System and method for agricultural activity monitoring and training

What is claimed is: 1 . A computer implemented method for monitoring agriculture activities and training an individual involved in the agricultural activities, the method comprising; collecting a plurality of parameters related to a plurality of agriculture activities by a plurality of sensors; generating a plurality of sensor data based on the collected parameters related to the plurality of agriculture activities by the plurality of sensors; transmitting the plurality of sensor data to a remotely placed server, wherein the remotely placed server comprises a plurality of predefined agriculture activity data and a crop protocol data, wherein the crop protocol data determines a likelihood of particular agricultural activity using spatial temporal parameters, agriculture domain data and crop life cycle data; comparing, the plurality of sensor data with the plurality of predefined activity data and the crop protocol data to detect an agriculture activity; generating a monitoring feedback based on the detected agriculture activity; determining a performance score of the detected agriculture activity; generating a real time training feedback based on the performance score and the plurality of sensor data; and providing the monitoring feedback and training feedback to the individual involved in the agricultural activities. 2 . The method of claim 1 , wherein the monitoring feedback and the training feedback is communicated through at least one of text, a phone call, an interactive voice call, a mobile application or any combination thereof. 3 . The method of claim 1 , wherein the plurality of sensors comprises on-body sensors and on-field sensors. 4 . A system for monitoring agriculture activities and training an individual involved in agricultural activities, the system comprising: a processor; a memory coupled with the processor, the memory comprising: a system repository configured to store predetermined set of rules; a plurality of sensors configured to sense parameters related to a plurality of agriculture activities and generate a plurality of sensor data, wherein the generated sensor data is stored in the system repository; a transceiver configured to receive a plurality of processed sensor data from the processor and further configured to transmit said sensor data; a server coupled with the transceiver to receive said sensor data, said server comprising: a server repository configured to store predefined activity data and crop protocol data; an activity detection module having a comparator coupled with the server repository to receive the predefined activity data and the crop protocol data, and configured to compare the plurality of processed sensor data with the plurality of predefined activity data and the crop protocol data to detect an agriculture activity; a monitoring feedback generator coupled with the activity detection module to receive the determined agriculture activity and configured to generate a monitoring feedback based on the detected agriculture activity; a training module comprising: a performance score determiner coupled with the activity detection module to receive the determined agriculture activity and configured to determine a performance score of the detected agriculture activity; a training feedback generator coupled with the performance scorer to receive the performance score and generate a training feedback based on the performance score; a communicator coupled with monitoring feedback generator and the training feedback generator to receive the monitoring feedback and training feedback, the communicator configured to provide the feedback to the individual involved in agriculture activities. 5 . The system of claim 4 , wherein the plurality of sensors comprises on-body sensors and on-field sensors. 6 . The system of claim 4 , wherein the crop protocol data comprises spatial temporal parameters data, agriculture domain data and crop life cycle data. 7 . The system of claim 4 , wherein the monitoring feedback generator and the training module are further configured to work independent to each other. 8 . The system of claim 4 , wherein the activity detection module and the training module are further configured to work independent to each other. 9 . The system of claim 4 , wherein said monitoring feedback and said training feedback is communicated through text, phone call, interactive voice call, mobile application or any combination thereof.