Pest control system and method of operating same

The invention claimed is: 1. A pest control device comprising: a capacitive sensor array including a plurality of sensor pads, the capacitive sensor array being configured to generate an electrical output signal indicating the state of each sensor pad, and an electronic controller electrically connected to the capacitive sensor array, the electronic controller including a processor and a memory including a plurality of instructions, which, when executed by the processor, causes the processor to: receive the electrical output signals from the capacitive sensor array, determine a measured capacitance value for each sensor pad based on each electrical output signal, calculate a baseline for each sensor pad based on the measured capacitance value of the sensor pad, determine whether a difference between the measured capacitance value of at least one sensor pad and its corresponding baseline exceeds a first predetermined threshold, update a counter when the first predetermined threshold is exceeded, record a first event indicative of a presence of a pest when the counter exceeds a predetermined limit, and record a second event when the electrical output signals indicate a presence of a human. 2. The pest control device of claim 1 , wherein the plurality of instructions further cause the processor to calculate each baseline using the following equations: A ⁡ ( new ) = A ⁡ ( old ) - A ⁡ ( old ) * ( Kf 2 16 ) + Cmeas Baseline = A ⁡ ( new ) * ( Kf 2 16 ) wherein “Kf” is a parameter stored in a memory device of the electronic controller, “Cmeas” is the measured capacitance value corresponding to the electrical output signal of one sensor pad, and “A(old)” is a variable stored in memory. 3. The pest control device of claim 2 , wherein the electronic controller is configured to receive values of Kf from a remote system. 4. The pest control device of claim 1 , wherein the plurality of instructions further cause the processor to: determine a sequence of sensor pad contacts based on the electrical output signals, compare the sequence of sensor pad contacts to a predetermined sequence, and record the second event when the sequence of sensor pad contacts matches the predetermined sequence. 5. The pest control device of claim 4 , further comprising a first visual indicator electrically connected to the electronic controller, wherein the electronic controller is configured to energize the first visual indicator when the sequence of sensor pad contacts matches the predetermined sequence. 6. The pest control device of claim 5 , further comprising a second visual indicator electrically connected to the electronic controller, wherein the electronic controller is configured to energize the first visual indicator and the second visual indicator when the electrical output signals indicate the presence of the pest. 7. The pest control device of claim 1 , wherein the plurality of instructions further cause the processor to: (i) determine whether the difference between the measured capacitance value of at least one sensor pad exceeds a second predetermined threshold, and (ii) update the counter when the difference is less than the second predetermined threshold. 8. The pest control device of claim 7 , wherein the plurality of instructions further cause the processor to: determine a sequence of sensor pad contacts based on the electrical output signals when the difference is greater than the second predetermined threshold, compare the sequence of sensor pad contacts to a predetermined sequence, and record the second event when the sequence of sensor pad contacts matches the predetermined sequence. 9. The pest control device of claim 1 , further comprising a position sensor operable to generate an electrical output signal indicative of movement of the pest control device. 10. The pest control device of claim 9 , wherein the plurality of instructions cause the processor to: receive the electrical output signal from the position sensor, determine, based on the electrical output signals, whether the pest control device has been in a first position for a predetermined period of time, determine, based on the electrical output signals, a deflection angle of the pest control device when the pest control device has been in the first position for the predetermined period of time, compare the deflection angle of the pest control device to a predetermined angular threshold, and generate an output signal when the deflection angle is greater than the predetermined angular threshold. 11. A method of monitoring for pests, the method comprising: generating an electrical output signal from a capacitive sensor array, receiving the electrical output signal from the capacitive sensor array, determining a measured capacitance value based on the electrical output signal, calculating a baseline for each sensor pad based on the measured capacitance value for the sensor pad, determining whether a difference between the measured capacitance value of at least one sensor pad and its corresponding baseline exceeds a first predetermined threshold, updating a counter when the first predetermined threshold is exceeded, recording a first event indicative of a presence of a pest when the counter exceeds a predetermined limit, and recording a second event when the electrical output signals indicate a presence of a human. 12. The method of claim 11 , wherein calculating baselines for the sensor pads includes using the following equations: A ⁡ ( new ) = A ⁡ ( old ) - A ⁡