System for detecting locking pin engagement of an implement

The invention claimed is: 1. A work vehicle comprising: a frame; a lift system including a movable arm secured to the frame; a coupler connected to the movable arm, operable via a hydraulic cylinder, and attachable to a work implement, the coupler movable relative to the movable arm to couple a work implement at first and second attachment points, the coupler including a pin member receivable within the work implement to form the second attachment point, the coupler changed from a first state to a second state if the pin member has translated from a retracted position to an extended position; a first sensor operatively coupled to a portion of the lift system and configured to send a signal representative of a change in pressure of hydraulic fluid associated with the movable arm; a second sensor operatively coupled to the coupler and configured to send a signal representative of a change in state of the coupler; and a monitoring system including a controller configured to receive signals from the first sensor and from the second sensor, determine whether the lift system has changed from a state in which no work implement is supported thereby to a state in which all or a portion of a work implement is supported thereby, determine whether the lift system has changed from a state in which all or a portion of a work implement is supported thereby to a state in which no work implement is supported thereby, and output a signal to an operator of the work vehicle if 1) the coupler has changed from the first state to the second state and 2) the lift system has changed from a state in which no work implement is supported thereby to a state in which all or a portion of a work implement is supported thereby. 2. The work vehicle of claim 1 , further including an acceleration sensor operatively coupled to a portion of the lift system, and wherein the controller is configured to receive a signal from the acceleration sensor. 3. The work vehicle of claim 1 , wherein a work implement includes a work implement in the form of one of a bucket, a fork, a broom, or a blade. 4. A monitoring system for a work vehicle, the work vehicle having a lift system to which an implement is attachable via a connection assembly, the lift system including a movable arm affixed to a frame of the work vehicle and at least one hydraulic cylinder operable to move a portion of the movable arm relative to the frame, the connection assembly including a coupler secured to the movable arm and movable relative thereto to couple the implement at first and second attachment points, the coupler including a pin member receivable within a portion of the implement to form the second attachment point, the monitoring system comprising: a weight detection subsystem operable with the lift system, the weight detection subsystem configured to transfer signals representative of a weight supported by the lift system; a position detection subsystem operable with the connection assembly, the position detection subsystem configured to transfer signals representative of a state of the connection assembly; and a controller in operable communication with the weight detection subsystem and the position detection subsystem, the controller configured to receive signals from the weight detection subsystem and from the position detection subsystem, determine a condition of the connection assembly based on the signals received to determine if the pin member is in an extended state or if the pin member is in a retracted state, and output a signal based at least in part on the determined condition. 5. The monitoring system of claim 4 , wherein the weight detection subsystem includes a pressure sensor associated with the at least one hydraulic cylinder. 6. The monitoring system of claim 4 , wherein the controller configured to determine a condition of the connection assembly based on the signals received includes the controller configured to determine if a weight of an implement is supported by the lift system. 7. The monitoring system of claim 4 , wherein the controller is configured to determine a condition of the connection assembly identified as the detachment of an implement based on a signal received from the weight detection subsystem representative of a change in weight that is less than a stored weight value for the implement. 8. The monitoring system of claim 4 , wherein the implement is one of a bucket, a fork, a blade, or a broom. 9. The monitoring system of claim 4 , wherein the controller configured to output a signal based at least in part on the determined condition means the controller configured to output a signal in response to the pin member in an extended state and a determination by the controller that the lift system has changed from a state in which no implement is supported thereby to a state in which all or a portion of an implement is supported thereby. 10. A non-transitory computer readable medium comprising program instructions for permitting a controller to monitor a work vehicle through stages of attachment of a work implement thereto, the work vehicle including a lift system to which an implement is attachable via a connection assembly, the program instructions when executed causing a processor of the controller to: receive signals from a weight detection subsystem operable with the lift system, the signals representative of a weight supported by the lift system; receive signals from a position detection subsystem operable with the connection assembly, the signals representative of a state of the connection assembly; determine a condition of the connection assembly based on the signals received to determine if a pin member of the connection assembly is in an extended state or in a retracted state; determine whether the lift system has changed from a state in which no work implement is supported thereby to a state in which all or a portion of a work implement is supported thereby; determine whether the lift system has changed from a state in which all or a portion of a work implement is supported thereby to a state in which no work implement is supported thereby; and output a signal based at least in part on two or more of the determinations. 11. The monitoring system of claim 10 , wherein to output a signal based at least in part on two or more of the determinations means to output a signal in response to the pin member in an extended state and a determination that the lift system has changed from a state in which no work implement is supported thereby to a state in which all or a portion of a work implement is supported thereby.