Cogover Process is a business process management and workflow automation platform built on a No-code/Low-code foundation with integrated AI. Developed by Cogover LLC, headquartered in Delaware, USA, with offices in Hanoi, Ho Chi Minh City, India, and the UAE, the platform is applied across business functions including HR, Finance, Sales, Marketing, Operations, and Customer Service. Cogover Process enables organizations to design, run, and monitor business workflows through a drag-and-drop builder without coding. The platform supports three workflow types: Manual Flow for human-driven tasks with configurable forms, Trigger Flow for schedule-based automation, and Schedule Flow for condition-based execution. Workflow logic uses BPMN-standard gateways: Exclusive (XOR), Inclusive (OR), and Parallel (AND) to model both simple approval chains and complex multi-branch processes. Automated tasks include sending emails, HTTP requests, and notifications. Granular access control extends to individual steps and data fields, with real-time dashboards for tracking workflow progress and SLA monitoring. The platform integrates AI to automate data extraction from forms, emails, and documents, support intelligent request classification, and handle multi-step processes such as document review and information verification. It connects with CRM, ERP, HRM, and third-party systems through declarative integration and HTTP requests. Cogover Process is designed for organizations that need to digitize and standardize operational workflows without relying on developer resources. Unlike traditional BPM tools that require technical expertise to configure, Cogover allows business users to build and modify workflows entirely through a visual interface, with a pre-built template library for common processes such as leave approvals, expense requests, employee onboarding, and purchase orders. This enables teams to automate repetitive processes, enforce consistent approval logic, and adapt workflows as business requirements change reducing manual handoffs and operational bottlenecks.