Abstract: A repellent assembly has a light socket connector, a heating receptacle that selectively connects to a replaceable repellent pod that is selectively heated to disperse repellent from the repellent pod, and a remote controlled switch interposing the light socket connector and the heating receptacle to power the heating receptacle on and off.

Abstract: A system includes a first power cord and at least one heated repellant dispersal unit electrically connected to the first power cord that increases an evaporation rate of a repellant within the heated repellant dispersal unit.

Abstract: A system includes a first power cord and at least one heated repellant dispersal unit electrically connected to the first power cord that increases an evaporation rate of a repellant within the heated repellant dispersal unit.

Abstract: A system includes a first power cord and at least one heated repellant dispersal unit electrically connected to the first power cord that increases an evaporation rate of a repellant within the heated repellant dispersal unit.

Abstract: At least one light socket is electrically connected to a power cord and at least one heated repellant dispersal unit is electrically connected to the power cord and increases an evaporation rate of a repellant drawn by a wick from a fluid pod affixed to the heated repellant dispersal unit.

Abstract: At least one light socket is electrically connected to a power cord and at least one heated repellant dispersal unit is electrically connected to the power cord and increases an evaporation rate of a repellant drawn by a wick from a fluid pod affixed to the heated repellant dispersal unit.

Abstract: A central vacuum system for collecting debris can include an autonomous vacuum system and a central vacuum fluidly connected to a remote intake port, the central vacuum being operable to generate a central airflow into the remote intake port. The autonomous vacuum system can comprise a collection bin fluidly connected to a debris intake and further include an onboard vacuum operable to generate a suction airflow from the debris intake into the collection bin to the onboard vacuum to draw debris through the debris intake into the collection bin. The autonomous vacuum system can further comprise an output connector fluidly connected to the collection bin. The output connector can be coupled to a remote intake port fluidly connected to a central vacuum operable to generate a central airflow to draw debris from the collection bin into the remote intake port positioned in the remote space.