Waste detection

What is claimed is: 1 . A system for waste object detection, comprising: a waste alert component comprising: an ultraviolet light source configured to emit ultraviolet light towards a waste detection zone; a light detection component configured to: measure light intensity of light impinging on the light detection component; and a waste identification component configured to: obtain an initial light intensity measurement from the light detection component while the ultraviolet light source is turned off; obtain a light intensity measurement from the light detection component while the ultraviolet light source is turned on; determine a light intensity change based upon the initial light intensity measurement and the light intensity measurement; and responsive to the light intensity change exceeding a detection threshold, provide a waste detection alert that a waste object exists within the waste detection zone. 2 . The system of claim 1 , the waste identification component configured to: evaluate the initial light intensity measurement to determine whether an ambient light source is on or off; and normalize the detection threshold based upon whether the ambient light source is on or off. 3 . The system of claim 1 , the waste identification component configured to: determine the detection threshold based upon at least one of an ultraviolet light intensity of the ultraviolet light or a fluoresce effect of a type of waste object to be detected. 4 . The system of claim 1 , the waste identification component configured to: determine the detection threshold based upon a sensitivity adjustment parameter. 5 . The system of claim 1 , comprising: a visible light filter, positioned between the ultraviolet light source and the waste detection zone, configured to: filter visible light emitted from the ultraviolet light source. 6 . The system of claim 1 , comprising: responsive to the light intensity change not exceeding the detection threshold, determine that the waste detection zone is clear of waste objects. 7 . The system of claim 1 , the waste identification component configured to: calibrate the detection threshold based upon a surface type of a surface within the waste detection zone, comprising: receiving a notification that the surface is clear of waste objects; obtaining a first calibration light intensity measurement from the light detection component while the ultraviolet light source is turned off; obtaining a second calibration light intensity measurement from the light detection component while the ultraviolet light source is turned on; and calibrating the detection threshold based upon the first calibration light intensity measurement and the second calibration light intensity measurement. 8 . The system of claim 1 , first calibration light intensity measurement and the second calibration light intensity measurement obtained when an ambient light source is off, and the waste identification component configured to: obtain a third calibration light intensity measurement from the light detection component while the ultraviolet light source is turned off and the ambient light source is on; obtain a fourth calibration light intensity measurement from the light detection component while the ultraviolet light source is turned on and the ambient light source is on; and calibrate the detection threshold based upon the third calibration light intensity measurement and the fourth calibration light intensity measurement. 9 . The system of claim 1 , the waste identification component configured to: perform a sequence of detection cycles, a first detection cycle comprising the initial light intensity measurement and the light intensity measurement; and responsive to a threshold number of light intensity changes exceeding the detection threshold during the sequence of detection cycles, provide the waste detection alert, otherwise, refrain from providing the waste detection alert. 10 . The system of claim 1 , the light intensity measurement corresponding to visible light fluoresced from the waste object based upon the ultraviolet light. 11 . The system of claim 1 , the waste detection zone corresponding to at least one of a surface of a bathroom countertop or a floor of a bathroom. 12 . The system of claim 1 , comprising: an ultraviolet light filter, positioned between the light detection component and the waste detection zone, configured to: filter ultraviolet light from reaching the light detection component. 13 . The system of claim 1 , the waste detection zone corresponding to at least one of a substantially circular shape or a substantially semi-circular shape. 14 . The system of claim 1 , the waste identification component configured to: send the waste detection alert to a user through at least one of an email, a text message, a radio frequency identification (RFID) signal, a wireless signal, an audible alert, a visible alert, or a mobile device alert. 15 . The system of claim 1 , the waste identification component configured to: display the waste detection alert within a map interface depicting a building within which the waste alert component is located. 16 . A method for waste object detection, comprising: obtaining an initial light intensity measurement from a light detection component while an ultraviolet light source is turned off; obtaining a light intensity measurement from the light detection component while the ultraviolet light source is turned on to emit ultraviolet light towards a waste detection zone; determining a light intensity change based upon the initial light intensity measurement and the light intensity measurement; and responsive to the light intensity change exceeding a detection threshold, providing a waste detection alert that a waste object exists within the waste detection zone. 17 . The method of claim 16 , comprising: calibrating the detection threshold based upon a surface type of a surface within the waste detection zone, the calibrating comprising: receiving a notification that the surface is clear of waste objects; obtaining a first calibration light intensity measurement from the light detection component while the ultraviolet light source is turned off; obtaining a second calibration light intensity measurement from the light detection component while the ultraviolet light source is turned on; and calibrating the detection threshold based upon the first calibration light intensity measurement and the second calibration light intensity measurement. 18 . The method of claim 17 , first calibration light intensity measurement and the second calibration light intensity measurement obtained when an ambient light source is off, and the calibrating the detection threshold based upon a surface type comprising: obtaining a third calibration light intensity measurement from the light detection component while the ultraviolet light source is turned off and the ambient light source is on; obtaining a fourth calibration light intensity measurement from the light detection component while the ultraviolet light source is turned on and the ambient light source is on; and calibrating the detection threshold based upon the third calibration light intensity measurement and the fourth calibration light intensity measurement. 19 . The method of claim 16 , comprising: performing a sequence of detection cycles, a first detection cycle comprising the initial light intensity measurement and the light intensity measurement;