초록 ▼

A wireless sensor for measuring a light intensity is operable to transmit wireless signals using a variable transmission rate that is dependent upon the light intensity in the space. The sensor comprises a photosensitive circuit, a wireless transmitter for transmitting the wireless signals, and a co

A wireless sensor for measuring a light intensity is operable to transmit wireless signals using a variable transmission rate that is dependent upon the light intensity in the space. The sensor comprises a photosensitive circuit, a wireless transmitter for transmitting the wireless signals, and a controller coupled to the photosensitive circuit and the wireless transmitter. The photosensitive circuit is operable to generate a light intensity control signal in response to the light intensity. The controller transmits the wireless signals in response to the light intensity control signal using the variable transmission rate that is dependent upon an amount of change of the light intensity. In addition, the variable transmission rate may be further dependent upon a rate of change of the light intensity. The sensor may further comprise a battery for powering the photosensitive circuit, the wireless transmitter, and the controller.

대표청구항 ▼

1. A wireless sensor comprising: a photosensitive circuit operable to generate a light intensity control signal in response to a light intensity;a wireless transmitter for transmitting wireless signals; anda controller coupled to the photosensitive circuit for periodically sampling the light intensi

1. A wireless sensor comprising: a photosensitive circuit operable to generate a light intensity control signal in response to a light intensity;a wireless transmitter for transmitting wireless signals; anda controller coupled to the photosensitive circuit for periodically sampling the light intensity control signal to generate sampled light intensity values, the controller further coupled to the wireless transmitter for transmitting a wireless signal in response to the light intensity control signal, the wireless signal including a value representative of the light intensity;wherein the controller is configured to analyze the sampled light intensity values to determine an amount of change of the light intensity, the controller configured to transmit the wireless signals using a variable transmission rate that is dependent upon the amount of change of the light intensity. 2. The sensor of claim 1, wherein the controller determines at least one predicted light intensity value and calculates an error between the sampled light intensity values and the at least one predicted light intensity value, the controller operable to transmit the wireless signal if the error is too great. 3. The sensor of claim 2, wherein the controller collects a predetermined number of sampled light intensity values during consecutive non-overlapping time intervals, the controller operable to analyze the sampled light intensity values of each time interval to determine the amount of change of the light intensity. 4. The sensor of claim 3, wherein the controller determines at least one estimator during a previous time interval, and uses the at least one estimator to determine the at least one predicted light intensity value during a present time interval. 5. The sensor of claim 4, wherein the controller calculates multiple predicted light intensity values during the present time interval. 6. The sensor of claim 5, wherein the controller uses a linear prediction model to calculate the multiple predicted light intensity values, the estimators comprising a slope and an offset of a line that best represents the change of the light intensity. 7. The sensor of claim 6, wherein the controller transmits the slope and the offset of the line that best represents the change of the light intensity when the error between the sampled light intensity values and the predicted light intensity values is too great. 8. The sensor of claim 5, wherein the controller uses a parabolic prediction model to calculate the multiple predicted light intensity values, the estimators comprising coefficients of a parabola that best represents the change of the light intensity. 9. The sensor of claim 5, wherein the controller calculates a mean-square error between the predicted light intensity values and the sampled light intensity values, the controller operable to transmit a wireless signal if the mean-square error exceeds a maximum error. 10. The sensor of claim 4, wherein the estimator comprises one of: (1) a minimum sampled light intensity value from the previous time interval; (2) an average value of the sampled light intensity values from the previous time interval; and (3) a median value of the sampled light intensity values from the previous time interval; and wherein the controller is operable to transmit a wireless signal including the estimator if the difference between the estimator and the estimator exceeds a maximum error. 11. The sensor of claim 1, wherein the variable transmission rate is also dependent upon a rate of change of the light intensity whereby the controller does not transmit the wireless signal if the rate of change is outside of predetermined limits. 12. The sensor of claim 1, further comprising: a battery for powering the photosensitive circuit, the wireless transmitter, and the controller. 13. The sensor of claim 1, further comprising: a memory coupled to the controller for storing the sampled light intensity values. 14. A method of transmitting a wireless signal in response to a light intensity, the method comprising: generating a light intensity control signal in response to the light intensity;periodically sampling the light intensity control signal to generate sampled light intensity values;analyzing the sampled light intensity values stored in a memory to determine an amount of change of the light intensity; andtransmitting wireless signals using a variable transmission rate that is dependent upon the amount of change of the light intensity, each digital message including a value representative of the light intensity. 15. The method of claim 14, further comprising: determining at least one predicted light intensity value; andcalculating an error between the sampled light intensity values and the at least one predicted light intensity value;wherein the controller is operable to transmit a wireless signal if the error is too great. 16. The method of claim 15, further comprising: collecting a predetermined number of sampled light intensity values during consecutive non-overlapping time intervals;wherein the step of analyzing further comprises analyzing the sampled light intensity values of each time interval to determine the amount of change of the light intensity. 17. The method of claim 16, further comprising: determining at least one estimator during a previous time interval;wherein the step of determining at least one predicted light intensity value comprises using the at least one estimator to determine multiple predicted light intensity values during a present time interval. 18. The method of claim 17, further comprising: calculating a mean-square error between the predicted light intensity values and the sampled light intensity values;wherein the step of transmitting wireless signals comprises transmitting a wireless signal if the mean-square error exceeds a maximum error. 19. The method of claim 14, wherein the variable transmission rate is also dependent upon a rate of change of the light intensity whereby the controller does not transmit a wireless signal if the rate of change is outside of predetermined limits. 20. The method of claim 14, further comprising: storing sampled light intensity values in a memory after the step of periodically sampling the light intensity control signal.