The results included three rich pictures and three conceptual models which in the case of the current system depict the conventional manned tractor and in the case of future scenarios envision a small field robot and a conventional autonomous tractor. The designs entail complete supervision, control and automated management and operation of agricultural machinery systems. The depicted systems have common characteristics and the differences concern type of technology and subsequent capabilities. The final FMMIS models comprise complete data collection and processing of all parameters of a farm (crops quality and quantity, agricultural equipment management, inventory management, economic analysis, best practice, etc.) using all available instruments and subsystems that can be used on a farm. These capabilities are facilitated and supported by advanced and specialized functions and features such as system communication with government agencies, research centers, universities, manufacturers, agriculturists in order to automate additional functions of a farm such as the automation of subsidies, remotely crop observation by experts, and the remote inspection of vehicles operation parameters and diagnosis by the manufacturers of agricultural equipment.process, world-view, ownership and environmental constraints.