Patent Number: 058959262
Section: claims

1. In a radiation beam therapy system comprising a radiation beam source, a plurality of radiation beam treatment locations, and a multiplexed switchyard and beam transport system for directing the radiation beam to a selected one of the radiation beam treatment locations, a method of radiation beam security comprising the steps of: (a) receiving a beam request signal from a selected treatment location;  (b) deriving a beam path configuration signal from said beam request signal indicative of a selected beam path for said radiation beam from said source to said selected treatment location;  (c) selecting the switchyard and beam transport system configuration in accordance with said beam path configuration signal by enabling a first set comprising of less than all of a plurality of switchyard and beam transport elements to provide a path for transport of said radiation beam to said selected treatment location;  (d) sensing the configuration of the switchyard and beam transport system to verify that (i) all of said first set of elements of the switchyard and beam transport elements are enabled so that the switchyard and beam transport system configuration allows radiation beam transport to said selected treatment locations along said selected beam path and (ii) all of the elements of said plurality of elements not in said first set are not enabled so that the switchyard and the beam transport system configuration does not allow radiation beam transport along a non-selected beam path of said plurality of beam paths; and  (e) in response to step (d), providing radiation beam transport to said selected treatment location.  deriving a switchyard and beam transport system configuration signal from said sensing step;  comparing the switchyard and beam transport system configuration signal to said selected beam path configuration signal;  verifying that every element of the selected beam path configuration signal is contained in the switchyard and beam transport system configuration signal; and  verifying that every element of the switchyard and beam transport system configuration signal is contained in said beam path configuration signal.  denying beam transport in the absence of verification of step (d).  sensing the temperature of electrical load bearing components within said switchyard and beam transport system to determine an over-temperature condition; and  denying beam transport in the event of said over temperature condition.  sensing potential human contact with said beam transport system; and  denying beam transport in the event of said potential human contact.  transmitting said selected beam path configuration signal by mutual logical complementary redundant communication paths;  transmitting said switchyard and beam transport system configuration signal by mutual logical complementary redundant communication paths;  comparing said respective mutual logical complementary redundant communication paths to determine a communication link failure; and  denying beam transport in the event of said communication link failure.  comparing said switchyard and beam transport system configuration signal to said selected beam path configuration signal to determine a beam path error, in each of said logical complimentary redundant communication paths; and  denying beam transport in the event of said beam path error.  comparing said mutual logical complimentary redundant communication paths to determine a communication link failure; and  denying beam transport in the event of said communication link failure.  (a) means for receiving a beam request signal from a selected treatment location;  (b) means for deriving a beam path configuration signal from said beam request signal;  (c) means for selecting a switchyard and beam transport system configuration in accordance with said selected beam path configuration signal by enabling a first set comprising less than all of a plurality of switchyard and beam transport elements to provide a path for transport of said radiation beam to said selected treatment location;  (d) means for sensing the configuration of the switchyard and beam transport system to verify that (i) all of said first set of said switchyard and beam transport elements are enabled and (ii) all elements of said plurality of elements not in said first set are not enabled so that the switchyard and beam transport system configuration allow radiation beam transport to only said selected treatment location; and  (e) means for providing radiation beam transport to said selected treatment location.  a plurality of switches having a first state and a second state wherein said plurality of switches are capable of being arranged divided into a plurality of sets of one or more switches and wherein each set of switches directs said radiation beam along one of said plurality of paths when each of said one or more switches in said set are in said first state;  a plurality of sensors which provide signals indicative of the status of said plurality of switches; and  a switch controller which receives said signals from said plurality of sensors and also receives a signal indicative of a desired beam path wherein said switch controller allows transport of said radiation beam by said radiation beam along said desired beam path to said radiation treatment location when both (i) said plurality of sensors indicate that a set of said plurality of switches corresponding to said desired beam path are in said first state and (ii) said plurality of sensors indicate that the switches in said plurality of switches that are not in said set of switches corresponding to said desired beam path are in said second state.  receiving a beam request signal from a selected treatment location;  inducing a selected set of said plurality of switches to enter a first state in response to said beam request signal whereby said treatment beam will be directed along one of said plurality of paths to said selected beam treatment location;  verifying that said selected set of said plurality of switches are in said first state;  verifying that said switches not in said selected set do not direct said beam along other of said plurality of paths; and  allowing beam transport along said one beam path in response to said verifying steps.  comparing the mutual logical complimentary redundant communication path to determine a communication link failure; and  denying beam transport int he event of said communication link failure. 2. The method of claim 1, wherein step (d) comprises: 3. The method of claim 2, further comprising: 4. The method of claim 3, further comprising: 5. The method of claim 3, further comprising: 6. The method of claim 2, further comprising: 7. The method of claim 6, further comprising: 8. The method of claim 1, comprising transmitting sensed information by redundant communication paths. 9. The method of claim 8, wherein said redundant communication paths are mutual logical compliments. 10. The method of claim 9, further comprising: 11. The method of claim 8, further comprising the step of sensing potential faults in communications links which transmit sensed information. 12. In a radiation beam therapy system comprising a radiation beam source, a plurality of radiation beam treatment locations, and a multiplexed switchyard and beam transport system for directing the radiation beam to a selected one of the radiation beam treatment locations, an apparatus for radiation beam security comprising: 13. The apparatus of claim 12, wherein said means for receiving a beam request signal from a selected treatment location comprises a central control computer that receives said beam request signals. 14. The apparatus of claim 12, wherein said means for selecting the switchyard and beam transport system configuration is comprised of a switch controller and wherein said plurality of switchyard and beam transport components are comprised of switches which control magnets that steer said radiation beam. 15. The apparatus of claim 14, further comprising sensing means for sensing the state of said plurality of switches and wherein said switch controller receives signals from said sensing means indicative of the state of said plurality of switches. 16. The apparatus of claim 12, wherein said means for interrupting said providing of transport of said radiation beam to said selected treatment room interrupts said providing of said radiation beam in response to said sensing means sensing that one of said selected elements has become disabled during said beam transport. 17. An apparatus for providing radiation beam security for a radiation beam treatment system having a radiation source, a plurality of radiation treatment locations and a plurality of paths connecting said radiation source to said plurality of radiation treatment locations, said apparatus comprising: 18. The apparatus of claim 17, wherein said switch controller halts transport of said beam when said plurality of sensors indicates that one or more of said switches in said set of switches corresponding to said desired beam path enters said second state. 19. The apparatus of claim 17, wherein said radiation beam is comprised of a proton radiation beam and said plurality of switches are comprised of switching magnets having a first position and a second position which steer said proton beam along one of said plurality of paths in said first position. 20. The apparatus of claim 19, further comprising a plurality of dipole switches corresponding to said plurality of magnets, each of said plurality of dipole switches having a first position and a second position which provide power to said switching magnets to induce said switching magnets to change between said first position and said second position. 21. The apparatus of claim 20, wherein said plurality of sensors sense the status of said plurality of dipole switches. 22. The apparatus of claim 21, wherein said plurality of dipole switches are comprised of SCR switches. 23. The apparatus of claim 17, further comprising a central computer that receives a beam request signal from a treatment location and provides a signal to said switch controller indicative of said desired beam path. 24. The apparatus of claim 23, wherein said central computer determines if said beam request signal is in error prior to providing a signal to said switch controller indicative of said desired beam path. 25. The apparatus of claim 23, wherein said central computer determines that said beam request signal is in error if said beam request signal directs said radiation beam to more than one beam treatment location simultaneously and, if said beam request signal is in error, said central computer does not send said signal to said switch controller indicative of said desired beam path. 26. A method of radiation beam security for a radiation beam therapy system having a radiation beam source, a plurality of radiation beam treatment locations and a plurality of beam treatment paths between said radiation beam source and said plurality of treatment locations wherein said radiation beam therapy system includes a plurality of switches for directing said treatment beam along said plurality of paths, said method comprising: 27. The method of claim 26, wherein said step of sensing said state of said switches not in said selected set comprises sensing whether said switches not in said selected set are in said first state and wherein said method comprises interrupting transport of said beam upon sensing that one or more of said switches that are not in said selected state are in said first state. 28. The method of claim 27, further comprising the step of transmitting sensed information about the plurality of switches to a controller via redundant communication links. 29. The method of claim 28, further comprising the step of sensing potential faults in the communication links which transmit the sensed information. 30. The method of claim 28, wherein the step of transmitting sensed information via redundant communication links comprises transmitting the sensed information via mutual logical complimentary redundant communication links. 31. The method of claim 30 wherein the step of sensing potential faults in the communication links comprises: