Abstract: The invention concerns a robotic arm (1) with at least two arm modules (41, 42) which are moveable relative to one another and at least one manually operable input module (11) for generating control signals for the control of the robotic arm (1) on the basis of a user input. Both arm modules (41, 42) have a first interface (38, 40) onto which the input module (11) can be selectively mounted.

Abstract: A system for transmitting transmissions in vehicles includes a first communication module for establishing a communication connection to a communication terminal of a supplier, which communication terminal receives authorization data by a communication network, a first identification routine for uniquely identifying a supplier, a second communication module for establishing a communication connection to a communication device of a control unit of the access assembly of a vehicle by wireless communication network, a second identification routine for uniquely identifying the system by the access assembly, a third communication module for receiving update request information of the driver, and an update routine for updating authorization data in a memory of the system.

Abstract: A method for controlling a hybrid drive of a vehicle includes detecting a traffic and/or street situation ahead of the vehicle, and based on the detected situation, determining an upcoming increase of a performance requirement to be expected from the hybrid drive and increasing a withdrawal rate of an electrical energy source of the hybrid drive. This increase occurs before the performance requirement is realized. The performance requirement may be realized according to the increase of the withdrawal rate, e.g., in conformity with a performance requirement which may be entered via an interface, for example an accelerator pedal.

Abstract: A method for transferring shipments in vehicles, including: a first communications module (M1) for establishing a communication connection to a communications terminal of a supplier which receives authorization data via a communication network (N1); a first identification routine for clearly identifying a supplier; a second communication module (M2) for establishing a communication connection via a wireless communication network (N2) to a communication device of a control device of the access assembly of a vehicle; a second identification routine for clearly identifying the system by the access assembly; a third communication module (M3) for receiving update request information from the driver; and an update routine for updating authorization data in a memory of the system.

Abstract: A vehicle multimedia system includes a connection to a vehicle bus system in the vehicle; there is a data link, via the vehicle bus system, to a seat occupancy system that is used to determine which seats in the vehicle are occupied, and the occupancy of the seats is displayed via a visualization unit of the vehicle multimedia system in accordance with the determined seat occupancy; the display is designed in such a way that at least one mobile terminal of a vehicle passenger can establish a data connection to the vehicle multimedia system in a coupling process, and said mobile terminal/s is/are associated with the respective vehicle passenger via the vehicle multimedia system.

Abstract: The present disclosure relates to motor vehicles in general. The teachings thereof may be embodied in various systems and methods for heating and air conditioning motor vehicles. Some embodiments may include a method for indicating a parking position for a motor vehicle, including determining a starting time period for a future start of use of the motor vehicle; determining a direction of solar radiation for a temperature-control time period preceding the starting time period, the direction of solar radiation determined relative to a current or future course of the roadway along which the motor vehicle moves; determining an outside temperature; determining a parking position for the motor vehicle, at which parking position a passenger compartment of the motor vehicle receives a quantity of solar radiant heat smaller than a quantity of solar radiant heat of an alternative parking position thereto if the outside temperature is above a setpoint temperature; and displaying the parking position.

Abstract: A method for transmitting perishable shipments in vehicles, including: a first communications module (M1) for establishing a communication connection to a communications terminal of a supplier which receives authorization data via a communications network (N1); a first identification routine for clearly identifying a supplier; a second communications module (M2) for establishing a communication connection via a wireless communications network (N2) to a communication device of a control device of the access assembly of a vehicle; a second identification routine for clearly identifying the system by the access assembly; a third communications module (M3) for receiving update request information from the driver; and an update routine for updating authorization data in a memory of the system.

Abstract: The invention concerns a robotic arm (1) with at least two arm modules (41, 42) which are moveable relative to one another and at least one manually operable input module (11) for generating control signals for the control of the robotic arm (1) on the basis of a user input. Both arm modules (41, 42) have a first interface (38, 40) onto which the input module (11) can be selectively mounted.

Abstract: The present disclosure relates to motor vehicles in general. The teachings thereof may be embodied in various systems and methods for heating and air conditioning motor vehicles. Some embodiments may include a method for indicating a parking position for a motor vehicle, including determining a starting time period for a future start of use of the motor vehicle; determining a direction of solar radiation for a temperature-control time period preceding the starting time period, the direction of solar radiation determined relative to a current or future course of the roadway along which the motor vehicle moves; determining an outside temperature; determining a parking position for the motor vehicle, at which parking position a passenger compartment of the motor vehicle receives a quantity of solar radiant heat smaller than a quantity of solar radiant heat of an alternative parking position thereto if the outside temperature is above a setpoint temperature; and displaying the parking position.

Abstract: A system for selective opening of a vehicle includes: a first communications module establishing, via a communications network, a communication link to a service provider of authorization data; a first identification routine for unambiguous identification of the service provider; a second communications module establishing a wireless communication network link to a control device for access arrangement of a vehicle; a second identification routine unambiguously identifying the system by the access arrangement; and a third communications module receiving update request information from the driver and an authorization data update routine. By the second communications module, the control device receives a profiled control signal that causes a selective opening of the vehicle via the control device if valid authorization data is available.

Abstract: A method for controlling a hybrid drive of a vehicle includes detecting a traffic and/or street situation ahead of the vehicle, and based on the detected situation, determining an upcoming increase of a performance requirement to be expected from the hybrid drive and increasing a withdrawal rate of an electrical energy source of the hybrid drive. This increase occurs before the performance requirement is realized. The performance requirement may be realized according to the increase of the withdrawal rate, e.g., in conformity with a performance requirement which may be entered via an interface, for example an accelerator pedal.

Abstract: A method for controlling a recuperation power of a recuperation-capable drive of a motor vehicle includes first determining a future temperature-control effort that represents the energy required to cool or heat the motor vehicle, and then conducting to a temperature-control device a temperature-control proportion of a recuperation power that has been extracted from the kinetic energy of the motor vehicle. The temperature-control device uses the temperature-control proportion of the converted recuperation power to heat or cool a motor vehicle interior of the motor vehicle. The magnitude of the temperature-control proportion is controlled based on the future temperature-control effort. An increasing temperature-control proportion is conducted to the temperature-control device in response to an increasing temperature-control effort.

Abstract: A method for operating a regenerative braking device of a motor vehicle includes the steps of detecting a prespecified braking power value, and converting kinetic energy from the motor vehicle into electrical regenerative power in line with a setpoint braking power value which corresponds to the prespecified braking power value. The regenerative power is routed to an electrical storage device in order to charge the electrical storage device. The occurrence of a deviation between the setpoint braking power value and an actual braking power value, with which the motor vehicle is braked, is detected. The regenerative power is redirected from the storage device to a power resistor when, during routing of the regenerative power to the storage device, the occurrence of the deviation between the setpoint braking power value and the actual braking power value is detected.

Abstract: A system for selective opening of a vehicle includes: a first communications module establishing, via a communications network, a communication link to a service provider of authorization data; a first identification routine for unambiguous identification of the service provider; a second communications module establishing a wireless communication network link to a control device for access arrangement of a vehicle; a second identification routine unambiguously identifying the system by the access arrangement; and a third communications module receiving update request information from the driver and an authorization data update routine. By the second communications module, the control device receives a profiled control signal that causes a selective opening of the vehicle via the control device if valid authorization data is available.

Abstract: A method for controlling a recuperation power of a recuperation-capable drive of a motor vehicle includes first determining a future temperature-control effort that represents the energy required to cool or heat the motor vehicle, and then conducting to a temperature-control device a temperature-control proportion of a recuperation power that has been extracted from the kinetic energy of the motor vehicle. The temperature-control device uses the temperature-control proportion of the converted recuperation power to heat or cool a motor vehicle interior of the motor vehicle. The magnitude of the temperature-control proportion is controlled based on the future temperature-control effort. An increasing temperature-control proportion is conducted to the temperature-control device in response to an increasing temperature-control effort.

Abstract: A method is disclosed for distributing energy in an electric vehicle including at least one electric energy store and at least one conditioning module, which can be used to generate electric energy from fuel, as energy sources, wherein driving-related information, or information about a state of the electric vehicle, is recorded before driving, or when beginning to drive, the electric vehicle and, while driving, energy is distributed in the vehicle on the basis of the information.

Abstract: A system for transmitting transmissions in vehicles includes a first communication module for establishing a communication connection to a communication terminal of a supplier, which communication terminal receives authorization data by a communication network, a first identification routine for uniquely identifying a supplier, a second communication module for establishing a communication connection to a communication device of a control unit of the access assembly of a vehicle by wireless communication network, a second identification routine for uniquely identifying the system by the access assembly, a third communication module for receiving update request information of the driver, and an update routine for updating authorization data in a memory of the system.

Abstract: A system and method for the automatic control of wheel brake-slip in a motor vehicle with an electric drive (2), including the following steps: detecting a brake signal (14) by means of a slip control device (9), at which point the slip control device (9) generates an electric drive signal (15) and a friction brake signal (16) for the automatic control of a predetermined slip value of a wheel (1) of the motor vehicle, transmitting the electric drive signal (15) to an electric drive control device (6) and transmitting the friction brake signal (16) to a friction brake control device (12), at which point a friction brake control device (12) activates a friction brake (10) of the wheel (1) according to the friction brake control signal (16) to generate friction brake signal (16) to generate friction brake torque and an electric drive control device (6) activates electric drive (2) according to electric drive signal (15) to generate electric drive torque.

Abstract: A method is disclosed for distributing energy in an electric vehicle including at least one electric energy store and at least one conditioning module, which can be used to generate electric energy from fuel, as energy sources, wherein driving-related information, or information about a state of the electric vehicle, is recorded before driving, or when beginning to drive, the electric vehicle and, while driving, energy is distributed in the vehicle on the basis of the information.

Abstract: The invention relates to a system and method for the automatic control of wheel brake-slip in a motor vehicle with an electric drive (2), including the following steps: detecting a brake signal (14) by means of a slip control device (9), at which point the slip control device (9) generates an electric drive signal (15) and a friction brake signal (16) for the automatic control of a predetermined slip value of a wheel (1) of the motor vehicle, transmitting the electric drive signal (15) to an electric drive control device (6) and transmitting the friction brake signal (16) to a friction brake control device (12), at which point a friction brake control device (12) activates a friction brake (10) of the wheel (1) according to the friction brake control signal (16) to generate friction brake signal (16) to generate friction brake torque and an electric drive control device (6) activates electric drive (2) according to electric drive signal (15) to generate electric drive torque.