Low power vehicle detection

We claim: 1. A method of operating a parking meter, the method comprising: positioning a meter unit in a housing, wherein the housing comprises a wireless tag storing a unique identification code that corresponds in a database at a central management system to location specific settings, wherein the meter unit comprises a control module, a short-range communications interface, a contactless electronic payment reader, and a wireless transceiver; receiving, by the control module via the short range communications interface, the unique identification code stored in the wireless tag; detecting an object in proximity to the meter unit, the detecting being based on a change in a proximity measurement at the meter unit, performed with a low power proximity sensor; activating a directional sensor in response to detecting the object, wherein the directional sensor draws more power than the proximity sensor; receiving sensor data at the control module from the directional sensor, the received sensor data indicating a predetermined direction to the detected object relative to the meter unit; determining a presence of the object, or lack thereof, in the predetermined direction based on the sensor data; upon a positive determination of the presence of the object, storing an indication of the presence of the object along with a time of the positive determination; and transmitting, by the control module via the wireless transceiver, the unique identification code and payment information received at the contactless electronic payment reader to the central management system. 2. The method as in claim 1 , wherein the proximity sensor comprises a magnetometer coupled to the parking meter and wherein the proximity measurement is indicative of a magnetic field at the meter. 3. The method as in claim 1 , further comprising: determining a confidence level of the presence of the object based on the received sensor data; and subsequent to determining the confidence level, varying an action of the meter based on the confidence level. 4. The method as in claim 1 , wherein detecting the object comprises: comparing the proximity measurement to a baseline measurement, the baseline measurement representing an expected proximity measurement when the object is not present; and positively detecting the object if the proximity measurement differs from the baseline measurement by more than a threshold value. 5. A parking meter comprising: a housing comprising a wireless tag storing a unique identification code that corresponds in a database at a central management system to location specific settings; a meter unit comprising a control module, a short-range communications interface, a contactless electronic payment reader, and a wireless transceiver; a low-power proximity sensor configured to detect an object in proximity to the parking meter based on a proximity measurement, and configured to produce a trigger signal in response to the detection of the object; a directional sensor configured to detect a direction of the object relative to the meter; wherein the directional sensor draws more power than the proximity sensor, wherein the control module is coupled to the proximity sensor and the directional sensor, and wherein the parking meter is configured to: receive, by the control module via the short range communications interface, the unique identification code stored in the wireless tag; receive the trigger signal from the proximity sensor and, in response to receiving the trigger signal, activate the directional sensor; receive sensor data from the directional sensor; determine a presence of an object, or lack thereof, in the predetermined direction based on the directional sensor data; upon a positive determination of the presence of the object, store an indication of the presence of the object along with a time of the positive determination; and transmit, by the control module via the wireless transceiver, the unique identification code and payment information received at the contactless electronic payment reader to the central management system. 6. The parking meter as in claim 5 , wherein the proximity sensor comprises a magnetometer and the proximity measurement comprises an indication of a magnetic field at the meter. 7. The parking meter as in claim 6 , wherein the control module is configured to determine a confidence level based on the received sensor data and vary an action of the meter based on the determined confidence level. 8. The parking meter as in claim 5 , wherein the proximity sensor is configured to detect the object by comparing the proximity measurement to a baseline measurement, the baseline measurement representing an expected proximity measurement when the object is not present, and, if the received proximity measurement differs from the baseline measurement by more than a threshold, positively determining the presence of the object. 9. The method as in claim 1 , wherein the proximity sensor and the directional sensor are located outside the meter unit. 10. The method as in claim 9 , wherein the wireless tag is in wireless communication with the proximity sensor and the directional sensor. 11. The method as in claim 1 , wherein the directional sensor is an ultrasonic sensor that receives data indicating distance of the detected object. 12. The method as in claim 1 , wherein the received sensor data indicates the distance of the detected object from the directional sensor, and wherein the determination of a presence of the object, or lack thereof, is based on said distance. 13. The parking meter as in claim 5 , wherein the proximity sensor and the directional sensor are located outside the meter unit. 14. The parking meter as in claim 13 , wherein the proximity sensor and the directional sensor are configured to wirelessly communicate with the wireless tag. 15. The method as in claim 5 , wherein the directional sensor is an ultrasonic sensor that receives data indicating distance of the object. 16. The parking meter as in claim 5 , wherein the directional sensor is configured to receive data that indicates the distance of the object from the directional sensor, and determine the presence of the object, or lack thereof, based on said distance. 17. The parking meter as in claim 5 , wherein the directional sensor is an active infrared sensor, a passive infrared sensor, an optical sensor or a radar sensor.