Abstract: A method for determining an N+1-dimensional environmental model is provided. According to the method, environmental information in N dimensions is determined using a sensor. In a further step, position and/or orientation of the sensor is/are determined. Then, the N+1-dimensional environmental model is determined based on the determined environmental information in N dimensions and the determined position and/or orientation of the sensor. Further, a device and a mining apparatus are provided.

Abstract: A system for an excavating machine includes a control system comprising a processing system, one or more sensors, a user interface, and a vision system, wherein the control system receives input signals from the user interface, the one or more sensors, and the vision system; and a motor in communication with the control system and the motor adapted to control movement of a portion of the excavating machine. The processing system can control operation of the motor.

Abstract: A system for an excavating machine comprises a control system operating aspects of the excavation machine; and a monitoring system receiving inputs from one or more sensors determining if the excavating machine is in a first state or a second state. In operation, if the excavating machine is in the first state, then the control system enables the excavating machine to perform a first action; or if the excavating machine is in the second state, then the control system disable the excavating machine to perform the first action.

Abstract: A system for an excavating machine comprises a control system operating aspects of the excavation machine; and a monitoring system receiving inputs from one or more sensors determining if the excavating machine is in a first state or a second state. In operation, if the excavating machine is in the first state, then the control system enables the excavating machine to perform a first action; or if the excavating machine is in the second state, then the control system disable the excavating machine to perform the first action.

Abstract: A system for an excavating machine includes a control system comprising a processing system, one or more sensors, a user interface, and a vision system, wherein the control system receives input signals from the user interface, the one or more sensors, and the vision system; and a motor in communication with the control system and the motor adapted to control movement of a portion of the excavating machine. The processing system can control operation of the motor.

Abstract: A method for determining an N+1—dimensional environmental model is provided. According to the method, environmental information in N dimensions is determined using a sensor. In a further step, position and/or orientation of the sensor is/are determined. Then, the N+1—dimensional environmental model is determined based on the determined environmental information in N dimensions and the determined position and/or orientation of the sensor. Further, a device and a mining apparatus are provided.

Abstract: Provided is a method in which an excavation surface is scanned, the excavation surface shape is determined based on scanned excavation surface, an excavating path is identified from a mining excavation equipment, a volume of a material excavated by the mining excavation equipment is actively calculated based at least on the excavation surface shape and the excavating path of the mining excavating equipment, and a weight of the material excavated by the mining excavating equipment is actively calculated based on at least one density factor.

Abstract: Provided is a method and a system for preemptively determining a load weight for mining excavation equipment. Specifically, provided is a method in which an excavation surface is scanned to generate an excavation surface profile, an excavation plan is selected for the excavation surface profile, the excavation plan for the excavation surface profile is executed on the excavation surface utilizing a pre-emptive load weighing algorithm based on a plurality of drive signals of the mining excavation equipment, and a volume of a material to be excavated by the mining excavation equipment is determined based at least on the plurality of drive signals, the plurality of derivatives of drive signals, and the excavation surface profile.

Abstract: Provided is a method and a system for preemptively determining a load weight for mining excavation equipment. Specifically, provided is a method in which an excavation surface is scanned to generate an excavation surface profile, an excavation plan is selected for the excavation surface profile, the excavation plan for the excavation surface profile is executed on the excavation surface utilizing a pre-emptive load weighing algorithm based on a plurality of drive signals of the mining excavation equipment, and a volume of a material to be excavated by the mining excavation equipment is determined based at least on the plurality of drive signals, the plurality of derivatives of drive signals, and the excavation surface profile.