Diagnostic method for analysing the operation of at least part of a production line in the tobacco industry

The invention claimed is: 1. A diagnostic method for analyzing operation of at least part of a production line in a tobacco industry through a probe shaped as a smoker's article and including at least one local sensor, a processor, a memory, a data transmission module and an electrical power supply, wherein the production line has a control unit and at least one line sensor, the control unit including a processor, the method comprising the following steps: generating an activation signal; transmitting the activation signal to the processor of the probe at a starting instant; transmitting the activation signal to the processor of the control unit at the starting instant, wherein the step of transmitting the activation signal to the processor of the probe and the step of transmitting the activation signal to the processor of the control unit are carried out in synchronous fashion. 2. The method according to claim 1 , wherein the transmitting of the activation signal to the processor of the probe is synchronous to the transmitting of the activation signal to the processor of the control unit. 3. The method according to claim 1 , wherein the set of probe data is acquired from the probe, as the probe moves through the at least part of the production line. 4. The method according to claim 1 , wherein the temporally correlating comprises, for each item of the probe data set, setting in relation to each other a synchronization parameter value, referred to the starting instant and assigned to that data item, and a corresponding reference instant assigned to at least one respective item of the line data set. 5. The method according to claim 1 , further comprising a step of transmitting a stop signal to the processor of the probe and to the control unit at the end of acquisition instant. 6. The method according to claim 1 , wherein the probe is shaped like one of the following smokers' articles: cigarette filter; cigarette; cigarette spacing element; cigarette packet; carton of cigarette packets. 7. The method according to claim 1 , comprising the following steps: processing the correlated data sets of the probe and of the production line to generate an adjustment signal; automatically varying a setting of one or more components of the production line as a function of the adjustment signal. 8. The method according to claim 1 , wherein the probe data includes one or more items of the following list: a position of the probe; speed variation of the probe; pressure or strain applied to the probe; temperature of the probe; magnetic field intensity in an atmosphere surrounding the probe; intensity of irradiation received by the probe; intensity of noise in the atmosphere surrounding the probe. 9. The method according to claim 1 , wherein the probe acquires at least a probe parameter through at least a local sensor. 10. The method according to claim 9 , wherein the probe parameter is representative of a pressure or strain applied to the probe, as the probe moves through the at least part of the production line. 11. A production line in a tobacco industry, comprising: at least one machine for continuously processing a succession of smoker's articles; at least one line sensor configured to measure at least one machine parameter representing operation of at least one element of the production line; a controller connected to the at least one line sensor and configured to control the operation of the at least one element of the production line; a probe shaped as a smoker's article and including at least one electronic card having at least a local sensor, a memory, a data transmission module and an electrical power supply, wherein the probe is configured to acquire at least one probe parameter; an electronic database operatively in communication with the controller and with the memory of the probe to receive and store data acquired for the at least one machine parameter and the at least one probe parameter; a computer configured to generate an activation signal and to transmit the activation signal to the probe and to the controller at a starting instant, and programmed to temporally correlate the data stored in the electronic database, wherein the computer is programmed to transmit the activation signal to the probe and to the controller in a synchronous manner. 12. The production line according to claim 11 , wherein the probe is configured for travelling through at least part of the production line, and wherein the probe is configured to acquire the at least one probe parameter as the probe moves through the at least part of the production line. 13. The production line according to claim 11 , wherein: the controller of the production line comprises a clock and is programmed to associate with each data item the controller acquires, the starting instant; the probe comprises a synchronizer configured to generate a synchronization parameter representing the starting instant and the processor of the probe is programmed to associate a value of the synchronization parameter with each data item acquired by the probe; the computer is programmed to set in relation to each other values of the synchronization parameter for the at least one probe parameter and corresponding reference instants of the at least one machine parameter. 14. The production line according to claim 11 , wherein the at least one machine parameter includes a phase parameter representing a position occupied at a given instant by a conveyor unit configured to move the smokers' articles along the at least part of the production line. 15. The production line according to claim 11 , wherein the controller of the production line and the processor of the probe are configured to acquire the respective data at a same sampling frequency. 16. The production line according to claim 11 , comprising a portable electronic appliance which includes the electronic database and the computer. 17. The production line according to claim 11 , comprising a detector located along a movement path for the smokers' articles and configured to interact with a recognition element included in the probe, to detect a presence of the probe on the movement path, wherein the computer is programmed to automatically generate the start signal in response to detection of the probe by the detector, wherein the recognition element includes at least one chosen from the group of an RFID device, a magnet and an optical identifier. 18. The production line according to claim 11 , wherein the computer is configured to process the data acquired and correlated, to generate and adjustment signal, and wherein the controller is configured to vary a setting of one or more line components automatically as a function of the adjustment signal. 19. The production line according to claim 11 , wherein the at least the local sensor of the probe is selected from the following list: a gyroscope; an accelerometer; a force sensor; a thermometer; a magnetometer; an optical sensor; an acoustic sensor; and a capacity sensor. 20. The production line according to claim 11 , wherein the probe parameter is representative of a pressure or strain applied to the probe, as the probe moves through the at least part of the production line. 21. A diagnostic method for anal analyzing operation of at least part of a production line in a tobacco industry through a probe shaped as a smokers' article and including at least one local sensor, a processor, a memory, a data transmission module and an electrical power