Control device and control method for blocking a control signal to a target device

The invention claimed is: 1. A control device comprising: a plurality of communication units respectively connected to a plurality of measurement control devices, and that receive data from the measurement control devices; a control unit comprising a CPU that calculates an operation signal for controlling a controlled target device on the basis of data received from the communication units and that outputs the operation signal; a storage unit that stores therein the data received from the communication units, the storage unit includes a first data storage area that stores therein first data from the communication units, and a second data storage area that stores therein second data from the communication units; a first monitoring unit and a second monitoring unit that are independent of each other, the first monitoring unit and the second monitoring unit check the first data and the second data obtained from the storage unit against each other to determine whether the first data and the second data indicate identical information, and output a blocking signal when the first data and the second data are not determined to indicate identical information; and a blocking unit that blocks the operation signal output from the control unit to the controlled device upon receiving the blocking signal output from at least either one of the first monitoring unit and the second monitoring unit, wherein when the operation signal output from the control unit is not blocked the operation signal is received and executed by the controlled target device to control the controlled target device. 2. The control device according to claim 1 , wherein the blocking unit includes a first blocking unit that blocks the operation signal output from the control unit to the controlled target device upon receiving the blocking signal output from the first monitoring unit, and a second blocking unit that blocks the operation signal output from the control unit to the controlled target device upon receiving the blocking signal output from the second monitoring unit, and the first blocking unit and the second blocking unit are connected in series between the control unit and the controlled target device. 3. The control device according to claim 1 , wherein the first monitoring unit is capable of receiving a number of interrupts equal to the number of communication units and obtains data that corresponds to each interrupt from the storage unit when the interrupt is received, and the second monitoring unit obtains data that corresponds to the interrupt from the storage unit in synchronization with the first monitoring unit. 4. The control device according to claim 3 , wherein the interrupts occur at a predetermined time interval. 5. The control device according to claim 3 , wherein each interrupt occurs when data from a measurement control device is received by the respective communication unit, and an order of priority, assigned to the data from each of the measurement control devices according to a predetermined rule, is set for the interrupts. 6. The control device according to claim 1 , wherein each communication unit receives the first data and second data that are two collections of data indicating identical information from the respective measurement control device. 7. A control method for a controlled target device that includes a plurality of communication units connected to a plurality of measurement control devices through a plurality of networks, a control unit, a storage unit, a first monitoring unit and a second monitoring unit that are independent of each other, and a blocking unit, the control method comprising: receiving, by each of the plurality of communication units, data from a respective measurement control device; calculating, by the control unit, an operation signal for controlling the controlled target device on the basis of data received from the communication units; storing, by the storage unit, the data from the communication units, the storage unit includes a first data storage area that stores therein first data from the communication units, and a second data storage area that stores therein second data from the communication units; checking, by the first monitoring unit and the second monitoring unit, the first data and the second data obtained from the storage unit against each other to determine whether the first data and the second data indicate identical information; outputting, by the first monitoring unit and the second monitoring unit, a blocking signal when the first data and the second data are not determined to indicate identical information; blocking, by the blocking unit, the operation signal from being outputted by the control unit to the controlled target device upon receiving the blocking signal output from at least either one of the first monitoring unit and the second monitoring unit; receiving, by the controlled target device, the operation signal when the operation signal output from the control unit is not blocked; and executing, by the controlled target device, the operation signal, wherein the operation signal controls the controlled target device.