Wireless sensor system with dynamic heartbeat message rate

What is claimed is: 1. A wireless sensor system comprising a wireless sensor node, the wireless sensor node comprising: a sensor interface that interfaces with sensing circuitry; a wireless interface to communicate with a wireless access point; at least one processor; and memory having instructions stored thereon that, when executed by the at least one processor, cause the wireless sensor node to: set a heartbeat message rate of the wireless sensor node to a first heartbeat message rate; send heartbeat messages periodically on the wireless interface to the wireless access point at the first heartbeat message rate; acquire sensor data through the sensor interface, the sensor data being stored in a data buffer; increase the heartbeat message rate to a second heartbeat message rate based on a determination that the data buffer is full; transmit the sensor data in one or more heartbeat messages on the wireless interface to the wireless access point at the second heartbeat message rate until all of the sensor data have been transmitted; and lower the heartbeat message rate back to the first heartbeat message rate based on a determination that all of the sensor data in the data buffer have been transmitted, wherein the heartbeat messages sent at the first heartbeat message rate comprise status information and the one or more heartbeat messages sent at the second heartbeat message rate comprise the status information and the sensor data. 2. The wireless sensor system of claim 1 , wherein the heartbeat messages sent at the first heartbeat message rate comprise status information and the one or more heartbeat messages sent at the second heartbeat message rate comprise the status information and the sensor data. 3. The wireless sensor system of claim 2 , wherein the status information comprises a status of a power supply of the wireless sensor node. 4. The wireless sensor system of claim 3 , wherein the wireless sensor node reduces the second heartbeat message rate based on a determination that a power level of the power supply is below a low power operation threshold. 5. The wireless sensor system of claim 1 , further comprising a second wireless sensor node, wherein the second wireless sensor node transmits sensor data at a third heartbeat message rate that is greater than the first heartbeat message rate. 6. The wireless sensor system of claim 5 , wherein the first heartbeat message rate, the second heartbeat message rate, and the third heartbeat message rate are configurable by a server operably coupled to the wireless access point. 7. The wireless sensor system of claim 5 , wherein the wireless sensor node interfaces with a first type of the sensing circuitry and the second wireless sensor node interfaces with a second type of the sensing circuitry that has a different sampling rate than the first type of the sensing circuitry. 8. The wireless sensor system of claim 1 , wherein the wireless sensor node monitors a communication error rate with respect to the wireless access point and reduces the second heartbeat message rate based on detection of an increased communication error rate. 9. The wireless sensor system of claim 1 , wherein the wireless sensor node is configurable to communicate with the wireless access point at a rate greater than the first heartbeat message rate for wireless sensor node firmware update transmissions. 10. A method of dynamic heartbeat message rate adjustment in a wireless sensor system, the method comprising: setting a heartbeat message rate of a wireless sensor node to a first heartbeat message rate; sending heartbeat messages periodically from the wireless sensor node to a wireless access point at the first heartbeat message rate; acquiring sensor data at the wireless sensor node, the sensor data being stored in a data buffer; increasing the heartbeat message rate to a second heartbeat message rate based on determining that the data buffer is full; transmitting the sensor data in one or more heartbeat messages from the wireless sensor node to the wireless access point at the second heartbeat message rate until all of the sensor data have been transmitted; and lowering the heartbeat message rate back to the first heartbeat message rate based on a determination that all of the sensor data in the data buffer have been transmitted. 11. The method of claim 10 , wherein the heartbeat messages sent at the first heartbeat message rate comprise status information and the one or more heartbeat messages sent at the second heartbeat message rate comprise the status information and the sensor data. 12. The method of claim 11 , wherein the wireless sensor node reduces the second heartbeat message rate based on a determination that a power level of the power supply is below a low power operation threshold. 13. The method of claim 10 , further comprising: transmitting sensor data from a second wireless sensor node to the wireless access point at a third heartbeat message rate that is greater than the first heartbeat message rate, wherein the first heartbeat message rate, the second heartbeat message rate, and the third heartbeat message rate are configurable by a server operably coupled to the wireless access point. 14. The method of claim 13 , wherein the wireless sensor node interfaces with a first type of sensing circuitry and the second wireless sensor node interfaces with a second type of sensing circuitry that has a different sampling rate than the first type of sensing circuitry. 15. The method of claim 10 , further comprising: monitoring a communication error rate with respect to the wireless access point; and reducing the second heartbeat message rate based on detecting an increased communication error rate. 16. The method of claim 10 , further comprising: resuming sending the heartbeat messages periodically from the wireless sensor node to the wireless access point at the first heartbeat message rate subsequent to the heartbeat message rate being lowered back to the first heartbeat message rate.