WO2020193018A1 - Electronic computing device for a motor vehicle, information being adapted on the basis of the transmission technology of a transmission device of the electronic computing device, motor vehicle, and method - Google Patents

Abstract

The invention relates to an electronic computing device (12) for a motor vehicle (10), comprising a first transmission device (28) for transmitting information (38) using first transmission technology (40), at least one second transmission device (30) for transmitting the information (38) using second transmission technology (42), and an information generating device (44) for generating the information (38), wherein the information generating device (44) is designed to transmit the information (38) to the transmission devices (28, 30). The electronic computing device (12) has an interface (46) which is designed to receive the generated information (38) from the information generating device (44) and adapt the information for the first transmission device (28) according to the first transmission technology (40), adapt the information (38) for the second transmission device (30) according to the second transmission technology (42), and transmit the adapted information (48) to the respective transmission device (28, 30, 32, 34, 36). The invention additionally relates to a motor vehicle (10) and to a method.

Description

Electronic computing device for a motor vehicle, information being adapted to the electronic computing device as a function of a transmission technology of a transmission device, motor vehicle and method

The invention relates to an electronic computing device for a motor vehicle. The electronic computing device has a first transmitting device for transmitting information by means of a first transmission technology and one to the first

Transmission device different second transmission device for sending the information by means of a second transmission technology different from the first. Furthermore, the electronic computing device has an information generating device for generating the information, the information generating device for

The information is transmitted to the first and to the second transmission device. The invention also relates to a motor vehicle with an electronic

Computing device and a method.

Different transmission technologies such as mobile radio technology or other radio technology such as WLAN or Bluetooth are already known from the prior art. Due to the limited number of base stations or other access points, there are supply gaps, capacity bottlenecks and high latencies due to the central processing.

US 2016/0150451 A1 discloses a wireless network router for a vehicle and an operating method therefor. The wireless network data router includes a multiple connection interface for wireless access in vehicle environments, here using Wave. It also includes a wireless local area network and an interface. The network data router also includes a network interface. Furthermore, the wireless network data router comprises a downlink data connection for the vehicle and / or users in the vehicle and in its surroundings. The wireless network data router further comprises a data processing unit for routing data between the interfaces. The data processing unit is configured to generate a score for each reachable network on the Wave, Wi-Fi and Calculate cellular interfaces. Furthermore, the data processing unit is configured to switch the uplink connection of the data router of the wireless network to the accessible network with the best score. This document further discloses a wireless network data router for vehicles for connecting vehicles to the Internet via a multi-network device, the router being a mobile router capable of forming a network of connected vehicles, the router being for using parked vehicles Vehicles arranged to redistribute Wi-Fi signals from fixed hotspots.

It is also known from the prior art that only one connection for the data transmission from vehicles or for the provision of

Data transmission services is used. Conventional transmission services such as GSM, 3G, LTE, WLAN offer slight variations in the

Transmission quality. The transmission quality can in particular by the

Data throughput, latency and availability are defined. Furthermore, the cost is very high.

The object of the present invention is to create an electronic computing device, a motor vehicle and a method by means of which the quality of a

Data transmission in communication can be improved.

This object is achieved by an electronic computing device, a motor vehicle and a method according to the independent patent claims. Beneficial

Embodiments are specified in the subclaims.

One aspect of the invention relates to an electronic computing device for a

Motor vehicle. The electronic computing device has a first transmitting device for transmitting information using a first transmission technology and a second transmitting device, which is different from the first transmitting device, for transmitting the information using a second transmission technology that is different from the first. Furthermore, the electronic computing device has a

Information generating device for generating the information, wherein the

Information generating device is designed for transmitting the information to the first and to the second transmitting device. It is provided that the electronic computing device has an interface which is designed to receive the generated information from the

To receive the information generating device and to adapt the information for the first transmission device depending on the first transmission technology and to adapt the information for the second transmission device depending on the second transmission technology and to transmit the respectively adapted information to the respective transmission device.

This enables data and voice services to be provided for the motor vehicle and other participants in road traffic. Furthermore, the quality of the data transmission can be improved, for example the range, the data throughput and the latency. In particular, this also makes it possible for the costs of the data transmission to be reduced. In particular, it is also provided that the advantages of the motor vehicle are used to operate the electronic computing device, such as the existing power supply, installation space, antenna systems or the corresponding IT technology.

In particular, it can be provided that the motor vehicle or a large number of motor vehicles, which have a respective electronic computing device, support each other in addition through the intelligent transmission and transmission

Receiving unit within the electronic computing devices, whereby an improved communication infrastructure can be created for data transmission. The motor vehicles act as mobile transmission masts. Signals from conventional fixed transmission masts or other access points such as WLAN are passed on via one or more motor vehicles. Different time, frequency space or antennas or a combination thereof are used. There will be both different technologies for different

Data streams, for example channel bundling, as well as cooperative

Transmission methods such as the application of MIMO, relaying, distributed antenna systems for motor vehicles between the motor vehicles and the cellular network and other access points. When transferring data from a

Motor vehicle to the next, the direct transmission path is used as long as the connection exists. In particular, by equipping motor vehicles with the appropriate hardware and software, i.e. physical components and computer program products, these become mobile transmission masts that, in cooperation with the existing infrastructure and with each other, build a radio network that significantly expands the area covered by the radio network. For example, it can be provided that a motor vehicle is equipped with the LTE modem and, for example, two WLAN modules per motor vehicle. In this way, every motor vehicle can have a

Establish a connection to the Internet using the LTE modem, provided the cellular network is available. If only a fraction of the vehicles have access to the cellular network, the vehicles can connect to each other via WLAN

communicate and thus establish a connection bridge to the cellular network. In this way, a large number of network nodes can be supplied with Internet access, although only one of them is supplied with a cellular network. Each participating

Motor vehicle can thus serve not only as a user, but also as part of the network infrastructure at the same time.

In particular by combining different communication channels with different transmission technologies for motor vehicles, the connection between the motor vehicles can advantageously be established. For the different requirements of data transmission, the most suitable of the existing communication technologies, in other words the

Transmission technologies. Depending on the length and property of the

Different transmission technologies can be used for the transmission path. For example, it can be provided that radio technologies that are designed for short-range radio are used for a short transmission path. For a long transmission path, on the other hand, radio technologies can be used that are designed for communication over greater distances.

Therefore, in order to improve the data communication, the motor vehicles are equipped with a plurality of communication technologies, in other words transmission technologies. Thanks to the technology mix, the right communication technology or a combination from the technology mix can be selected for each data package or information. In order to be able to control the different transmission technologies, an interface, in particular a uniform software interface, is used. The software interface is abstracted from the hardware and provides the transmission services. The software interface, in other words the interface, manages the hardware and provides other modules with services for data transmission, which can also be referred to as connectivity-as-a-platform.

According to an advantageous embodiment, the electronic computing device has at least one third transmission device, different from the first and second transmission device, for transmitting the information by means of a third transmission technology different from the first and second transmission technology, the interface being designed to transmit the information for the third transmission device in Depending on the third transmission technology and adapt to the third

Transmitting device to transmit. In other words, it can be provided that the information for communication can be transmitted by means of the electronic computing device using a third transmission technology. The third

Transmission technology is designed differently in particular than the first and second transmission technology. In particular, it can be provided that the electronic computing device can have a multiplicity of transmission devices, wherein multiplicity in this case in particular means more than three, wherein a respective transmission device can have a different transmission technology. It can also be provided that the electronic computing device has the plurality of transmitting devices, at least one transmitting device operating using the same transmission technology as a further transmitting device.

For example, it can be provided that the electronic computing device has two transmitting devices which transmit the information by means of LTE mobile radio. This makes it possible for the electronic computing device to be able to transmit the information to others, in particular motor vehicles, in a highly flexible manner, in particular adapted to the current situation. This can improve the quality of the data transmission.

It has also proven to be advantageous if at least the first transmission device is a DSRC module or a WLAN module or a cellular module or an optical communication module or a sound-based communication module and / or a Zig / Bee module and / or at least the second transmission device a DSRC module or is a WLAN module or a cellular module or an optical communication module or a sound-based communication module and / or a ZigBee module. The DSRC module is a type of communication, in other words one

Transmission technology by means of which communication can be carried out over a short distance. In particular, the DSRC (Dedicated Short Range Communication) module is a transmission technology by means of which a semi-passive transponder technology with very small communication zones is established. For example, CEN and ETSI communication

be considered. Furthermore, the wave communication can be viewed as a DSRC communication. In particular, the DSRC communication between vehicle-to-vehicle communication, which can also be referred to as V2V communication, takes place to prevent collisions. In particular, traffic jam reports can be exchanged between the motor vehicles using this method. With the DSRC method, for example, an IEEE 802.11 p network can be set up. The WLAN is a wireless local area network. It describes a local radio network, mostly using the IEEE 802.11 family standard. A GSM, UMTS, LTE, 5G, C-V2X / Sideiink, for example, can be provided as a mobile radio by means of the mobile radio module. ZigBee according to the IEEE-802.15.4 standard can also be used.

It is also possible that the mm-Wave is used according to the IEEE-802.11ad standard. Furthermore, communication can also be carried out using Bluetooth, for example. It is also possible for the first transmission device and / or the second transmission device to be designed as an optical communication module, whereby communication can take place by means of an optical method, for example laser-based. Furthermore, the first transmission device or the second transmission device can be provided as a sound-based communication module, in which case communication can then be carried out, for example, by means of ultrasonic waves. This enables the information to be transmitted to other motor vehicles, for example, by means of the various transmission technologies. So can

Depending on the situation, the advantages of the respective transmission technology can be used, whereby the information can be reliably transmitted to the other motor vehicles.

In a further advantageous embodiment, at least the first

Transmission device a first driver and the second transmission device a second Driver on, and the interface is designed for the respective

Transmitting device adapted information to transmit to the first driver and to the second driver. The driver, which can also be referred to as a device driver, is a computer program or a

Software module that controls the interaction with closed, built-in or virtual devices. In particular, communication between the

Transmission device and the interface controlled. In particular, the driver is designed as a component of the transmission device or as a component of the electronic computing device. In particular, the driver forms a standardized interface so that, in particular, the transmission device can be addressed in the same way as similar devices from other manufacturers. This improves the operation of the electronic

Computing facility allows.

It is also advantageous if the electronic computing device is designed to transmit the information alternately or in parallel with at least the first transmitting device or the second transmitting device. In other words, it is made possible for the information to be transmitted one after the other by means of the first transmission device or the second transmission device or for the information to be transmitted simultaneously by means of the at least two transmission devices. As a result, the information can be transmitted more reliably via the various transmission devices.

Furthermore, it has proven to be advantageous if the electronic computing device is designed to decide, as a function of a decision criterion, by means of which transmitting device the information is to be transmitted. In particular, depending on a number of decision criteria, it can be decided by means of which transmission device the information is to be transmitted. For example, as

Decision criterion the length and / or property of the transmission path can be used. Furthermore, the relevance of the information or the information density of the information can be used as a decision criterion. In particular, each transmission technology has different properties so that, adapted to these properties, the electronic computing device can decide which transmission technology is used to transmit the information. According to a further advantageous embodiment, the interface for receiving status information is at least the first and the second

Transmitting device formed. In other words, the interface can also read the status information from the hardware components, for example the corresponding communication modules, uniformly, in particular the status of the transmission channel and other transmission options. The software interface, in other words the interface, thus manages the hardware and provides other modules with services for data transmission, which can also be referred to as connectivity-as-a-platform. This enables the interface to be provided in a highly functional manner.

Another aspect of the invention relates to a motor vehicle with an electronic computing device according to the preceding aspect. The motor vehicle is

especially designed as a passenger car.

Yet another aspect of the invention relates to a method for transmitting information to the motor vehicle by means of an electronic computing device of the motor vehicle, in which the information is transmitted by means of a first transmission device by means of a first transmission technology for communication and by means of a second transmission device different from the first transmission device the second, different from the first transmission technology

Transmission technology for communication is transmitted and in which the information is generated by means of an information generation device of the electronic computing device, the information transmission device being the

Information is transmitted to the first transmitting device to the second transmitting device.

It is provided that the electronic computing device has an interface by means of which the generated information is received by the information generating device and the information for the first transmission device is adapted depending on the first transmission technology and the information for the second

Transmitting device are adapted as a function of the second transmission technology and the respective adapted information is transmitted from the interface to the respective transmitting device. Advantageous embodiments of the electronic computing device are to be regarded as advantageous embodiments of the motor vehicle and the method.

The electronic computing device and the motor vehicle have this

physical features which enable the method and an advantageous embodiment thereof to be carried out. In particular, the method is carried out by means of the electronic computing device and the motor vehicle.

Further advantages, features and details of the invention emerge from the following description of preferred exemplary embodiments and with reference to the drawings. The features mentioned above in the description and

Combinations of features and the features and combinations of features mentioned below in the description of the figures and / or shown on their own in the figures are not only in the respectively specified combination, but also in others

Combinations or can be used alone without departing from the scope of the invention.

Show:

Fig. 1 is a schematic side view of an embodiment of a

Motor vehicle;

Fig. 2 is a schematic block diagram of an embodiment of a

electronic computing device; and

3 is a schematic block diagram of an embodiment of FIG

electronic computing device.

Identical or functionally identical elements are provided with the same reference symbols in the figures.

Fig. 1 shows in a schematic side view an embodiment of a

Motor vehicle 10. Motor vehicle 10 has an electronic computing device 12. The electronic computing device 12 is coupled to a first antenna 14, to a second antenna 16 and to a third antenna 18. The first antenna 16 can be, for example, a WLAN antenna, the second antenna 16 can

for example an LTE antenna and the third antenna 18 can be, for example, a WiFi antenna. For example, it can be provided that the motor vehicle 10 can communicate with a base station 20 by means of the second antenna 16. It can be provided that the motor vehicle 10 can communicate with a further motor vehicle 22. In particular, the third antenna 18 communicates with the first antenna 14 of the further motor vehicle 22. In the present exemplary embodiment, the further motor vehicle 22 also has an electronic computing device 12 ′, the first antenna 14, the second antenna 16 and the third antenna 18.

Furthermore, it can be provided that the further motor vehicle 22 communicates with yet another motor vehicle 24. In particular, in the present example the communication between the third antenna 18 of the further motor vehicle 22 and the third antenna 18 of the further motor vehicle 24 is carried out. in the

In the present exemplary embodiment, the further motor vehicle 24 also has the first antenna 14, the second antenna 16 and the third antenna 18 as well as an electronic computing device 12 ″.

Furthermore, FIG. 1 shows that in the present exemplary embodiment the further motor vehicle 22 can communicate with a mobile terminal device 26, in the present embodiment

Embodiment can be communicated by means of the third antenna 18 between the motor vehicle 22 and the mobile terminal 26. Furthermore, it is shown in the present exemplary embodiment that the further motor vehicle 24 communicates with two mobile terminals 26 by means of the first antenna 14. In other words, the mobile terminals can dial into the network of the further motor vehicles 22, 24 and thus, for example, also use the cellular network of the motor vehicle 10.

In particular, FIG. 1 shows that the equipping of the motor vehicles 10, 22, 24 with the corresponding hardware and software components makes them mobile

Transmitter masts are, in interaction with the existing infrastructure, which in the present example by the base station 20, which in particular a

can have electronic computing device is formed, can build a radio network with one another that significantly expands the area covered by the radio network.

In particular, a network system 21 can thus be provided between the motor vehicles 10, 22, 24 and the base station 20. A vehicle fleet is equipped, for example, with one LTE module and two WLAN modules per motor vehicle 10, 22, 24. This way everyone can

Motor vehicle 10, 22, 24 establish a connection to the Internet via cellular network, provided that the cellular network is available. If only a fraction of the motor vehicles 10, 22, 24 have access to the cellular network, the motor vehicles 10, 22, 24 can communicate with each other via WLAN connections and thus establish a connection bridge between cellular networks. In this way, a large number of network nodes can be supplied with Internet access, although only one of them is supplied with a cellular network, in this case the motor vehicle 10. Each participating motor vehicle 10, 22, 24 can thus not only be used as a user, but also as a component serve the network infrastructure.

FIG. 2 shows a schematic view of a block diagram of an embodiment of the electronic computing device 12. The same description can be adopted for the electronic computing devices 12 of the further motor vehicles 22, 24. The electronic computing device 12 has a first transmitting device 28 for transmitting information 38 by means of a first transmission technology 40 and with a second transmitting device 30, which is different from the first transmitting device 28, for transmitting the information 38 by means of a second transmission technology 42 that is different from the first. Furthermore, the electronic computing device 12 has an information generating device 44 for generating the information 38, the information generating device 44 being designed to transmit the information 38 to the first and to the second transmitting device 28, 30.

Provision is made for the electronic computing device 12 to have an interface 46 which is designed to receive the generated information 38 from the

To receive the information generating device 44 and to adapt the information 38 for the first transmission device 28 as a function of the first transmission technology 40 and to adapt the information 38 for the second transmission device 30 as a function of the second transmission technology 42 and the respectively adapted information 48 to the respective transmission device 28, 30, 32, 34, 36 to transfer.

In the present exemplary embodiment, the electronic computing device 12 has a third transmission device 32, a fourth transmission device 34 and a fifth

Transmitter 36 on. In particular, it can be provided that by means of the third Transmitting device 32 a third transmission technology 50, by means of the fourth

Transmission device 34 a fourth transmission technology 52 and a fifth transmission technology 54 is used by means of the fifth transmission device 36. The

Interface 46 is in turn designed to provide information 38 for the respective transmission devices 28, 30, 32, 34, 36 as a function of the respective

Transmission technologies 40, 42, 50, 52, 54 adapt and to the respective

Transmission device 28, 30, 32, 34, 36 to be transmitted.

Furthermore, it is provided in particular that at least the first transmission device 28 has a first driver 56 and the second transmission device 30 has a second driver 58 and the interface 46 is designed to be used for the respective transmission device 28,

30, 32, 34, 36 to transmit adapted information 48 to the first driver 56 and to the second driver 58. In the present exemplary embodiment, the electronic computing device 12 or the respective transmitting device 28, 30, 32, 34, 36 has five drivers 56, 58, 60, 62, 64. A third driver 60 is assigned to the third transmission device 32, a fourth driver 62 is assigned to the fourth transmission device 34 and a fifth driver 64 is assigned to the fifth transmission device 36.

Furthermore, it can be provided that the electronic computing device 12 is designed to transmit the information 38 alternately or in parallel by means of at least the first transmitting device 28 and the second transmitting device 30. In particular, the adapted information 48 can be transmitted in each case.

Furthermore, it can be provided that the electronic computing device 12 is designed to decide, depending on a decision criterion, by means of which transmitting device 28, 30, 32, 34, 36 the information 38 is to be transmitted.

Furthermore, it is provided in particular that the interface 46 is designed to receive status information from at least the first and second transmission devices 28, 30. In particular, further status information of the further

Transmitting devices 28, 30, 32, 34, 36 are received.

In the method for transmitting the information 38 by means of the electronic

The computing device 12 of the motor vehicle 1 transmits the information 38 by means of the first transmission technology 40 for communication and the first transmission device 28 the information 38 is transmitted by means of the second transmission technology 44 for communication, which is different from the first transmission technology 40, and the information 38 is generated by means of the information generation device 44, the information 38 being transmitted from the information generation device 44 to the first transmission device 28 and to the second transmission device 30.

It is provided that the electronic computing device 12 has the interface 46, by means of which the generated information 38 from the

Information generating device 44 is received and the information 38 for the first transmission device 28 is adapted depending on the first transmission technology 40 and the information 38 for the second transmission device 30 is adapted depending on the second transmission technology 42 and the respectively adapted information 48 is adapted from the interface 46 the respective transmitting device 28, 30, 32, 34,

36 are transferred.

On the hardware side, several, in particular radio modules, consisting of antennas 14, 16, 18 and the electronics for the control, which are illustrated in particular by the transmission device 28, 30, 32, 34, 36, are installed that use different radio technologies apply. For example, a DSRC module 86 or a WLAN module 82 or a cellular radio module or an optical communication module or a sound-based communication module or a ZigBee module 92 can be provided as radio technologies. The DSRC module 86 is a type of communication, in other words a transmission technology 40, 42, 50, 52, 54, by means of which communication can be carried out over a short distance. In particular, the DSRC (Dedicated Short Range Communication) module 86 is a transmission technology 40, 42, 50, 52, 54, by means of which a semi-passive transponder technology with very small communication zones is established. For example, the CEN and ETSI communication can be viewed under DSRC. Furthermore, the wave communication can be viewed as a DSRC communication. In particular, the DSRC communication between vehicle-to-vehicle communication, which can also be referred to as V2V communication, takes place to prevent collisions. In particular, for example, traffic jam reports can be made between motor vehicles 10, 22, 24 using this method

be replaced. With the DSRC method, for example, an IEEE 802.11p network can be set up. The WLAN is a wireless local network (Wireless Local Area Network). It describes a local radio network, mostly using the IEEE 802.11 family standard. A GSM, UMTS, LTE, 5G, C-V2X / Sidelink, for example, can be provided as a mobile radio by means of the mobile radio module. ZigBee according to the IEEE-802.15.4 standard can also be used. It is also possible that the mm-Wave is used according to the IEEE 802.11 ad standard. Furthermore, the

Communication can be carried out. It is also possible that the first

Transmission device 28 and / or the second transmission device 30 as an optical one

Communication module are formed, whereby by means of an optical method, for example laser-based, the communication can take place. Furthermore, the first transmission device 28 or the second transmission device 30 can be sound-based

Communication module are provided, then for example by means of

Ultrasonic waves communication can be carried out. This enables the information 38 to be transmitted to other motor vehicles 10, 22, 24, for example, by means of the various transmission technologies 40, 42, 50, 52, 54. In this way, depending on the situation, the advantages of the respective

Transmission technology 40, 42, 50, 52, 54 can be used, whereby the information 38 can be reliably transmitted to the other motor vehicles 10, 22, 24.

These modules in turn are controlled on the software side by the appropriate drivers 56, 58, 60, 62, 64. A uniform software interface, which is designated as interface 46, communicates with the individual drivers 56, 58, 60, 62, 64 and enables the software modules of the application modules 68 to access all of them

Data transmission channels. In this way, everyone can

Radio technology or transmission technology 40, 42, 50, 52, 54 can be used. In particular, any transmission technology 40, 42, 50, 52, 54 can be used. Thus, the system can be functional under different conditions. 3 shows a schematic view of a block diagram of an embodiment of the electronic computing device 12. This block diagram can be used analogously for the electronic computing device 12 ′, 12 ″. In the present exemplary embodiment, the electronic computing device 12 has a plurality of antennas 14, 16, 18. In particular, the antennas 14, 16, 18 are each provided with corresponding buses, so that the electronic computing device 12 can be connected to the antennas 14, 16, 18. Furthermore, the electronic Computing device 12 has a voltage supply 66, which can be made available in particular by a battery voltage of motor vehicle 10.

For use in the motor vehicle 10, the transmission technology 40, 42, 50, 52, 54 LTE, WLAN and DSRC are connected to the electronic computing device 12. In the present embodiment, the electronic

Computing device 12 has three LTE modules 72, three DSRC modules 86. The electronic computing device 12 has, in particular, the information generating device 44 on which software applications 68 can run that can use one or more of the named radio technologies either alternately or in parallel with one another.

For example, in the motor vehicle 10, a warning can be sent to the surrounding further motor vehicles 22, 24 if it performs an emergency braking. WLAN, DSRC, cellular radio or a combination of these channels can be used for the transmission of this information 38. This enables the strengths of each technology to be exploited at the same time. In the case of mobile communications, this is particularly the high availability, in the case of DSRC the high range and in the case of WLAN the high reliability of the data transmission.

3 shows in particular that the electronic computing device 12 has three second antennas 16 as LTE antennas. The respective second antennas 16 are coupled to LTE transmission devices 72 via SMA buses 70. The LTE interfaces 72 are in turn coupled to a USB hub 74.

Furthermore, the electronic computing device 12 has a GRS (Global Positioning System antenna 76, which is coupled to a GPS module 80 via a USB bus 78. The GPS module 80 in turn is coupled to the USB hub 74. Furthermore, the electronic computing device 12 have a display device 82, which is coupled in particular to the information generating device 44 and / or the interface 46. The first antenna 14 and the third antenna 18, which are designed in particular as WLAN antennas, are also via an SMA bus 72 is coupled as a WLAN module to a respective WLAN interface 82. In particular, a corresponding local network can be made available via a WLAN hotspot interface 84. The WLAN interfaces 82 and 84 are in turn connected to the Information generating device 44 and / or the interface 46 coupled. Furthermore, in the present exemplary embodiment, the electronic computing device 12 has DSRC antennas 85, in the present exemplary embodiment two, which in turn are coupled to the DSRC module 86 via SMA buses 72. The DSRC module 86 in turn can be coupled to an Ethernet switch 88, which has an interface to the outside. The Ethernet switch 88 can in turn be coupled to the interface 60 and the information generation device 44. Furthermore, the electronic computing device 12 can each have a Neutrik bus 90. Furthermore, it can be provided that the electronic computing device 12 has an interface converter and a ZigBee module 92, which can communicate with a ZigBee antenna 94 via an SMA bus 72.

Overall, the invention shows a motor vehicle 10, 22, 24 as part of the network infrastructure with hardware for many communication channels.

Claims

Claims

1. Electronic computing device (12) for a motor vehicle (10, 22, 24), with a first transmission device (28) for sending information (38) by means of a first transmission technology (40) and with at least one to the first

Transmitting device (28) different second transmitting device (30) for transmitting the information (38) by means of a second transmission technology (42) different from the first and with an information generating device (44) for generating the information (38), the

The information generating device (44) is designed to transmit the information (38) to the first and to the second transmitting device (28, 30),

characterized in that

the electronic computing device (12) has an interface (46) which is designed to receive the generated information (38) from the

To receive the information generating device (44) and the information (38) for the first transmitting device (28) depending on the first

To adapt the transmission technology (40) and to adapt the information (38) for the second transmission device (30) depending on the second transmission technology (42) and to send the adapted information (48) to the respective transmission device (28, 30, 32, 34, 36) transfer.

2. Electronic computing device (12) according to claim 1,

characterized in that

the electronic computing device (12) has at least one third transmitting device (32) different from the first and second transmitting device (28, 30) for transmitting the information (38) by means of one to the first and to the second

Transmission technology (40, 42) different third parties

Having transmission technology (50), the interface (46) being designed for the information (38) for the third transmitting device (32) in

To adapt depending on the third transmission technology (50) and to transmit the adapted information (48) to the third transmission device (32).

3. Electronic computing device (12) according to claim 1 or 2, characterized in that

at least the first transmitting device (28) is a DSRC module (86) or a WLAN module (82) or a cellular module or an optical communication module or a sound-based communication module and / or as a ZigBee module (92) and / or at least the second transmitting device (30) a DSRC module (86) or a WLAN module (82) or a cellular module or an optical one

Communication module or a sound-based communication module and / or as a ZigBee module.

4. Electronic computing device (12) according to one of the preceding claims, characterized in that

at least the first transmitting device (28) have a first driver (56) and the second transmitting device (30) have a second driver (58) and the interface (46) is designed for this purpose, which is necessary for the respective transmitting device (28, 30, 32, 34 , 36) to transmit adapted information (48) to the first driver (56) and to the second driver (58).

5. Electronic computing device (12) according to one of the preceding claims, characterized in that

the electronic computing device (12) is designed to transmit the information (38) alternately or in parallel by means of at least the first transmitting device (28) and the second transmitting device (30).

6. Electronic computing device (12) according to one of the preceding claims, characterized in that

the electronic computing device (12) is designed to decide, as a function of a decision criterion, by means of which transmitting device (28, 30, 32, 34, 36) the information (38) is to be transmitted.

7. Electronic computing device (12) according to one of the preceding claims, characterized in that

the interface (46) is designed to receive status information from at least the first and the second transmitting device (28, 30)

8. Motor vehicle (10, 22, 24) with an electronic computing device (12) according to one of claims 1 to 7.

9. A method for transmitting information (38) of a motor vehicle (10, 22, 24) by means of an electronic computing device (12) of the motor vehicle (10, 22, 24), in which the information (38) is transmitted by means of a first transmitting device (28) by means of a first transmission technology (40) for communication and by means of a second transmission device (30) different from the first transmission device (28) the information (38) by means of a transmission technology (40)

different second transmission technology (42) is transmitted for communication and in which the information (38) is generated by means of an information generation device (44) of the electronic computing device (12, 12 12 ″), the information (38) being transmitted from the information generation device (44) the first transmitting device (28) and to the second transmitting device (30) is transmitted,

characterized in that

the electronic computing device (12) has an interface (46) by means of which the generated information (38) is received by the information generating device (44) and the information (38) for the first transmitting device (28) depending on the first transmission technology (40) adapted and the

Information (38) for the second transmission device (30) can be adapted as a function of the second transmission technology (42) and the respective adapted information (48) is sent from the interface (46) to the respective transmission device (28, 30, 32, 34, 36) be transmitted.