation (RPA)

This involves using software robots or "bots" to automate repetitive, rule-based tasks that are typically performed by humans, such as data entry, form filling, and straightforward customer service operations.

Business process automation (BPA)

This focuses on automating complex business processes at the organizational level by integrating various systems and applications, automating data flow between them, and managing complex workflows. BPA solutions are useful for supply chain management, CRM, and enterprise resource planning.

Digital process automation (DPA)

This integrates advanced digital technologies like artificial intelligence (AI), machine learning (ML), and RPA to optimize end-to-end business processes, focusing on efficiency, enhanced customer experience, data-driven insights, and improved collaboration in a digital-first framework.

Workflow automation

This concerns the flow of tasks and information across various stakeholders, such as automating and optimizing the sequence of activities involved in business processes, from simple approvals to complex operational sequences.

AI and ML automation

These advanced technologies can be used to automate processes that require decision-making, learning from data patterns, and adapting to new scenarios — think chatbots for customer service, image and voice recognition systems, and predictive analytics.

Challenges of implementing process automation

  • Integration with existing systems: Many organizations have legacy systems, and integrating new automation technologies with these can be complex and costly. Ensuring compatibility and seamless data exchange between old and new systems is often a significant hurdle.
  • Change management: Automation brings significant changes to an organization's workflow. Managing these changes, including employee apprehension and resistance, requires effective communication and training programs to ensure a smooth transition.
  • Skill gaps and training needs: The shift to automated processes often demands new skills from the workforce. Identifying these skill gaps and providing the necessary training can be challenging, especially in organizations with many employees.
Process automation: challenges

Customer Success

Aflac simplifies and automates email processing

See how Aflac leveraged AI-powered email bot technology to improve overall email productivity.

Process automation: implementation

Implementing and scaling process automation

Organizations should start with a clear strategy to implement and scale process automation successfully. This involves identifying key areas that would benefit most from automation, choosing the right tools and technologies, and involving relevant stakeholders. It's also crucial to have a roadmap for scaling automation efforts and ensuring business alignment.

Workflow automation platforms can address these challenges and more. These platforms enable rapid development and deployment of applications with minimal coding, making it easier for organizations to build the tools they need to create custom automation and workflows.

Workflow automation solutions also empower teams to develop solutions that meet specific needs without the lengthy timelines traditionally associated with software development and deployment. This agility is critical for large organizations to adapt to market changes or internal demands quickly.

The future of process automation

The future of process automation in large organizations is closely tied to advancements in artificial intelligence (AI). AI is transforming process automation by enabling automation in more complex, decision-based processes. Machine learning algorithms can analyze vast amounts of data, providing insights that optimize processes further. Integrating AI into process automation tools makes them more intelligent, adaptable, and efficient, setting the stage for unprecedented automation in large organizations.

Th future of process automation

Explore what's possible with Pega for workflow automation

Frequently Asked Questions about process automation

Data plays a crucial role in process automation, influencing various aspects of the automation lifecycle. Some key roles data plays in the context of process automation include:

  • Decision-making
  • Process optimization
  • Predictive analytics
  • Continuous improvement
  • Monitoring and control

Data serves as the foundation for effective process automation. It drives decision-making, facilitates optimization, and supports continuous improvement, ensuring that automated processes align with organizational goals and deliver value.

Ensuring security in automated systems is crucial to protecting against potential threats, data breaches, and unauthorized access. Some key measures and best practices to enhance the security of automated systems include:

  • Access control
  • Data encryption
  • Regular software updates and patching
  • Network security
  • Incident response plan
  • Security training and awareness

By incorporating these security measures and best practices, organizations can enhance the resilience of their automated systems against a wide range of security threats and vulnerabilities.

Ensuring scalability is crucial for accommodating business growth and evolving demands. Here are some key strategies to ensure scalability in automated systems:

  • Modular design
  • Scalable infrastructure
  • Load balancing
  • Horizontal and vertical scaling
  • Auto-scaling

By implementing these strategies and others, organizations can build automated systems that are not only efficient and responsive to current demands but also capable of adapting and scaling to meet future requirements and challenges.

Explore what’s possible with Pega

Try now
Share this page Share via X Share via LinkedIn Copying...