Role: UI/UX, Hardware prototyping
Brief: Develop an internet-connected technology based proposal for Tunxis golf club.
8 weeks group project with Shan Wang, Nikhil Nilakantan and Mandy Li
IoT Ecosystem, Carnegie Mellon University, Fall 2017
Tunxis country club currently has no access to the location information of golf carts and players on the course course, thus has almost no knowledge or control over the time that groups spend on the court.
Our system uses golf-cart tracking and RFID sensing to get real-time location and pace of play data, to provide valuable information to the management for efficient scheduling and customer behavior analysis, and to create frictionless game play experience for golfers on-course.
During the check-in process in the pro-shop, players get RFID wristband. As soon as the players’ wristband get paired up with the golf cart, management can start to monitor the location of the cart.
When the players start to play the game, they put their golf ball down the RFID reader embedded in the tee area automatically scans the wristband. Therefore, management can start to monitor the pace of play for individual players.
When players finish every hole, they can pick up their ball, and the wristband automatically gets scanned by the reader in the last hole.
By doing so, management would be able to get accurate data for the pace of play. For slow players, management can reference the data and send a notification to nudge players to play little faster.
The four main components of our ecosystem are the RFID-enabled wristband, given to every golfer at the pro shop before they enter the course; the GPS transmitter module mounted on every golf cart that constantly broadcast location information; the cloud-based server and database that stores all the data coming in from the course; and the management dashboard that aggregates and displays all collected data and allows the administration to take actions, understand traffic, and make further optimizations to improve quality of play and drive up revenue.
The beauty of the ecosystem lies in the integration of simple, low-cost, low-power technology that gives us access to very rich, high-fidelity information and data, as well as the fact that it exists almost completely in the background and maintains the integrity of the on-course experience for the golfers.
We propose the simple, intuitive Customer relationship management (CRM) dashboard to effectively manage the customer as well as the core businesses.
At homepage, our system estimates the prospective customers by number of appointments and help management to plan and organize the appropriate service ahead. Further information regarding the traffic can be found in analytics section, which provides overall analytics for sales and revenue. For each event and service, management can have a holistic view by recent activities feature, which provides the real-time updates on how other teams such as restaurant or maintenance team are keeping up with their tasks.
At a map view, management can grasp the pace of play in each hole to provide better on-course experience. With RFID wristbands and GPS enabled Golf carts, the team can now view the time that players are spending in each hole in real-time and manage the staff more efficiently. If they want to see the information in detail, they can click the line and it will show the pace of play by each cart.
During the final demonstration, the ecosystem was set in small-scale and focused on how seamless the wristband is when golfers play the game. Our team demonstrated the core components of the system: RFID wristbands, an RFID reader mounted to the tee area and connected to a Raspberry Pi, a model golf cart with GPS module, and realtime server data stream that shows the timestamp of both the golf cart and the player. During the live demo, our participants, including the manager of Tunxis, were not disturbed by wearing the RFID wristband and the interactions that trigger the timestamp appeared natural.