CPR chest compression machine adjusting motion-time profile in view of detected force

What is claimed is: 1. A Cardio-Pulmonary Resuscitation (“CPR”) machine configured to perform, on a chest of a supine patient, compressions alternating with releases, the chest having an initial resting height above a reference elevation level, the initial resting height determined at a moment when none of the compressions is being performed, the CPR machine comprising: a compression mechanism configured to perform, when driven, the compressions to the chest and the releases; a driver system configured to automatically drive the compression mechanism according to a motion-time profile and to cause the compression mechanism to repeatedly perform the compressions and the releases, at least two of the compressions causing the patient's chest to compress by at least 2 cm downward from the initial resting height; a force sensing system configured: to sense an amount of a compression force exerted by the driver system when the chest has been compressed downward by at least 1 cm from the initial resting height, to determine an updated resting height if the amount of the compression force meets an alert condition, and to generate and transmit an instruction to the driver system to adjust the driving of the compression mechanism to be driven downward from the updated resting height if the amount of the compression force meets the alert condition. 2. The CPR machine of claim 1 , in which the force sensing system includes a force sensor. 3. The CPR machine of claim 1 , in which the force sensing system includes a measuring spring. 4. The CPR machine of claim 1 , in which the driver system operates by receiving an electrical current, and the force sensing system includes an electrical detector configured to detect an amount of the electrical current. 5. The CPR machine of claim 1 , in which the driver system is further configured to adjust the motion-time profile in in response to the sensed amount of the compression force. 6. The CPR machine of claim 5 , in which the motion-time profile includes a maximum depth below the initial resting height, to which the chest is compressed, and the driver system is further configured to adjust the motion-time profile by adjusting the maximum depth. 7. The CPR machine of claim 6 , in which the driver system is further configured to adjust the maximum depth in response to the sensed amount of the compression force. 8. The CPR machine of claim 5 , in which the driver system is further configured to adjust the motion-time profile by discontinuing driving the compression mechanism if the sensed amount of the compression force meets the alert condition. 9. The CPR machine of claim 5 , further comprising: the force sensing system is configured to output a sensed amount of the compression force, a memory configured to store a force value, the force value encoding the sensed amount of the compression force and generated from the output of the force sensing system, the the initial resting height determined at a first time instant, the undated resting height is-determined from the output of the force sensing system at a second time instant that occurs after a set of at least 3 of the compressions and the releases have been performed after the first time instant, the updated resting height different from the initial resting height. 10. The CPR machine of claim 1 , further comprising: a chest-lifting device configured to lift the chest, and in which the drives system is further configured to drive the chest-lifting device according to the motion-time profile and to cause the chest-lifting device to lift the chest with respect to the reference elevation level while none of the compressions is being performed, the chest being thus lifted during at least one of the releases by at least 0.5 cm above the initial resting height, the force sensing system is further configured to sense an amount of a lifting force exerted by the chest-lifting device while the chest-lifting device is lifting the chest, and the driver system is further configured to adjust the motion-time profile based on the sensed amount of the lifting force instead of the sensed compression force. 11. The CPR machine of claim 10 , in which the chest-lifting device includes a tether. 12. The CPR machine of claim 10 , in which the chest-lifting device includes an inflatable bladder. 13. The CPR machine of claim 10 , in which a maximum height is determined by causing the chest-lifting device to lift the chest until the sensed amount of the lifting force meets a lifting force threshold. 14. The CPR machine of claim 10 , in which the driver system is further configured to adjust the motion-time profile by discontinuing driving the chest-lifting device if the sensed amount of the lifting force meets a stop condition. 15. The CPR machine of claim 10 , further comprising a user interface that is further configured to emit a lifting alert if the sensed amount of the lifting force meets a lifting alert condition. 16. A non-transitory computer-readable storage medium storing one or more programs which, when executed by a Cardio-Pulmonary Resuscitation (“CPR”) machine configured to perform, on a chest of a supine patient, compressions alternating with releases, the CPR machine including a compression mechanism configured to perform, when driven, the compressions to the chest and the releases, a driver system, and a force sensing system, the chest having an initial resting height above a reference elevation level, the initial resting height determined at a moment when none of the compressions is being performed, the programs result in operations comprising: driving, by the driver system, the compression mechanism automatically according to a motion-time profile; causing the compression mechanism to repeatedly perform the compressions and the releases, at least two of the compressions causing the patient's chest to compress by at least 2 cm downward from the initial resting height; sensing an amount of a compression force exerted by the driver system when the chest has been compressed downward by at least 1 cm from the initial resting height; determining an updated resting height if the amount of the compression force meets an alert condition, generating transmitting an instruction to the driver system to adjust the driving of the compression mechanism to be driven downward from the updated resting height if the amount of the compression force meets the alert condition. 17. The medium of claim 16 , in which the operations further comprise: adjusting the motion-time profile in view of the sensed amount of the compression force. 18. The medium of claim 17 , in which the motion-time profile includes a maximum depth below the initial resting height, to which the chest is compressed, and the motion-time profile is adjusted by adjusting the maximum depth. 19. The medium of claim 18 , in which the maximum depth adjusted according to the sensed amount of the compression force. 20. The medium of claim 17 , in which the force sensing system is configured to generate an output related to the sensed amount of the compression force, and further comprising a memory that is configured to store a force value, the force value encoding the sensed amount of the compression force and generated from the output of the force sensing system, the initial resting height is determined at a first time instant, the updated resting height is determined from the output of the force sensing system at a second time instant