Dynamic pathlight brightness based on size and distance of motion/object approaching the device

The invention claimed is: 1. A path light device, comprising: a passive infrared sensor in a smart home environment, the passive infrared sensor configured to provide a sensor signal to detect information about a user location and direction along a path in the smart home environment including a plurality of pathlights, wherein the path is one of a plurality of paths defined by the plurality of pathlights within the smart home environment; at least one pathlight of the plurality of pathlights in the smart home environment; and a first processor communicatively coupled to the passive infrared sensor and the at least one pathlight, the first processor configured to control the at least one pathlight to provide an illumination level, to compute a feature vector in response to the detected information about the user location and direction within the smart home environment, and to calculate, using a classification algorithm, what the feature vector most closely matches when compared to items in a reference dictionary to determine the user location and direction. 2. The path light device of claim 1 , further comprising a second processor communicatively coupled to the first processor, wherein the first processor is configured to execute a first portion of the classification algorithm and the second processor is configured to execute a second portion of the classification algorithm. 3. The path light device of claim 1 , further comprising: an ambient light sensor, the ambient light sensor configured to detect an ambient light level, wherein the first processor is communicatively coupled to the ambient light sensor and the at least one pathlight, the first processor configured to further control the at least one pathlight to provide an illumination level in response to both the determined user location and direction, and the detected ambient light level. 4. The path light device of claim 1 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to an installation configuration of the at least one pathlight. 5. The path light device of claim 1 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to a desired energy consumption level. 6. The path light device of claim 1 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to an elapsed time since a bright light was detected. 7. The path light device of claim 1 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to a detected electrical power failure. 8. The path light device of claim 1 , wherein the path light device is portable, and is configured to function as a flashlight. 9. The path light device of claim 1 , wherein the reference dictionary comprises possible shapes occurring in different parts of a field of view of the passive infrared sensor. 10. The path light device of claim 2 , wherein the first processor comprises a less capable processor and the second processor comprises a more capable processor, and wherein the first portion is distributed for processing by the first processor and the second portion of the classification algorithm is distributed for processing by the second processor based on a decision tree. 11. A path light device, comprising: a sensor, the sensor in a smart home environment configured to provide a sensor signal to detect information about at least one of a user location, direction, or ambient light level along a path in the smart home environment including a plurality of pathlights, wherein the path is one of a plurality of paths defined by the plurality of pathlights within the smart home environment; at least one pathlight of the plurality of pathlights in the smart home environment; a first processor communicatively coupled to the sensor and the at least one pathlight; and a second processor communicatively coupled to the first processor, the first processor configured to control the at least one pathlight to provide an illumination level, to compute a feature vector in response to the sensor signal, and to calculate, using a classification algorithm, what the feature vector most closely matches when compared to items in a reference dictionary to determine at least one of the user location or direction, wherein the first processor is configured to execute a first portion of the classification algorithm and the second processor is configured to execute a second portion of the classification algorithm. 12. The path light device of claim 11 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to a detected ambient light level. 13. The path light device of claim 11 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to an installation configuration of the at least one pathlight. 14. The path light device of claim 11 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to a desired energy consumption level. 15. The path light device of claim 11 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to an elapsed time since a bright light was detected. 16. The path light device of claim 11 , wherein the first processor is configured to further control the at least one pathlight to provide an illumination level in response to a detected electrical power failure. 17. The path light device of claim 11 , wherein the path light device is portable, and is configured to function as a flashlight. 18. The path light device of claim 11 , wherein the reference dictionary comprises possible shapes occurring in different parts of a field of view of the passive infrared sensor. 19. The path light device of claim 11 , wherein the first processor comprises a less capable processor and the second processor comprises a more capable processor, and wherein the first portion is distributed for processing by the first processor and the second portion of the classification algorithm is distributed for processing by the second processor based on a decision tree. 20. A path light device, comprising: a sensor in a smart home environment, the sensor configured to provide a sensor signal to detect information about at least one of a user location, direction, or ambient light level along a path in the smart home environment including a plurality of pathlights, wherein the path is one of a plurality of paths defined by the plurality of pathlights within the smart home environment; at least one pathlight of the plurality of pathlights in the smart home environment; and a processor communicatively coupled to the sensor and the at least one pathlight, the processor configured to control the at least one pathlight to provide an illumination level, to compute a feature vector in response to the sensor signal, and to calculate, using a classification algorithm, what the feature vector most closely matches when compared to items in a reference dictionary to determine at least one of the user location or direction. 21. The path light device of claim 20 , wherein the processor is configured to further control the at least