Method and system for switching modes of a robotic system

What is claimed is: 1. A method for switching modes of a robotic system, the method comprising: receiving an indication that a mode change has been initiated; providing a haptic detent on an input device after a delay following the receiving of the indication that the mode change has been initiated, the haptic detent exhibiting an abrupt reduction in a force being applied against the input device immediately before and after the delay; and changing an operating mode of a robotic system after the input device has been manipulated past the haptic detent. 2. The method of claim 1 , further comprising: initiating a counter to count to a delay count upon receiving the indication that the mode change has been initiated; resetting the counter upon receiving an indication that the mode change is not to be initiated; and determining that the delay has occurred after the counter has counted to the delay count. 3. The method of claim 1 , wherein the input device is at a first position at the end of the delay, wherein the haptic detent is followed by a force slope profile which is independent of the first position, and wherein the force slope profile exhibits a parabolic relationship between the force being applied against the input device and a change in position of the input device from the first position. 4. The method of claim 1 , wherein the robotic system has a plurality of modes including a tool following mode and an imaging system mode, the tool following mode being a mode in which the input device is operatively coupled to a tool, the imaging system mode being a mode in which the input device is operatively coupled to an imaging system, the mode change indicating that the robotic system is to change between one of the tool following mode and the imaging system mode to the other of the tool following mode and the imaging system mode. 5. The method of claim 1 , further comprising: using a first order low pass filter having a time constant equal to the delay for determining when the haptic detent is to be provided on the input device. 6. A robotic system comprising: an input device; and a processor programmed to receive an indication that a mode change has been initiated, cause a haptic detent to be provided on the input device after a delay following the receiving of the indication that the mode change has been initiated, the haptic detent exhibiting an abrupt reduction in a force being applied against the input device immediately before and after the delay, and change an operating mode of the robotic system after the input device has been manipulated past the haptic detent. 7. The robotic system of claim 6 , wherein the processor is programmed to initiate a counter to count to a delay count upon receiving the indication that the mode change has been initiated, reset the counter upon receiving an indication that the mode change is not to be initiated, and determine that the delay has occurred after the counter has counted to the delay count. 8. The robotic system of claim 6 , wherein the input device is at a first position at the end of the delay, wherein the haptic detent is followed by a force slope profile which is independent of the first position, and wherein the force slope profile exhibits a parabolic relationship between the force being applied against the input device and a change in position of the input device from the first position. 9. The robotic system of claim 6 , wherein the robotic system has a plurality of modes including a tool following mode and an imaging system mode, the tool following mode being a mode in which the input device is operatively coupled to a tool, the imaging system mode being a mode in which the input device is operatively coupled to an imaging system, the mode change indicating that the robotic system is to change between one of the tool following mode and the imaging system mode to the other of the tool following mode and the imaging system mode. 10. The robotic system of claim 6 , further comprising: a first order low pass filter having a time constant equal to the delay for determining when the haptic detent is to be provided on the input device.