Air filtration monitoring system with learning features

The invention claimed is: 1 . A monitoring system for an air filtration system comprising: a control circuit; and a pressure sensor, wherein the pressure sensor is in electronic communication with the control circuit; wherein the monitoring system is configured to store data reflecting signals of the pressure sensor from a first time period, wherein the stored data representing the first time period comprises a first series of valve pulses; extract a first signal feature from the stored data representing the first time period; store data reflecting signals of the pressure sensor from a second time period after the first time period, wherein the data from the pressure sensor obtained after the first time period comprises a second series of valve pulses; extract a second signal feature from the stored data representing the second time period; and compare the second signal feature with the first signal feature to identify an abnormal valve event. 2 . The monitoring system of claim 1 , wherein the monitoring system does not receive electrical signals from a control system of the air filtration system regarding a control signal to open valves. 3 . The monitoring system of claim 1 , wherein the monitoring system is configured to send a notification if an abnormal valve event is identified. 4 . The monitoring system of claim 1 , wherein the pressure sensor is configured to measure pressure in the air filtration system in a compressed air manifold. 5 . The monitoring system of claim 1 , the pressure sensor comprising an array of pressure sensors. 6 . The monitoring system of claim 1 , the abnormal valve event comprising at least one of an abnormal valve opening event, an abnormal valve closing event, and an omitted valve opening event. 7 . The monitoring system of claim 1 , further comprising a microphone; wherein the monitoring system is configured to use data from the microphone in combination with the data from the pressure sensor to identify the abnormal valve event. 8 . A monitoring system for an air filtration system comprising: a control circuit; and a pressure sensor, wherein the pressure sensor is in electronic communication with the control circuit; wherein the monitoring system is configured to operate in a first mode; record signals of the pressure sensor while operating in the first mode over a first time period, wherein the recorded signals of the pressure sensor while operating in the first mode over the first time period comprise a first series of valve pulses; generate one or more signal templates representing different operational states of a filtration system by processing the recorded signals of the pressure sensor while operating in the first mode over the first time period; operate in a second mode; record signals of the pressure sensor while operating in the second mode over a second time period that is after the first time period, wherein the recorded signals of the pressure sensor while operating in the second mode over the second time period comprise a second series of valve pulses; and compare the signals of the pressure sensor obtained at the second time period against the one or more signal templates while operating in the second mode. 9 . The monitoring system of claim 8 , wherein the monitoring system is configured to generate one or more signal templates representing different operational states of a filtration system valve by processing the recorded signals of the pressure sensor while operating in the first mode over the first time period. 10 . The monitoring system of claim 8 , wherein the monitoring system is configured to detect an abnormal valve event by matching signals of the second time period with a signal template. 11 . The monitoring system of claim 8 , wherein the monitoring system is configured to detect a valve failure event by matching signals of the second time period with a signal template. 12 . The monitoring system of claim 8 , further comprising a microphone; wherein the monitoring system is configured to use data from the microphone in combination with the data from the pressure sensor to generate the one or more signal templates and compare signals of the pressure sensor along with the microphone obtained after the first time period against the one or more signal templates while operating in the second mode. 13 . The monitoring system of claim 1 , the first signal feature and the second signal feature comprising one of pulse width time(s), pulse timing variability, pulse magnitude(s), pulse magnitude variability, maximum pressure vs. time slope value(s), and minimum pressure vs. time slope value(s). 14 . The monitoring system of claim 1 , wherein the monitoring system is configured to correlate the second series of valve pulses to the first series of valve pulses and identify one or more missed valve pulses in the second series of valve pulses. 15 . The monitoring system of claim 1 , wherein the monitoring system is configured to diagnose one or more of faulty valves or a dust collector timing board misconfiguration based on the one or more missed valve pulses in the second series of valve pulses.