Monitoring system for a low voltage, medium voltage, or high voltage circuit breaker

What is claimed is: 1. A circuit breaker monitoring system, comprising: a vibration sensor; a processing unit; and an output unit; wherein the vibration sensor is configured to be mounted to a circuit breaker and to acquire a temporal vibration signal over at least a temporal portion of a closing operation of the circuit breaker, wherein the closing operation comprises: initiation of the closing operation; latch release; movement of a moveable contact towards a fixed contact; contact touch of the moveable contact with the fixed contact; stop of movement of the moveable contact; wherein the vibration sensor is configured to provide the temporal vibration signal to the processing unit; wherein the processing unit is configured to determine a plurality of physical switch events and corresponding plurality of time points of the plurality of physical switch events over the closing operation of the circuit breaker, wherein the determination comprises analysis of the temporal vibration signal to identify a plurality of changes in the temporal vibration signal that are assigned to the plurality of physical switch events; wherein the processing unit is configured to determine one or more characteristic times associated with the closing operation of the circuit breaker, wherein the determination comprises utilization of the plurality of physical switch events and corresponding plurality of time points; wherein the processing unit is configured to determine an indication of operational functionality of the circuit breaker, wherein the determination comprises utilization of the one or more characteristic times associated with the closing operation of the circuit breaker; and wherein the output unit is configured to output information relating to the indication of operational functionality of the circuit breaker. 2. The circuit breaker monitoring system according to claim 1 , wherein analysis of the temporal vibration signal to identify a plurality of changes in the temporal vibration signal comprises computation of a temporal signal envelope from the temporal vibration signal and wherein identification of the plurality of changes in the temporal vibration signal comprises identification of a plurality of change points in the temporal signal envelope that are assigned to the plurality of physical switch events. 3. The circuit breaker monitoring system according to claim 2 , wherein the processing unit is configured to implement a peak transform, an RMS transform, or a Hilbert transform to compute the temporal signal envelope from the temporal vibration signal. 4. The circuit breaker monitoring system according to claim 2 , wherein the processing unit is configured to implement a change point detection algorithm, a piecewise linear approximation algorithm, a cluster based method, or a state space representation to identify the plurality of change points in the temporal signal envelope that are assigned to the plurality of physical switch events. 5. The circuit breaker monitoring system according to claim 4 , wherein the cluster based method is a Gaussian Mixture Model “GMM”, or a Hidden Markov Model “HMM”; and wherein the state space representation is a Kalman Filter or Likelihood Ratio Method. 6. The circuit breaker monitoring system according to claim 5 , wherein the likelihood ratio method is RuLSIF or CUSUM. 7. The circuit breaker monitoring system according to claim 1 , wherein the physical switch events comprises two or more of: instant of latch release; instant of onset of movement of the moveable contact towards the fixed contact; instant of contact touch of the moveable contact with the fixed contact; instant of stop of movement of the moveable contact. 8. The circuit breaker monitoring system according to claim 2 , wherein computation of the temporal signal envelope from the temporal vibration signal comprises a low pass filtering of the temporal vibration signal. 9. The circuit breaker monitoring system according to claim 2 , wherein identification of a plurality of change points in the temporal signal envelope comprises a high pass filtering of the temporal signal envelope. 10. The circuit breaker monitoring system according to claim 1 , wherein determination of the indication of operational functionality of the circuit breaker comprises a comparison of the one or more characteristic times associated with the closing operation of the circuit breaker with corresponding baseline characteristic times for one or more calibration circuit breakers. 11. The circuit breaker monitoring system according to claim 1 , wherein the vibration sensor is an accelerometer, acoustic “SAW” sensor, microphone, or RFID sensor. 12. A circuit breaker monitoring system, comprising: a vibration sensor; a processing unit; and an output unit; wherein the vibration sensor is configured to be mounted to a circuit breaker; wherein the vibration sensor is configured to acquire a temporal vibration signal over at least a temporal portion of an opening operation of the circuit breaker, wherein the opening operation comprises: initiation of the opening operation; latch release; movement of a moveable contact away from a fixed contact; separation of the moveable contact from the fixed contact; stop of movement of the moveable contact; wherein the vibration sensor is configured to provide the temporal vibration signal to the processing unit; wherein the processing unit is configured to determine a plurality of physical switch events and corresponding plurality of time points of the plurality of physical switch events over the opening operation of the circuit breaker, wherein the determination comprises analysis of the temporal vibration signal to identify a plurality of changes in the temporal vibration signal that are assigned to the plurality of physical switch events; wherein the processing unit is configured to determine one or more characteristic times associated with the opening operation of the circuit breaker, wherein the determination comprises utilization of the plurality of physical switch events and corresponding plurality of time points; wherein the processing unit is configured to determine an indication of operational functionality of the circuit breaker, wherein the determination comprises utilization of the one or more characteristic times associated with the opening operation of the circuit breaker; and wherein the output unit is configured to output information relating to the indication of operational functionality of the circuit breaker. 13. A circuit breaker monitoring method, comprising: providing a vibration sensor mounted onto a circuit breaker; acquiring by the vibration sensor a temporal vibration signal over at least a temporal portion of a closing operation of the circuit breaker, wherein the closing operation comprises: initiation of the closing operation; latch release; movement of a moveable contact towards a fixed contact; contact touch of the moveable contact with the fixed contact; stop of movement of the moveable contact; providing the temporal vibration signal to a processing unit; determining by the processing unit a plurality of physical switch events and corresponding plurality of time points of the plurality of physical switch events over the closing operation of the circuit breaker, wherein the determining comprises analyzing the temporal vibration signal to identify a plurality of changes in the temporal vibration signal that are assigned to the plurality of physical switch events; determining by the processing unit one or more characteristic times associated with the closing operation of the circuit breaker, wherein the determining comp