Bidirectional wireless detonator system

The invention claimed is: 1. A blasting system which includes a control antenna, control equipment and a plurality of detonators, wherein each detonator is located in a respective borehole formed in rock and includes a respective transmitter and receiver and is adapted to magnetically communicate wirelessly through the rock in a two-directional manner with a number of detonators, fewer than all of the plurality of detonators, which number of detonators are disposed in adjacent boreholes, whereby a signal from the control equipment is transmitted by the control antenna through the rock and is then relayed in succession via the respective transmitters and receivers of at least some of the plurality of detonators along a plurality of outbound paths in the rock to all the plurality of detonators, and a signal from any detonator is relayed in succession via the respective transmitters and receivers of at least some of the plurality of detonators along a respective inbound path in the rock to the control antenna, and wherein the control equipment is operable to transmit a signal from the control antenna through the rock simultaneously to all of the detonators. 2. A blasting system according to claim 1 wherein one of said plurality of detonators is a sink detonator which is in direct communication with the control equipment. 3. A blasting system according to claim 2 wherein each detonator is configured to communicate wirelessly through the rock with a number of adjacent detonators, fewer than all of the plurality of detonators, whereby a signal from any detonator is relayed via successive detonators to the sink detonator, which transmits the signal to the control antenna. 4. A blasting system according to claim 2 wherein the control equipment is connected to the sink detonator by means of a physical link. 5. A blasting system according to claim 2 wherein the control equipment is in signal communication with the sink detonator via the control antenna. 6. A blasting system according to claim 1 wherein each of said signals is at a frequency of 4 kHz, and is modulated to carry information. 7. A blasting system according to claim 1 wherein each of said plurality of detonators includes a respective unique identifier. 8. A blasting system according to claim 7 wherein each said outbound path is determined by a sequence of said unique identifiers respectively associated with the respective plurality of detonators along said outbound path. 9. A blasting system according to claim 7 wherein each said inbound path is determined by a sequence of said unique identifiers respectively associated with the respective plurality of detonators along said inbound path. 10. A blasting system according to claim 1 wherein said signal which is transmitted by the control equipment simultaneously to all the detonators is selected from a signal to synchronize the operation of the detonators; a signal to arm the detonators; and a signal to fire the detonators. 11. A blasting system according to claim 1 wherein each of said plurality of detonators includes a respective said transmitter which, when actuated, transmits a first signal at a known, predetermined signal strength, a respective said receiver which, in operation, receives said first signal from another detonator which is the same as said detonator and which is displaced by a distance from said detonator, a comparator which compares the strength of the transmitted first signal to the strength of said received first signal, and a processor, responsive to the comparator, operable to provide a measurement of the difference between the strength of the transmitted first signal and the received first signal.