Smart desk hardware that provides booking convenience and valuable occupancy analytics.

 
 
 

The Floorsight Handset, Floorsight Puck, and Floorsense Occupancy Sensor work together to create a comprehensive desk booking ecosystem that delivers both effortless user experience and high-quality workplace data. This integrated approach combines hardware intelligence with behavioural design to deliver high-quality occupancy insights.

At-desk booking is effortless. Users simply place their building access card or smartphone on the Puck to check in. For prebooked desks, the Floorsense app automates check-in entirely. The Floorsight Handset enhances any sit-stand desk by integrating booking, occupancy sensing, power control, height adjustment, and dynamic office notifications into one comprehensive device.

The real power emerges when booking data meets actual occupancy metrics. The Floorsense Occupancy Sensor independently monitors space usage, validating booking accuracy and revealing utilisation patterns. Built-in location tracking guides users directly to reserved spaces, while real-time analytics expose occupancy trends and space performance, enabling data-driven workplace decisions.

 

Please download the product sheets for more information about features and specifications.

Downloads

Floorsight Handset Product Sheet
Floorsight Puck Product Sheet
Floorsense Occupancy Sensor Product Sheet

Enquire about Floorsense and Floorsight
 
 
 
 

The Floorsight puck features automatic or manual check-in, wireless or USB A/C 100W charging, and an integrated building card reader.

 
 

The Floorsight handset features single space occupancy monitoring and links to the puck for check-in prompts, with multiple mounting options available.

 
 
 

Get immediate insight into occupation levels with per-floor heat maps. Identify trends by day, week, or month, and group workspaces by type to see popularity and demand—all exportable to PDF, Excel, or third-party BI tools like PowerBI.

 

Advanced sensors accurately detect occupancy in challenging environments, including complex layouts that confuse standard sensors.