The “green revolution” is a well-known term for the period between the 1930s and the 1960s, referring to the number of technology transfers to agricultural production, including high-yielding varieties of cereals, artificial fertilizers, and agrochemicals and various new cultivation practices¹. The application of all these initiatives was not possible without the mechanization of agricultural production. During the mechanization phase muscle-powered tasks were gradually taken over by machines, and agricultural production was transformed to an industrial-type system. Following that, and as a natural consequence, there was a period dedicated to rationalization of the management of the work performed by workers and machines, in parallel with continuous increased replacement of manpower. During the most recent phase, as in all other application domains, the need for human sensory and mental requirements has been replaced by information and communication technologies in association with automation systems, which provided an increase in capacity, performance speed, and work repeatability. Fig. 1 presents the time period of each of these phases. During this evolution a number of advantages emerged, including increased capacity (i.e., work performance), reduced labor cost and labor availability dependence, increased flexibility of the production system (easier adoption of new production practices), decreased material inputs (i.e., agrochemicals and fertilizers), and increased product quality (better control of processes). However, production systems became more complex, requiring higher investment and service costs (Fig. 2).