Standalone capacitance sensor for furniture

What is claimed: 1. A standalone capacitance detection system for integration with a furniture item, the system comprising: one or more light sources; a capacitance detection sensor; and a control component configured for communicative coupling to the one or more light sources and the capacitance detection sensor, wherein the control component: receives a first capacitance indication from the capacitance detection sensor; generates a first lighting command based on the first capacitance indication, wherein the first lighting command initiates a light-on state for the one or more light sources; controls a power supplied to the one or more light sources based on the first lighting command, wherein the power is supplied in a plurality of on intervals during the light-on state; coordinates with the capacitance detection sensor to detect a second capacitance indication during the light-on state, wherein the capacitance detection sensor detects capacitance between the plurality of on intervals of the supplied power; generates a second lighting command based on the second capacitance indication, wherein the second lighting command initiates a light-off state; and controls the stopping of the power supplied to the one or more light sources based on the second lighting command. 2. The system of claim 1 , further comprising a manual control device for receiving a plurality of commands for controlling the one or more light sources. 3. The system of claim 1 , wherein the capacitance detection sensor comprises a capacitance detection pad having a size and a shape suitable for integration with a plurality of types of furniture items. 4. The system of claim 1 , wherein the control component is configured to automatically calibrate by measuring a baseline electric field and setting an occupancy threshold. 5. The system of claim 1 , wherein the first capacitance indication corresponds to a capacitance measurement that indicates that occupancy has been detected and the second capacitance indication corresponds to a measurement that indicates that occupancy has not been detected. 6. The system of claim 1 , further comprising a power source that provides power to the one or more light sources. 7. A method of controlling a standalone capacitance detection system associated with a furniture item, the method comprising: controlling power to one or more light sources communicatively coupled to a control component; receiving one or more capacitance indications from a capacitance detection sensor communicatively coupled to the control component; receiving, at a control component, a first capacitance indication from the capacitance detection sensor; generating, by a control component, a first lighting command based on the first capacitance indication, wherein the first lighting command initiates a light-on state; controlling, by a control component, the power supplied to the one or more light sources, wherein the power is supplied in a plurality of on intervals during the light-on state; coordinating, by a control component, with the capacitance detection sensor to detect a second capacitance indication during the light-on state, wherein the capacitance detection sensor detects capacitance between the plurality of on intervals of supplied power; generating, by a control component, a second lighting command based on the second capacitance indication, wherein the second lighting command initiates a light-off state; and controlling, by a control component, the stopping of the power supplied to the one or more light sources based on the second lighting command. 8. The method of claim 7 , further comprising receiving, from a manual control device, a plurality of commands for controlling the one or more light sources. 9. The method of claim 7 , wherein the capacitance detection sensor comprises a capacitance detection pad having a size and a shape suitable for integration with a plurality of types of furniture items. 10. The method of claim 7 , further comprising automatically calibrating an occupancy threshold by measuring a baseline electric field. 11. The method of claim 7 , wherein the first capacitance indication corresponds to a capacitance measurement that indicates that occupancy has been detected and the second capacitance indication corresponds to a measurement that indicates that occupancy has not been detected. 12. A method of manufacturing a standalone capacitance detection system, the method comprising: communicatively coupling one or more light sources to a control component; communicatively coupling a capacitance detection sensor to the control component; wherein the control component communicatively coupled to the one or more light sources and the standalone capacitance detection device is configured to: receive a first capacitance indication from the capacitance detection sensor; generate a first lighting command based on the first capacitance indication, wherein the first lighting command initiates a light-on state for the one or more light sources; control a power supplied to the one or more light sources based on the first lighting command, wherein the power is supplied in a plurality of on intervals during the light-on state; coordinate with the capacitance detection sensor to detect a second capacitance indication during the light-on state, wherein the capacitance detection sensor detects capacitance between the plurality of on intervals of the supplied power; generate a second lighting command based on the second capacitance indication, wherein the second lighting command initiates a light-off state; and control the stopping of the power supplied to the one or more light sources based on the second lighting command. 13. The method of claim 12 , further comprising configuring a manual control device to receive a plurality of commands for controlling the light source. 14. The method of claim 12 , wherein the capacitance detection feature comprises a capacitance sensor that integrates with a plurality of types of furniture items. 15. The method of claim 12 , wherein the control component is configured to automatically calibrate an occupancy threshold by measuring a baseline electric field. 16. The method of claim 12 , wherein the first capacitance data corresponds to a capacitance measurement that indicates that occupancy has been detected and the second capacitance data corresponds to a measurement that indicates that occupancy has not been detected. 17. The method of claim 12 , further comprising configuring a power source to provide power to the one or more light sources.