Caddie and staff locations are hard to track
AutoGence turns physical course activity into live operational context.
AutoGence Smart Golf
AutoGence Smart Golf helps golf courses coordinate caddies, range collection, staff, devices, and course traffic through real-time location awareness and AI-powered operations analytics.
Zone A prioritized
Hole 7 watch
AutoGence turns physical course activity into live operational context.
AutoGence turns physical course activity into live operational context.
AutoGence turns physical course activity into live operational context.
AutoGence turns physical course activity into live operational context.
AutoGence turns physical course activity into live operational context.
AutoGence connects location-aware devices, staff workflows, range operations, and course analytics into a single management layer designed for golf course operators.
See caddies, staff, devices, carts, and active zones from one operations view.
Understand usage patterns and coordinate player support with less manual radio traffic.
Prioritize range zones, collection windows, and equipment availability before shortages appear.
Identify traffic patterns and bottlenecks while teams can still respond.
Connect location-aware workflows across people, vehicles, and compatible devices.
Turn daily movement and workflow data into planning, staffing, and deployment insight.
Coordinate caddies and support future smart caddie robot workflows.
Learn morePlan collection zones and reduce reactive labor during peak demand.
Learn moreMonitor congestion, pace status, and historical course flow trends.
Learn moreUnify live maps, alerts, staff workflows, and analytics in one interface.
Learn moreDeployment model
The platform supports pilots that begin with course mapping and operations workflows, then expand into compatible devices and robotics-ready integrations.
AutoGence uses a location-aware architecture designed for golf course environments, operational teams, and future autonomous workflows.
Designed to support pilot-ready deployment without overclaiming device autonomy.
Designed to support pilot-ready deployment without overclaiming device autonomy.
Designed to support pilot-ready deployment without overclaiming device autonomy.
Designed to support pilot-ready deployment without overclaiming device autonomy.
Designed to support pilot-ready deployment without overclaiming device autonomy.
Designed to support pilot-ready deployment without overclaiming device autonomy.