A wagon includes a communication part configured to communicate with other device, an electric motor configured to generate a traveling driving force, a battery configured to supply electric power to the electric motor, a position sensor configured to acquire position information indicating a position of a host wagon, an attitude detection unit configured to acquire inclination information indicating a tilt of the host wagon, and a controller configured to transmit the position information and the inclination information, which were acquired in a same region, to other device via the communication part while associating the position information and the inclination information.

A wagon includes a communication part configured to communicate with other device, an electric motor configured to generate a traveling driving force, a battery configured to supply electric power to the electric motor, a position sensor configured to acquire position information indicating a position of a host wagon, an attitude detection unit configured to acquire inclination information indicating a tilt of the host wagon, and a controller configured to transmit the position information and the inclination information, which were acquired in a same region, to other device via the communication part while associating the position information and the inclination information.

A construction machine includes: an engine driving at least one hydraulic pump configured to supply operating oil to a hydraulic actuator; an exhaust adjustment mechanism adjusting a flow rate of exhaust from the engine; and a control device controlling the exhaust adjustment mechanism. The control device determines whether or not a first downhill traveling condition and/or a second downhill traveling condition are/is satisfied. When at least one of the first downhill traveling condition and the second downhill traveling condition is satisfied, the control device controls the exhaust adjustment mechanism such that the exhaust adjustment mechanism executes exhaust brake.

A construction machine includes: an engine driving at least one hydraulic pump configured to supply operating oil to a hydraulic actuator; an exhaust adjustment mechanism adjusting a flow rate of exhaust from the engine; and a control device controlling the exhaust adjustment mechanism. The control device determines whether or not a first downhill traveling condition and/or a second downhill traveling condition are/is satisfied. When at least one of the first downhill traveling condition and the second downhill traveling condition is satisfied, the control device controls the exhaust adjustment mechanism such that the exhaust adjustment mechanism executes exhaust brake.

A drive unit and a drive assembly and a motor vehicle. The drive unit includes a first electric machine and a second electric machine and an output shaft, wherein a rotor of the second electric machine is connected to the output shaft for conjoint rotation. The drive unit further includes a disconnect clutch by which a rotor of the first electric machine can be connected to the output shaft. The drive unit further includes power electronics for controlling at least one of the two electric machines and a flow system for implementing a flow of a coolant, and the drive unit, being a component in the flow system, further includes a heat exchanger by which the coolant can be cooled. The drive unit and the drive assembly constitute equipment that allows control of individual assemblies in an efficient manner and with a low space requirement.

A drive unit and a drive assembly and a motor vehicle. The drive unit includes a first electric machine and a second electric machine and an output shaft, wherein a rotor of the second electric machine is connected to the output shaft for conjoint rotation. The drive unit further includes a disconnect clutch by which a rotor of the first electric machine can be connected to the output shaft. The drive unit further includes power electronics for controlling at least one of the two electric machines and a flow system for implementing a flow of a coolant, and the drive unit, being a component in the flow system, further includes a heat exchanger by which the coolant can be cooled. The drive unit and the drive assembly constitute equipment that allows control of individual assemblies in an efficient manner and with a low space requirement.

A method for performing recuperation for an ego vehicle, which has at least one electrical machine and is located with at least one further road user on a route in a traffic situation, wherein a drone which has at least one camera is used, wherein the ego vehicle is accompanied on the route by the flying drone, wherein the traffic situation in which the ego vehicle is located is acquired using the at least one camera, wherein the recuperation for the ego vehicle is performed in dependence on the acquired traffic situation, wherein mechanical energy of the ego vehicle is converted into electrical energy using the at least one electrical machine during performance of the recuperation for the ego vehicle.

Methods and systems are provided for preparing an energy receiving apparatus of a vehicle for receiving an increase in a level of energy storage prior to a vehicle reaching an energy replenishment station for receiving the increase. In one example, a method comprises via a controller, requesting a confirmation as to whether a vehicle operator intends to stop at a particular energy replenishment station, and when confirmation is received, commanding one or more actions to prepare the energy receiving apparatus for accepting the energy level increase. In this way, a time-frame for accepting the energy level increase may be reduced as compared to situations where the one or more actions are not undertaken.

Methods and systems are provided for preparing an energy receiving apparatus of a vehicle for receiving an increase in a level of energy storage prior to a vehicle reaching an energy replenishment station for receiving the increase. In one example, a method comprises via a controller, requesting a confirmation as to whether a vehicle operator intends to stop at a particular energy replenishment station, and when confirmation is received, commanding one or more actions to prepare the energy receiving apparatus for accepting the energy level increase. In this way, a time-frame for accepting the energy level increase may be reduced as compared to situations where the one or more actions are not undertaken.

Provided is a travelable distance display apparatus that can accurately estimate a travelable distance of an electric vehicle and display the travelable distance according to the state of use of the electric vehicle.

A travelable distance display apparatus 60 mounted on an electric vehicle 10 having a battery 40 for supplying travel power includes a travelable distance calculation device 62 and a display device 65. The travelable distance calculation device 62 calculates a travelable distance of the electric vehicle 10 based on the average speed of the electric vehicle 10 and the power consumption of an air-conditioning apparatus 80 mounted on the electric vehicle 10. The display device 65 can display the travelable distance of the electric vehicle 10 in a case where each of the average speed of the electric vehicle 10 and use/non-use of the air-conditioning apparatus 80 is changed.