DE102020004017A1 - Method for configuring at least one component for a device for an Internet of Things facility by means of a configuration system and configuration system - Google Patents

Abstract

The invention relates to a method for configuring at least one component (14) for a device (42) for an Internet of Things facility by means of a configuration system (10) in which at least one specification (28) for the at least one component (14) by means of an ontology (18) for the component (14) and rules (20) for the component (14) to a third party provider (22, 24, 26) for the configuration by means of an electronic computing device (12) of the Configuration system (10), the specification (28) being documented by means of a distributed ledger technology (30) and the specification (28) documented by means of the distributed ledger technology (30) to the third party provider (22, 24, 26) is transmitted to configure the at least one component (14). The invention also relates to a configuration system (10).

Description

The invention relates to a method for configuring at least one component for a device for an Internet of Things facility by means of a configuration system according to the preamble of patent claim 1. The invention also relates to a configuration system.

The development process for connected components, which can also be referred to as “connected devices”, and for connected services, which can also be referred to as “connected services”, is in particular very complex, heterogeneous and is carried out by various organizations or third-party providers and must then managed by a manufacturer of the component. In the case of components for the Internet of Things in particular, which can also be referred to as Internal of Things (loT), development processes are decoupled from the actual manufacturer of the device. Manual work often has to be done at points of contact between many processes in order to connect the various process islands with one another.

The US 2009/0254876 A1 discloses a software system that includes concepts, concept entities and relationships within the software system, identifying them and storing them in a repository. The software system facts are extracted from artifacts comprising the software system and provided by explicit definition. The architecture of the software system system is restored from the stored software system facts. Layer views of the restored architectures are embarrassed. The stored facts of the software system are checked on the basis of architecture rules in order to ensure the architectural conformity of the software system. The effects of proposed changes in the software system are assessed by querying the identified software systems and facts.

The object of the present invention is to create a method and a configuration system by means of which an improved configuration process between a manufacturer of a device and a third party provider for the configuration of a component can be implemented.

This object is achieved by a method and by a configuration system according to the independent patent claims. Advantageous embodiments are specified in the subclaims.

One aspect of the invention relates to a method for configuring at least one component for a device for an Internet-of-Things facility using a configuration system, in which a manufacturer provides at least one specification for the at least one component using an ontology for the component and rules for the component can be specified to a third party provider for the configuration by means of an electronic computing device of the configuration system.

It is provided that the specification is documented by means of a distributed ledger technology and the specification documented by means of the distributed ledger technology is transmitted to a third party provider for the configuration of the at least one component.

This means that the configuration between the manufacturer and the third-party provider can be documented using the distributed ledger technology. With this approach, any number of principally equivalent copies of the ledger are maintained locally by different parties. Suitable measures are taken to ensure that new transactions to be added are transferred to all copies of the ledger and that an agreement, a so-called consensus, is reached about the current status of the ledger. Reliable management and documentation between the third party provider and the manufacturer of the device can thus be implemented on the basis of the distributed ledger technology.

In the present case, for example, a connected motor vehicle, a mobile phone, a tablet or a computer can be viewed under device.

In particular, a configuration concept for manufacturers of so-called loT devices can thus be implemented, with the concept for integrating software-oriented processes with classic production-related and hardware-related processes, engineering production and after-sales contact being presented.

In particular, the configuration process therefore begins with the definition of an ontology and the correlated rules that are relevant for the behavior of the component to be developed. These building blocks form the basis for the requirements, the configuration, the product documentation and the dependency artifacts. These artifacts are then in turn an input for a specific engineering process that follows. Each engineering pipeline, i.e. each individual engineering process / configuration, for example by a third party, is made up of two parallel streams. On the one hand from the software-focused feature development stream and the classic, hardware-focused component development stream.

In particular, it can be provided that many third-party providers configure different components for the device. In particular, the documentation can then be implemented between the third-party providers and the manufacturer using the distributed ledger technology.

Furthermore, it has proven to be advantageous if, as a function of the ontology and the rules, at least one requirement for the component and a configuration property of the component and documentation for the component and dependency artifacts of the component are generated as specifications. In particular, the configuration process therefore begins with the definition of an ontology and the correlated rules that are relevant for the behavior of the component to be developed. These building blocks form the basis for the requirements, the configuration, the product documentation and the dependency artifacts. These artifacts / specifications are then in turn an input for a specific engineering process that follows.

It is also advantageous if the component configured by the third-party provider is back-integrated by the manufacturer using distributed ledger technology. In other words, distributed ledger technology is also used in the handover from the third-party provider to the manufacturer. This means that it can be clearly documented how the configured component was created and transferred. This allows the configuration process to be tracked better. In particular, this can ensure the correctness and reliability of the interfaces and can, for example, be decoupled from the manufacturer's internal development organizations. The same applies if the engineering artifacts that result from the external engineering processes, i.e. the configured components, are reintegrated into the internal management system.

In a further advantageous embodiment, after the manufacturer has released the configured component, an interaction between a user and the released component is documented by means of distributed ledger technology and / or by means of an intelligent contract. In other words, it is planned that the configured component will now be "released". A user of the released component can then document corresponding experiences or corresponding changes to the configured component by means of the distributed ledger technology and transfer this back to the manufacturer. The intelligent contract can also be referred to as a "smart contract".

Another aspect of the invention relates to a configuration system for configuring at least one component for a device for an Internet of Things facility, with at least one electronic computing device, the configuration system being designed to carry out a method according to the preceding aspect. In particular, the method is carried out using the configuration system.

Advantageous embodiments of the method are to be regarded as advantageous embodiments of the configuration system. To this end, the configuration system has objective features which enable the method or an advantageous embodiment thereof to be carried out.

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 and combinations of features mentioned above in the description as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the respectively specified combination, but also in other combinations or alone, without the scope of the Invention to leave.

• 1 ein schematisches Blockschaltbild einer Ausführungsform eines Konfigurationssystems; und
• 2 ein weiteres schematisches Blockschaltbild einer Ausführungsform des Konfigurationssystem.

Show:

• 1 a schematic block diagram of an embodiment of a configuration system; and
• 2 a further schematic block diagram of an embodiment of the configuration system.

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

1 FIG. 3 shows a schematic block diagram of an embodiment of a configuration system 10 . The configuration system 10 in the present case has at least one electronic computing device 12 on. The configuration system 10 is for performing a method for configuring at least one component 14th a device 42 ( 2 ) designed for an internal-of-things facility (not shown). The Internet of Things can also be referred to as the Internet of Things (loT). At the device 42 it can therefore in particular be a loT device. From a manufacturer 16 becomes at least a requirement 28 for at least the component 14th by means of an ontology 18th for the component 14th and rules 20th for the component 14th a third party provider 22nd , 24 , 26th for the Configuration by means of the electronic computing device 16 given.

It is intended that the default 28 using a distributed ledger technology 30th is documented and using distributed ledger technology 30th documented specification 28 to the third party provider 22nd , 24 , 26th to configure the at least one component 14th is transmitted.

It is shown in particular that the specification 28 three third party providers 22nd , 24 , 26th is transmitted. In each case, the distributed ledger technology 30th the default 28 documented. Overall, the entire configuration process is carried out using distributed ledger technology 30th documented. It can be provided here that a first third party provider 22nd , a two third party 24 and a third third party 26th here with the configuration of one component 14th is commissioned.

Furthermore, an internal development process 32 also for the configuration of the component 14th can be used, this also using distributed ledger technology 30th can be documented.

It can also be provided that a software component and / or a hardware component from the third party provider 22nd , 24 , 26th configured. The 1 also shows that the third party provider 22nd , 24 , 26th configured component 14th by the manufacturer 16 using distributed ledger technology 30th is integrated back.

The 1 thus particularly shows the so-called engineering process for connected devices 42 , which can also be referred to as “Connected Devices”, and for connected services, which can in particular be referred to as “Connected Services”. This process begins with the definition of the ontology 18th and the related rules 20th that are relevant to the behavior of the solution to be developed. These modules form the basis for the requirements, the configuration, the product documentation and the dependency artifacts, which are caused by the specification 28 are shown. Corresponding artifacts resulting therefrom 34 are the input for the specific engineering process that follows. Each engineering pipeline / process is made up of two parallel streams. One stream is software-focused, and another stream is hardware-focused. Both streams receive input from the artifact 34 .

At the outgoing interface from the artifact 34 become the external development ecosystems, in other words the third party providers 22nd , 24 , 26th , using distributed ledger technology 30th integrated. This ensures the correctness and reliability of the interface and decouples the internal development organization of the motor vehicle manufacturer 16 from the third party providers 22nd , 24 , 26th who carry out the development process behind this interface. The same procedure is used when the engineering artifacts, in other words the configured component 14th , back into the internal artifact 34 is integrated back.

2 shows a further schematic block diagram of an embodiment of the configuration system 10 . The component is in particular here 14th configured and issued or "released", which is through an issue 36 is shown as an arrow. In the 2 is shown in particular that after the surrender 36 the configured component 14th by the manufacturer 16 an interaction between a user 38 , 40 , in this case in particular from two users 38 , 40 and the released component 14th using distributed ledger technology 30th and / or is documented by means of an intelligent contract. It is shown in particular that a first user 38 as well as a second user 40 the released component 14th uses. It is also shown that after a release 36 an issued component or device 42 the interaction of the user 38 , 40 with the device 42 and a cloud service device 42 is documented.

In particular, shows the 2 how the configuration system 10 those for publication 42 of the artifact 40 and the automatic provision on the configuration system 10 performs. Since the configuration system 10 on one or more open connected ecosystems, which are present by the user 38 , 40 is shown, participates, the associated interactions and processes are carried out on solutions that use distributed ledger technology 30th and possibly also use smart contracts for this use case.

In particular, it is thus shown that both the classic hardware-focused processes can be integrated with the software-focused processes, while the artifacts derived from the software domain 34 also improve the development processes of the component-based domain through integration with diagnostic authoring processes. Furthermore, on the production side, the release management of both the software and the hardware-focused can be integrated into the configuration system 10 integrated, the latter ensuring the basic functionality and correct operation of the connected devices 42 ensures and the former is software-based adds additional flexible and expandable functions.

List of reference symbols

10

Configuration system

12

electronic computing device

14th

component

16

Manufacturer

18th

ontology

20th

regulate

22nd

first third party

24

second third party

26th

third party provider

28

specification

30th

Distributed Ledger Technology

32

internal development process

34

artifact

36

Release

38

first user

40

second user

42

contraption

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• US 2009/0254876 A1 [0003]

Claims (5)

Method for configuring at least one component (14) for a device (42) for an Internet of Things facility by means of a configuration system (10), in which at least one specification (28) for the at least one component is provided by a manufacturer (16) (14) by means of an ontology (18) for the component (14) and rules (20) for the component (14) to a third party provider (22, 24, 26) for the configuration by means of an electronic computing device (12) of the configuration system (10) are specified, characterized in that the specification (28) is documented by means of a distributed ledger technology (30) and the specification (28) documented by means of the distributed ledger technology (30) to the third party provider (22, 24, 26 ) is transmitted to configure the at least one component (14). Procedure according to Claim 1 , characterized in that, depending on the ontology (18) and the rules (20), at least one requirement for the component (14) and a configuration property of the component (14) and product documentation for the component (14) and dependency artifacts of the component (14 ) can be generated as a default (28). Procedure according to Claim 1 or 2 , characterized in that the component (14) configured by the third party provider (22, 24, 26) is back-integrated by the manufacturer (16) by means of the distributed ledger technology (30). Method according to one of the preceding claims, characterized in that after the configured component (14) has been released (36) by the manufacturer (16), an interaction between a user (38, 40) and the released component (14) by means of the distributed Ledger technology (30) and / or is documented by means of an intelligent contract. Configuration system (10) for configuring at least one component (14) for a device (42) for an Internet-of-Things facility, with at least one electronic computing device (12), the configuration system (10) for performing a method according to one of the Claims 1 to 4th is trained.

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