Seatbelt and child seat anchor based occupancy detection system

What is claimed is: 1. A system for detecting the presence of an occupant in a child seat intended to be placed in a seat of a vehicle, the system comprising: a first sensor module and second sensor module positioned to detect acceleration of the child seat; and wherein the child seat is secured to an anchor mounted to the vehicle by a strap directly connected to the anchor; and wherein the child seat, the strap, and the anchor are mechanically linked such that the acceleration of the child seat is transferred to the strap, the first sensor module includes an accelerometer that detects a measure of the force in the strap as a representative measure of the acceleration of the child seat, and wherein the measure of force in the strap is taken at the anchor; signals representative of the acceleration of the child seat detected at the first and second sensor modules are provided to a controller; and the controller includes signal processing circuitry for processing the signals representative of the acceleration of the child seat to classify patterns of human physiological motion in response to determination that the signals representative of the acceleration of the child seat corresponds to non-uniform acceleration. 2. The system of claim 1 , wherein the accelerometer is mounted to the anchor. 3. The system of claim 1 , wherein the signal processing circuitry is configured to process the signals received from the first sensor module and the second sensor module in order to detect the respiration of the occupant. 4. The system of claim 1 , wherein the signal processing circuitry is configured to process the signals received from the first sensor module and the second sensor module in order to detect a specific movement of the occupant. 5. The system of claim 4 , wherein the specific movement includes yawning. 6. A system for detecting the presence of an occupant in a child seat intended to be placed in a seat of a vehicle, the system comprising: a first sensor module and a second sensor module positioned to detect acceleration of the child seat; and wherein the first sensor module is a tri-axial accelerometer; the first sensor module and the second sensor module are located on anchors that are connected to the vehicle; the child cheat is connected to the anchors to secure the child seat to the vehicle by a strap directly connected to the anchor; wherein the child seat, the strap, and the anchor are mechanically linked such that the acceleration of the child seat is transferred to the strap, the first sensor module detects a measure of force in the strap as a representative measure of the acceleration of the child seat, and wherein the measure of force in the strap is taken at the anchor; signals representative of the acceleration of the child seat detected at the first sensor module and the second sensor module are provided to a controller; the controller processes the signals representative of the acceleration of the child seat received from the sensor modules to isolate acceleration of the child seat from the motion of the vehicle; the controller is configured to determine a presence of the occupant and classify patterns of human physiological motion of the occupant based on the signals representative of the acceleration of the child seat received from the first sensor module and the second sensor module and based on the determination that the signals representative of the acceleration of the child seat corresponds to non-uniform acceleration. 7. The system of claim 6 , further comprising a third sensor module positioned to detect acceleration of the child seat. 8. The system of claim 7 , wherein the second sensor module and the third sensor module are tri-axial accelerometers. 9. The system of claim 7 , wherein the controller is configured to process the signals received from the third sensor module, and classifies a specific movement of the occupant causing a corresponding motion of the child seat. 10. The system of claim 6 , wherein the controller is configured to receive input related to the state of the vehicle; and the controller is configured to provide a specific output based on both the state of the vehicle and the determined presence of the occupant in the child seat. 11. The system of claim 10 , wherein the controller is configured to provide a warning signal if the child seat is occupied and the temperature in the vehicle exceeds a predetermined set point. 12. The system of claim 10 , wherein the controller is configured to provide a warning signal if the child seat is occupied and the vehicle is locked with driver and passenger seats unoccupied. 13. A system for detecting the presence of an occupant in a child seat intended to be placed in a seat of a vehicle, the system comprising: a first sensor module and a second sensor module positioned to detect acceleration of the child seat; wherein the child seat is secured to an anchor mounted to the vehicle by a strap; the first sensor module includes an accelerometer mounted to the anchor that detects a measure of the force in the strap as a representative measure of the acceleration of the child seat; signals representative of the acceleration of the car seat detected at the first and second sensor modules are provided to a controller; and the controller includes signal processing circuitry for processing the signals in order to classify patterns of human physiological motion in response to determination that the signals representative of the acceleration of the child seat corresponds to non-uniform acceleration; the controller configured to receive input related to the state of the vehicle; and the controller is configured to provide a specific output based on both the state of the vehicle and the determined presence of the occupant in the child seat; wherein the controller is configured to provide a warning signal if the child seat is occupied and the vehicle is locked with the driver and passenger seats unoccupied.