Abstract: A system and method are provided for scheduling the emptying or replacement of a waste container based on the fullness of the container or the usage of the container. These factors may be considered to determine when the waste container will become completely full. Additionally, the system and method may consider the customer preferences or the limitations of the waste hauler. All of these factors may be considered to determine an optimal time for the waste container to be emptied or replaced. These factors are also considered to determine when to accomplish the scheduling (i.e. when to notify the waste hauler that the waste container should be emptied or replaced at a given time).

Abstract: An apparatus, a method, and a system are provided for measuring and reporting the weight of bales in a baler. The weight may be determined by a variety of methods. The system may display or store the weight of the bale in the baler. The system may schedule the removal of bales or track the number of bales produced, weight of the bales produced, or value of the bales produced. The system may determine an appropriate time to accomplish the scheduling of the removal of the bales.

Abstract: An automated trash management system for remotely measuring the fullness of a plurality of trash containers is disclosed. Each container is provided with a remote sensing unit for generating a signal proportional to a characteristic of the container by which the extent of fullness of the container may be determined. A transmission linkage, typically a telephone line, is provided from each remote sensing unit to a central unit, where a data base of the signals transmitted from a particular trash container may be stored and analyzed. A hauler is called from the central unit location by a user after a determination from the data base that a particular trash container is in a condition of fullness warranting emptying.

Abstract: An automated trash management system for remotely measuring the fullness of a plurality of trash containers is disclosed. Each container is provided with a remote sensing unit for generating a signal proportional to a characteristic of the container by which the extent of fullness of the container may be determined. A transmission linkage, typically a telephone line, is provided from each remote sensing unit to a central unit, where a data base of the signals transmitted from a particular trash container may be stored and analyzed. A hauler is called from the central unit location by a user after a determination from the data base that a particular trash container is in a condition of fullness warranting emptying.

Abstract: An automated trash management system for measuring the fullness of a plurality of trash containers, each trash container associated with a packing system having a compression member for engaging and compacting the trash in the container and, optionally having a limit switch activated by the compression member when the compression member is fully extended for controlling the movement of the compression member by the packing system.