WO2007113173A1

WO2007113173A1 - Data network, network nodes and method for computer supported integration of a network node in a distributed data network

Info

Publication number: WO2007113173A1
Application number: PCT/EP2007/052930
Authority: WO
Inventors: Thomas Baumgarth; Holger Dittberner; Konstantin Keutner; Henning Sanneck; Lars Christoph Schmelz
Original assignee: Siemens Aktiengesellschaft
Priority date: 2006-03-29
Filing date: 2007-03-27
Publication date: 2007-10-11
Also published as: DE102006014590A1

Abstract

The invention relates to a method for computer supported integration of a network node (2) in a distributed data network (1), comprising a number of network nodes (8), each arranged in a fixed position. According to the method, configuration data is stored as planning data for the data network (1) for each extant network node (8) and/or each network node (2) for integration, along with at least one first position variable (X1) with determination at least one second position variable (xneu; yneu) on arrangement of the network node (2) for integration in the fixed position thereof. The configuration data for the network nodes (2) for integration are determined from the at least one second position variable by carrying out a comparison with the planning data. The determined configuration data is then used for configuration of the network node (2) for integration.

Description

description

Data network, network nodes and methods for the computer-aided integration of a network node into a distributed data network

The invention relates to a method for the computer-aided integration of a network node in a distributed data network comprising a plurality of network nodes, which are arranged at a respective fixed position. The invention further relates to a data network comprising a plurality of network nodes, which are arranged at a respective fixed position. The invention further relates to a, in a data network with a plurality of network nodes to be integrated, network nodes.

A data network in the sense of the present invention may be provided by a radio network, a sensor network or the like. be formed. A network node in the sense of the invention represents a base station or a sensor or the like in a data network. The term position is to be understood in the local sense.

The integration of a new network node into a network or changing the position of a network node of a network is associated with a considerable, usually manual, configuration effort on site. In the case of such a manual configuration, a technician installing the network node must make the configuration manually according to predetermined scheduling data. The manual configuration includes i.a. the input or assignment of a (communication) address, additional attributes that uniquely identify the network node, and possibly operating parameters.

In order to avoid a complete manual configuration, the network nodes are preconfigured by the manufacturer as part of the manufacturing process. When arranging such a network node at its fixed position then only a few, a few additional configuration data before Place manually. Although the pre-configuration on the part of the manufacturer reduces the on-site effort, this procedure has the disadvantage that the network node can only be arranged at a certain one of the specified positions. An arrangement at a different, fixed position, however, is not possible because the preconfigured data does not match the corresponding position.

Auto-configuration methods can help to reduce the configuration effort by retrieving the configuration data for the new or localized network node from a database containing scheduling data, which includes configuration data for the network node to be installed. Such auto-configuration methods may e.g. the

Use standard DHCP (Dynamic Host Configuration Protocol) or similar protocols. The DHCP standard allows the network node to dynamically assign an Internet Protocol (IP) address and other configuration parameters to a network-connected network using a configuration computer attached to the database. DHCP enables the integration of a new network node into an existing data network without further configuration. Thereby an Internet-specific identifier, e.g. the so-called MAC (Media Access Control) address or the so-called UUID (Universally Unique Identifier), used to identify the network node. These identifiers designate a particular physical network node.

The use of an auto-configuration method requires the provision of planning data for the data network for each existing and each network node to be integrated, with the scheduling data, in addition to the configuration data for the network nodes concerned, requiring the associated unique physical identifier. This also has the disadvantage that the assignment of the unique identifier to the configuration data which is specific to a fixed are positioned that disallow placement of a particular network node at a different location.

The consideration of the position of the network node in the configuration is therefore of great importance, since the configuration data in addition to radio parameters and frequencies, e.g. also include neighborhood relationships (e.g., for a so-called hand-over) and specific data regarding the orientation of the antenna of the network node. The location of a network node that is configured for a first specified position at a second predetermined location may cause malfunction during the operation of the network node and even the data network.

It is therefore an object of the present invention to provide a method for computer-aided integration of a network node in a distributed data network, which allows a simple and cost-effective integration of the network node in the data network and does not have the disadvantages described above. It is a further object of the present invention to provide a data network and a network node which can be integrated in the data network, which network facilitates the integration and configuration of the network node.

This object is solved by the features of the independent claims. Advantageous embodiments will become apparent from the dependent claims.

The invention is based on the knowledge of not identifying a network node on the basis of a unique identifier assigned to the hardware, but instead to use at least one location variable as a unique identifier.

The inventive method for computer-aided integration of a network node in a distributed data network comprising a plurality of network nodes, each arranged at a predetermined position, comprises the following Steps: As planning data for the data network, configuration data and at least one first location variable are stored for each existing network node and / or each network node to be integrated. In the arrangement of the network node to be integrated at least one second location variable is determined at its predetermined position. The configuration data for the network node to be integrated are determined on the basis of the at least one second location variable by performing a comparison with the planning data. Finally, the determined configuration data are used to configure the network node to be integrated.

The first and / or second location variables may, for example, be coordinates in an arbitrarily spanned coordinate system. The location variables may, in particular in the case of the second location variables, be represented by geocoordinates, i. be formed by long and latitudes. If the data network is arranged in a building, then the first and / or second location variables can also represent position data defined therein according to a separate scheme.

While the at least one first location variable is determined as part of a planning process of the data network, the at least one second location variable is located at the actual location of the network node "on-site", e.g. by a

Measurement or a calculation method, determined. Knowledge of the planned first location variable and the actual second location variable enables automated, computer-aided integration of the network node into the distributed data network. In this case, it is no longer particularly significant which physical network node is arranged at which position of the data network. For example, only a certain type of network node, which is characterized by certain hardware properties, must be taken into account. The input of manual data during the integration and configuration process is unnecessary. The process is therefore extremely cost-effective, effective and applicable. friendly. It allows the complete automatic configuration of a network node.

According to a first variant of the method according to the invention, an immediate determination of the at least one second position variable is carried out by a means for determining position data, the means being an integral part of the network node or being connected to it for transmission to the network node or the latter Medium output data are entered into the network node. According to this first variant, this is a direct determination of the second location variables. The second location variables can be determined, for example, by a GPS (Global Positioning System), the planned Galileo system or a GLONASS receiver, which is the Russian equivalent to GPS. Such a receiver can be an integral part of the network node. It may also be provided to temporarily connect such a receiver during the installation to the network node to be integrated, in order to enable transmission of the second spatial variable (for example in the form of long and latitudes) to the network node. If such a connection is not possible, it may alternatively be provided to manually enter the data output by the means into a corresponding interactive means of the network node or an interactive means assigned to the network node (for example a computer connectable to this network node). The connection of such a means for determining the position data can be wireless or wired.

According to a second variant of the method according to the invention, the determination of the at least one second position variable is carried out by using a unique identifier, e.g. the MSISDN (Mobile Station International Subscriber Identification Number) of a mobile terminal, an indirect determination of at least one second location variable is made.

The network node to be integrated is in particular, with or after its arrangement at its fixed position communication subscriber of a communication network, which transmits its unique identifier to the communication network, which uses the identifier to determine the at least one second location variable by means of triangulation or other location determination methods. The unique identifier is used in this variable for identification and localization of the network node to be integrated. The determination of the at least one second location variable can be done, for example, by a network location service of the communication network. The communication network can be, for example, a mobile network based on the GSM / GPRS or UMTS standard.

The communication network is thus to be distinguished from the data network into which the network node is to be integrated. The data network represents a so-called operation and maintenance network, which is necessary for controlling the network nodes by the operator of the communications network. The data network can use the same hardware components as the communication network, but this does not necessarily have to be the case.

In another embodiment of the second variant of the network node to be integrated with or after its arrangement at a specified position communication participants of a communication network, the network node transmits its unique identifier to the communication network, the presence of the network node to be integrated in a field of action of a communication subscriber of the communication network whose location variables are known detected. Such a configuration lends itself, for example, to sensor networks. The determination of the second position variable can be carried out, for example, by one or more RFID (Radio Frequency Identification) network nodes of the data network by registering the entry of the network node to be integrated into its effective field and issuing a corresponding message. The network nodes of such a data network can also be formed by what are known as infrared signal stations (infrared beacons), for example within buildings. The determination of the at least one second location variable is fundamentally unique in the integration of the network node to be integrated into the data network and is only repeated if a position change of the network node is present.

Furthermore, it is provided that the at least one, second position variable is transmitted to a configuration computer of the data network for performing the comparison with the planning data. If the address of the configuration computer is known to the network node to be integrated, then the data can be transmitted directly to the configuration computer. If the address of the configuration computer is not known to the network node to be integrated, the transmission of the at least one second location variable can take place using a broadcast channel.

For reconciliation with the planning data, the configuration computer checks for a match between the first and second location variables and, in the event of a match, provides the configuration data associated with at least one first location variable for further processing. A match between the first and the second position variable is according to the invention if they are identical and / or deviate from each other in a previously specified range. This is advantageous since in the preparation of the planning data and the deposit of the first location variable frequently no measured data can be used, but the stored first location variable is based on a calculation or even only on an estimate. The embodiment ensures that a match between the first and the second location variables can be established, whereby the transmission of the configuration data to the network node to be integrated becomes possible.

It is further provided that at least the configuration data determined by the configuration computer is sent to the home tegrierenden network nodes are transmitted. In addition to the configuration data, it is also possible, for example, to transmit complete software code sections or programs which enable the operation of the network node to be integrated. In the extreme case, the network node to be integrated in the delivery state only needs to have a routine for transmitting the unique identifier or the at least one second local variable. Thus, the configuration effort of a network node during its production is minimal.

The invention also encompasses a data network which comprises a multiplicity of network nodes which are each arranged at a fixed position in which configuration data and at least one first location variable are stored as planning data for the data network for each existing network node and / or each network node to be integrated. The data network is further configured to determine at least one second location variable in the arrangement of a network node to be integrated into the data network if the network node to be integrated is arranged at its fixed position; determine the configuration data for the network node to be integrated on the basis of the at least one second location variable by performing a comparison with the planning data; and to use the determined configuration data to configure the network node to be integrated.

In this case, the same advantages are associated as have been explained above in connection with the method according to the invention.

The invention further comprises a network node to be integrated in a data network with a multiplicity of network nodes, which is designed to determine at least one second location variable when the network node to be integrated is arranged at its predefined position; to transmit the at least one second location variable to the data network; to receive the configuration data associated with the second location variable and to use it for (auto) configuration of the network node to be integrated.

The invention further comprises a network node to be integrated in a data network with a multiplicity of network nodes, which is designed to transmit a unique identifier associated with the network node to a communication network if the network node to be integrated is connected to it Position is arranged, wherein from the identifier at least a second location variable is mediate; to receive the configuration data associated with the second location variable and to use it for (auto) configuration of the network node to be integrated.

The invention further includes a computer program product that can be loaded directly into the internal memory of a digital computer and software code sections that perform the steps of any one of the above-described method claims when the product is run on a computer.

The invention will be explained in more detail with reference to the figures. Show it:

1 is a schematic representation of a data network in a coordinate system, based on the underlying method of the invention is explained,

Fig. 2 shows a first exemplary embodiment of a sequence of the inventive method, and

Fig. 3 shows a second exemplary embodiment of a sequence of the inventive method. FIG. 1 shows a multiplicity of network nodes 8 of a data network 1 in an xy coordinate system which is merely an example of a Cartesian system. Nodes designated by the reference numeral 8 represent already existing network nodes of the data network 1, which are coupled together at least in part for the purpose of data exchange. A designated by the reference numeral 2 network node, which is illustrated in the figure illustratively with a broken line, is to be integrated into the data network 1 network node.

The data network 1 may, for example, be a so-called operation and maintenance network, which serves to control the individual network nodes 8. The network nodes 8 represent, for example, base stations of a radio network, which are used to establish a communication connection to, not shown in the figures, terminals. The network nodes 8 can also be sensors in a sensor network, which are distributed, for example, over a building or a production hall.

In order to be able to ensure the intended functioning of the data network 1, each of the network nodes 8 is arranged at a fixed position. The fixed position is characterized by a first position variable X ₁ , which in the present exemplary embodiment comprises the coordinates X ₁ , γ _{± of} the coordinate system. The first location variable X ₁ , where i stands for the specified position, is determined as part of the creation of a network plan, which includes the location variable X ₁ as the planning data in addition to the configuration data of the network nodes. Since the coordinates X ₁ , y _{± of} the first spatial variable X _{1 are} not determined on the basis of a measurement at the specified location but based, for example, on an estimation or a "map", the data have a certain fuzziness.

In the integration of the network node 2, on the other hand, a second position variable X is _newly determined, which result of a measurement is at the specified position of the network node to be integrated, or is derived from an indirect provision. The coordinates x _new , Y _n eu determined here are used to determine the configuration data required for this specific position. The identification of the network node 2 to be integrated thus does not take place by an identifier which is assigned to the hardware of the network node 2, but rather by the second location variable X _new •

This procedure is advantageous because the configuration data for a network node are position-related, but not hardware-related. The configuration data include e.g. Radio parameter frequencies, but also neighborhood relationships to neighboring network nodes and specific data regarding the orientation of the antenna of the network node. The configuration data are thus at least partially specific to a specific position of a network node in the data network 1.

In the subsequently described FIGS. 2 and 3, the procedure for the computer-assisted auto-configuration of the network node 2 into the data network 1 will be described in detail. Only those components which are necessary for carrying out the method are shown in the figures.

In Fig. 2, the network node 2 is coupled to a means 5 for determining position data. "Coupled" means that there may be a wired or wireless connection to the network node 2. However, the term also includes that the means 5 is an integral part of the network node 2. Likewise, a manual input of determined by the means 5 position data, which correspond to the second location variables to be included.

The position data determining means 5 may be provided by a GPS (Global Positioning System) receiver, a Galileo receiver or a GLONASS receiver or the like. educated be. All of the listed recipients provide latitude and longitude of a geoposition as the second location variable.

The second location variable determined by the means 5 is transmitted to the network node 2 (step 10). The network node 2 transmits the second location variable to a configuration computer 3 (step 12). If the network node 2 knows the address of the configuration computer 3, the transmission can take place directly on it. If the address of the configuration computer 3 is not known, then the transmission of the second location variable can take place using a broadcast channel. If necessary, the transfer takes place with reference to the network node located in the data network 1.

The configuration computer 3 is in turn coupled to a database 4 (in general: memory). The database 4 contains planning data for the data network 1 for each existing and each network node to be integrated. The scheduling data comprise configuration data and a first location variable associated with the configuration data, which represents the fixed position of the network node. Upon receipt of a message of the network node 2 to be integrated, which comprises the second location variable, a comparison is made with the planning data contained in the database 4. Specifically, in this case, a data record is sought which has a correspondence of the first position variable with the second position variable. Such a match may exist if the first and second location variables are identical or have a blur in a predefined area.

After finding a corresponding data set, at least the configuration data are transmitted to the network node 2 (step 16). Possibly. even program parts or entire programs can be transmitted to the network node 2. The configuration computer 3 can replace the first location variable by the second location variable in the planning data and thus update the planning data. With the procedure described an auto-configuration of the network node 2 is possible.

The method according to the invention can also be modified such that the configuration data found by the configuration computer 3 and assigned to the network node 2 are output on a computer and used by a technician for the manual configuration of the network node 2.

The method described in FIG. 3 for the configuration of the network node 2 basically proceeds in the manner described above. However, a difference exists in the determination of the second position variable, which takes place in the exemplary embodiment of FIG. 3 in an indirect manner. The means for determining position data 5 may be formed in this embodiment by a Mobilfunkendgerat which a unique identifier, e.g. an MSISDN (Mobile Station International Subscriber Identification Number) is assigned. The means 5 can in turn be an integral part of the network node 2 or one of them separately present device.

The means 5 is a communication subscriber of a communication network 6, which may be, for example, a GSM (Global System for Mobile Communications) / GPRS (General Packet Radio Service) or UMTS (Universal Mobile Telecommunications System) mobile radio network. In communication networks of this kind, the determination of the second spatial variable is possible by triangulation or other location determination methods.

The procedure here is as follows: the means 5 for determining position data transmits a unique identifier to the network node 2 (step 20). The network node 2 transmits a message with the unique identifier to the configuration computer 3 (step 22). The transmission can, as described in connection with FIG. 2, to direct Or via a broadcast channel. The configuration computer transmits the unique identifier to the communication network 6 (step 24) which is capable of triangulating the position of the means 5 (step 26). The indirectly determined position is transmitted as a second position variable to the configuration computer 3 (step 28). In addition, the configuration computer 3 performs a comparison of the second location variables obtained with the data records stored in the database 4 in order to determine the configuration data for the network node 2 (step

30). If a match could be found between the second location variable and a first location variable in the planning data of the database 4, the configuration data can be transmitted to the network node 2 for auto-configuration (step 32).

The determination of the second spatial variable by means of triangulation is merely one exemplary embodiment of an indirect determination of the spatial position. Thus, the determination of the spatial position can also take place in a data network in which the network nodes are designed as RFID (Radio Frequency Identification) transmitters / receivers, by the existing network nodes themselves. In this case, the entry of a new network node to be integrated into one or more active fields of existing network nodes is determined. Since the location positions of the existing network nodes are known in the data network, so that the position of the network node to be integrated can be determined.

A corresponding procedure is possible if the network nodes are designed as so-called infrared signal stations (infrared beacon).

Claims

Patent claims

1. Method for the computer-aided integration of a network node (2) into a distributed data network (1), which comprises a large number of network nodes (8), each of which is arranged at a fixed position, in which planning data for the data network (1) is used for each existing network nodes (8) and/or each network node (2) to be integrated are stored: — configuration data, and at least one first location variable (X ₁ ); when arranging the network node (2) to be integrated at its fixed position, at least one second location variable (x _new ; Y new) is determined; - the configuration data for the network node (2) to be integrated is determined based on the at least one second location variable by carrying out a comparison with the planning data; and the determined configuration data are used to configure the network node (2) to be integrated.

2. The method according to claim 1, characterized in that a direct determination of the at least one second location variable (x _new ; Y _n eu) is carried out by a means (5) for determining position data, the means (5) being an integral part of the Network node (2) is or is connected to the network node (2) for the purpose of transmission or the data output by the means (5) can be entered into the network node (2).

3. Method according to one of claim 1, characterized in that the at least one second location variable is determined by making an indirect determination of the at least one second location variable using a unique identifier.

4. The method according to claim 3, characterized in that the network node (2) to be integrated becomes, with or after its arrangement at its specified position, a communication participant of a communication network (6), which transmits its unique identifier to the communication network, which is based on the identifier which determines at least one second location variable using triangulation.

5. The method according to claim 3, characterized in that the network node (2) to be integrated becomes a communication participant of a communication network (6) with or after its arrangement at its specified position, the network node transmitting its unique identifier to the communication network that Presence of the network node (2) to be integrated is detected in an effective field of at least one communication participant of the communication network, whose location variables are known.

6. The method according to one of the preceding claims, characterized in that the determination of the at least one second location variable is basically carried out once when the network node to be integrated is integrated into the data network (2) and is only repeated if there is a change in the position of the network node is present.

7. Method according to one of the preceding claims, characterized in that the at least one second location variable is transmitted to a configuration computer (3) of the data network in order to carry out the comparison with the planning data.

8. The method according to claim 7, characterized in that the configuration computer (3) checks whether the first one matches the planning data and the second location variable, and if a match is found, the configuration data assigned to at least one first location variable is provided for further processing.

9. The method according to claim 8, characterized in that there is a match between the first and the second location variables if they are identical and / or deviate from each other in a previously specified range.

10. The method according to one of the preceding claims, characterized in that at least the configuration data determined by the configuration computer (3) is transmitted to the network node (2) to be integrated.

11. Method according to one of the preceding claims, characterized in that the first and/or the second location variables are geocoordinates.

12. Data network (1), which comprises a large number of network nodes (8), each of which is arranged at a fixed position, in which planning data for the data network (1) is used for each existing network node (8) and / or each integrating network nodes (2): configuration data, and at least one first location variable (X ₁ ); wherein the data network (1) is further designed to determine at least a second location variable (x _new ; Ynew) when a network node (2) to be integrated into the data network (1) is arranged, if ^the network node (2) to be integrated is arranged in its specified position; the configuration data for the network node (2) to be integrated based on the at least one second location variable able to be determined by comparing them with the planning data; and to use the determined configuration data to configure the network node (2) to be integrated.

13. Data network according to claim 12, characterized in that

1. Method for the computer-aided operation of a communication network, which comprises a first terminal (1), a second terminal (2) and at least one third terminal (3) as a network node (30), the terminals (1, 2, 3) being mobile and / or represent stationary network nodes (30), in which a communication connection (7, 8) between the first terminal (1) and the second terminal (2) is established via at least one bridge node (6), a selection process being carried out in which it is determined which or which of the third terminal devices (3) are to be used as bridge nodes (6), the selection process taking into account context information with which certain parameters of the potential communication connection (7, 8) can be mapped. this is further designed to carry out the method steps according to one of claims 1 to 19.

14. A network node to be integrated in a data network (1) with a large number of network nodes, which is designed to ^determine at least a second location variable (x _new ; Y new) when the network node (2) to be integrated is arranged at its specified position becomes; to transmit the at least one second location variable to the data network; to receive the configuration data assigned to the second location variable and to use it for (auto) configuration of the network node (2) to be integrated.

15. Network node to be integrated in a data network (1) with a large number of network nodes, which is designed to - a unique identifier assigned to the network node to be integrated to a communication network to be transmitted when the network node (2) to be integrated is arranged at its specified position, at least one second location variable being able to be determined from the identifier; - to receive the configuration data assigned to the second location variable and to use it for (auto) configuration of the network node (2) to be integrated.

16. Computer program product that can be loaded directly into the internal memory of a digital computer and includes software code portions that carry out the steps according to claim 1 when the product is running on a computer.