 So we wanted to see if it was possible to replace a groundskeeper with a automated system using the Internet of Things technology. It will use a number of sensors to make informed decisions whether it should water the field. It returns all the information about the weather and climate conditions. It could basically turn a valve on a water tank on and off. That's basically it as well as harvest information from the environment using various sensors. And they transmit all the data to a centre node through Bluetooth like you would find in your phone. That then gets transmitted to the Internet so we can monitor all that data. It was important that this could be deployed across a number of fields because as the number of fields like in a large sporting complex goes up it becomes more efficient to do it this way versus having a groundskeeper trying to manage all those fields. A large hurdle we also had to overcome was how we managed the power for each device. You won't get high battery life by running a microcontroller 100% of the time. The solution to that was to put the device into a sleep state so it conserved more energy. With our project we wanted to set the bar really high and really show what we could bring to the table with the project specifications. It was able to meet all the requirements at the end of the day and we're pretty happy with the outcome would you say? Yeah we could definitely see a system like this being deployed out onto a field and really working in the favour of a groundskeeper. So we feel like it's met the specifications we put out.