Detonation command and control

We claim: 1. A command and control system comprising: a command vehicle, the command vehicle comprising at least a first switch operable to provide a first authorized to fire control signal in response to actuation of the first switch to a first switch authorized to fire position; and the command vehicle comprising command computing hardware configured to provide a second switch operable to provide a second authorized to fire control signal in response to actuation of the second switch to a second authorized to fire position; the command computing hardware also being configured to receive signals corresponding to the status of plural instruments and at least one interlock; an instrumentation vehicle comprising a plurality of instrumentation inputs for coupling to associated instruments for receiving instrument status signals indicating the status of the associated instruments and for receiving instrument data signals corresponding to the data collected by the associated instruments; the instrumentation vehicle also comprising at least one interlock input for receiving interlock status signals indicating the status of the associated interlock; the instrumentation vehicle further comprising fire set and control system (FSCS) computing hardware operable to receive: (i) signals corresponding to the instrument status and instrument data signals, (ii) signals corresponding to the at least one interlock status signal, and (iii) signals corresponding to the first and second authorized to fire control signals; the FSCS computing hardware being configured to provide a firing control signal for causing the firing of the detonation device to detonate one or more explosive charges or propellant charges in response to the firing control signal, the FSCS computing hardware providing the firing control signal in response to the plural instruments and at least one interlock having a status corresponding to an authorized to fire status; and a communication network coupled to the command computing hardware and to the FSCS computing hardware, the communication network being operable to provide communications between the command vehicle and the instrumentation vehicle so as to: (i) transmit signals corresponding to the status of the at least one interlock, corresponding to the status of the plural instruments, and corresponding to the instrument data signals, from the instrumentation vehicle to the command vehicle; and (ii) transmit signals corresponding to the first and second authorized to fire control signals from the command vehicle to the instrumentation vehicle. 2. The command and control center of claim 1 , wherein the computing hardware comprises a display and the computing hardware is operable to display the status of the first and second switches, the plural instruments, and the at least one interlock. 3. The command and control center of claim 2 , wherein the command computing hardware comprises a display configured to simultaneously display the status of the first and second switches, the plural instruments, and the at least one interlock. 4. The command and control center of claim 1 , wherein the command computing hardware is configured to block the transmission of the second authorized to fire control signal in the event the plural instruments and at least one interlock are not in their desired status as determined from the signals corresponding to the instrument status signals and corresponding to the at least one interlock status signal. 5. The command and control center of claim 1 , wherein the FSCS computing hardware and the command computing hardware are configured to monitor the communication network to verify that the communication network is operable, and wherein the FSCS computing hardware is configured to block the provision of the firing control signal if the communication network is not operable. 6. The command and control center of claim 5 , wherein the command computing hardware and FSCS computing hardware are configured to provide respective test data packets and responsive test data packets for transmission from the command vehicle to the instrumentation vehicle and from the instrumentation vehicle to the command vehicle via the communication network, the command computing hardware and FSCS computing hardware being configured to determine that the communication network is not operable in the event: (i) there is a lack of correspondence between a test data packet from the command vehicle and a responsive test data packet from the instrumentation vehicle or between a test data packet from the instrumentation vehicle and a responsive data packet from the command vehicle; or (ii) test data packets transmitted and responsive test data packets transmitted between the instrumentation vehicle and command vehicle are not received within a predetermined time. 7. The command and control center of claim 5 , wherein the FSCS computing hardware comprises an interrupt manager configured to comprise the instrumentation inputs and at least one interlock input so as to receive signals corresponding to the status of the plural instruments and to the status of the at least one interlock. 8. The command and control center of claim 1 , wherein the detonator is of a type that is detonated in response to the discharge of a capacitive discharge unit (CDU) and wherein the FSCS computing hardware is configured to provide a CDU discharge control signal to cause the discharge of the CDU to ground potential in the event any one or more of the plural instruments and at least one interlock are not in their authorized to fire status.