Automated cluster remover

What is claimed is: 1. A method, comprising: receiving a displacement signal generated by a sensor, the displacement signal generated by the sensor in response to detecting movement of a piston from a retracted position in a cylinder toward an extended position in the cylinder; generating, in response to receiving the displacement signal, a first valve control signal to be communicated to a first valve located on a first vacuum line connecting a vacuum source to a vacuum port of the cylinder, the first valve control signal causing the first valve to move from a first position in which a vacuum pressure is applied to the cylinder via the vacuum port to a second position in which atmospheric pressure is applied to the cylinder via the vacuum port; and generating, in response to receiving the displacement signal, a second valve control signal to be communicated to a second valve located on a second vacuum line connecting the vacuum source to a cluster control valve, the second valve control signal causing the second valve to move from a second position in which atmospheric pressure is supplied to the second vacuum line to a first position in which a vacuum pressure is supplied to the second vacuum line. 2. The method of claim 1 , wherein: the cluster control valve is located on a milking vacuum line connecting a milking vacuum source to one or more teat cups of a milking cluster; and the vacuum pressure supplied to the second vacuum line causes the cluster control valve to move from a closed position in which a vacuum pressure is not supplied to the one or more teat cups of the milking cluster via the milking vacuum line to an open second position in which a vacuum pressure is supplied to the one or more teat cups of a milking cluster via the milking vacuum line. 3. The method of claim 1 , wherein the vacuum pressure supplied to the second vacuum line causes a pressure relief valve connected to the second vacuum line to move from a closed position in which air is prevented from entering the cylinder via the pressure relief valve to an open position in which air is permitted to enter the cylinder via the pressure relief valve. 4. The method of claim 1 , wherein application of a vacuum pressure to the cylinder results in a vacuum force being applied to the piston, the vacuum force acting toward the retracted position. 5. The method of claim 4 , wherein: the movement of the piston detected by the sensor results from a force being applied to the piston in a direction opposing the vacuum force and with a magnitude greater than the vacuum force; and the force being applied to the piston is a combination of a spring force applied to the piston by a spring member and a pulling force applied to piston via a cord attached to the piston. 6. The method of claim 1 , further comprising: receiving a signal indicating that milking of a dairy livestock is complete; in response to receiving the signal indicating that milking of the dairy livestock is complete: causing the first valve to move from the second position to the first position; and causing the second valve to move from the first position to the second position.