DE19812901A1 - Computer network, esp. a WAN, with data or communications transmission systems, e.g. workstations and/or server stations - Google Patents

Abstract

The network has data or communications transmission systems, e.g. workstations and/or server stations, for exchanging data at spatially separate locations connected to a data network, esp. a cable network and each with a terminal system identifier allocated to the data terminal system (6-9) or the local operator. The identifier can be transmitted from the data terminal system via the data network (10) to another data terminal system. A data network connection unit (11-14) for the data terminal system or another installed data transport unit contains a source of a location identifier different from other identifiers in the data network or an identifier communications unit with a fixed connection to an external source, whereby at least the source is permanently connected to the data terminal system's installation location

Description

The invention relates to a computer network with data end system men, in particular workstations and / or server stations, according to the preamble of claim 1.

In such computer networks, the data end systems are used Processing and exchange of data, especially at so-called "wide-area networks" (WANs), at spatially wide installed to very distant locations. The stations connected to a data network, their Communication of course also via satellite or other communication paths including radio paths can be done in many cases, each have an Ar data station or data processor assigned to a processor system identification, which is sent from the workstation to the Data network to another workstation or to one central server is transferable - this information leaves but no statement about where on the computer network an end system is actually geographically located. A Such knowledge is important, however, if a Repa or change the hardware of the station take is. These cannot be - as with for example, a service on the software - via the network from a distance.

Because in the event of a hardware failure, a service technician himself on the way to the station in question, it is desirable that their installation location at other Sta network - especially the one from which the technician sets off - is known. Straight with larger networks it happens that from organi entire departments with their data management  move work equipment to other buildings without it to the technical departments responsible for their maintenance are constantly known. The lack of knowledge of the ak has current locations where the end systems are located considerably avoidable additional purchases by unnecessary routes turns. The planning of moves can also ef effective only if the locations of the respective systems are known.

The invention is therefore based on the object To specify the network of the type mentioned at the beginning, which has the ability to know the current location of a da to reliably determine the tenend system.

This task is based on a computer network the preamble of claim 1, characterized in resolved part of this claim specified features.

The invention includes the technical teaching that the Fixed network connection for the data end system of right place for an indirect or immediate Is a donor for a localization identifier that is associated with the data end system and from this together with the Ken end system is transferred to the network.

(As "data end systems" in the sense of the invention here understood in all data processing systems which are removable by the user - on the one hand from the loading users are reachable and on the other hand a detachable Have an interface to the data network. This includes for example, hubs and departmental computers to which still additional hardware is connected. The term data end systems should also include communication end systems  include which more the transfer of data and Aim to process information as its processing.).

In the computer network according to the invention with means for au automatic collection and maintenance of localization data of data end systems become localization and end systems Master data linked to the goal, a precise overview about the locations and the relocation of any Ob to receive projects or data end systems and this information tion for further processing purposes with funds from the Da to provide processing.

The solution according to the invention thus consists of a system with three to four logical functional units:

• a) an external encoder for the localization identifier in the form of localization data which only are available with the data end system.
• b) an encoder for the user or station identifier as end system data as unique end system data or user identification as well
• c) a mixing and converting unit for the localization ons data and end system data, which in or at the end system to be monitored or in the external encoder for which localization data are arranged. In order to the information from a) and b) are combined leads, evaluated and be for further processing provided. They receive a data format which is a passing of the from a) and b) together formed information in the direction of the data network.  
• d) optionally a decoding unit in the event of a monitoring station at which the data transmitted by the network a) and b) delivered and assembled by c) Information "decrypted", i. H. in plain text information regarding the type and location of each End system are transferred. This decoding unit can be used as a database like a "look-up table" in the way to be organized as a store that the end system data and the localization data in each case in egg A table is available which contains the plain text address holding look-up table (so-called "Mapping"). This can affect the user the information currently displayed or for follow-up work in automatic evaluations or status stiken can be used.

The two existing solutions go there from that the localization information in any case is picked up by the data network connection. Thereby exist then the two possibilities that on the one hand the Lokali station ID to the connected device is there to be a common with the device identification a protocol-compliant data record the one that can be transmitted over the network. In the other In this case, the end system identifier comes from the end system for data network connection. In both cases, the condition is that no foreign from the network side of the data network connection Localization or device identification in the process of Generation of the double information from the above-mentioned identifier reached. This can be done by appropriate filtering or Se lesson can be prevented.  

For this, separate connecting lines or commun cation channels between localization provider and data end system stem or suitable filters or switches used which are synchronized with the delivery of a localization code interrupt the data connection to the entire network. Le only the connection to the respective data end system so far remains. The localizer must do this at the installation site, for example using a so-called ten "tank unit" must be firmly anchored.

Data connection units with network functionality under maintain direct communication relationships with monitoring end system via standardized network pro tokolle. Transitions (LAN, WAN, MAN) within the solution systems are for the functioning of subordinate Meaning.

The data network connection unit and / or the encoder for the Localization identifier in particular has means for local Most connection with a part of the building or another stationary element. Such safeguards are preferred safety-critical elements only with a special plant open stuff.

In a preferred embodiment, the localization give a wireless transmitter adapted to one in the Da tennetzanschlußeinheit provided receiver as a trans unit for the localization identifier.

Under data network (port) connection here is a possibility understood the location information for example via a serial, parallel or universal serial len bus (USB) or another information input to the  To provide data end system. The functional group can be sent to the data end system as one from the outside unit to be connected as well as internally, d. H. at for example on the motherboard or the network card be implemented by PCs.

In a further advantageous embodiment keep localizers did not have direct communication relations with the monitoring station. Then only the data end system information from the localization provider retrieve (unidirectional and bidirectional) or save (bidi rectional) and convey to the monitoring station.

The fixed solution is decisive for the effectiveness of the solution Connection of the connection kit to the tank connection. Only like that it is ensured that when moving the network component the connection kit does not pull what the unique Loka was made impossible. The connection kit is like this to be considered as part of the cabling technology, not as part of the network component.

The required tank adapter is therefore open that he builds the cable connector that normally connects to a easily separate the small plastic tongue from the tank connection is completely encapsulated. He himself takes over as a connector the function of data transmission. So that he doesn't feel like that can be easily separated from the tank connection like the original Ka connector, is the loosening of the connection by a spe provide specific locking mechanism that only with one Special tool is operable.  

Without the appropriate cable, the tank adapter is suitable as Blind plug, which prevents the tank connection without the connection kit is used.

A data box contains data about the location of the Network component that is read using the client software can be. It is connected via a parallel len, serial or universal serial bus (USB) - Connection of the network component. On the back of the da tenbox the same interface is provided so that the connection of the network component not through the data box is blocked. The data transfer to connected Devices (printers or similar) are passed on transparently.

With regard to corresponding further developments, the following points are particularly advantageous with the present invention:
The solution can be implemented at short notice and can be used independently of network protocols.
When using energy-saving components, the extended data network connection units do not require their own power supply, since the supply can then come from the data network.
Network components without a standard operating system can also be managed.

Other advantageous developments of the invention are in the subclaims or are identified below along with the description of the preferred embodiment the invention with reference to the figures. It demonstrate:  

Fig. 1 as a preferred embodiment of the invention a computer data network, which is provided with the measures according to the invention,

FIG. 2a is a block diagram of a first variant of a detail of the embodiment of Fig. 1 with the invention the respective portions of a data terminal system with a network connection,

Fig. 2b is a block diagram of a second variant of a detail of the embodiment of FIG. 1 with the parts of a data end system with network connection and the invention

FIGS. 3a and b show two perspective views of embodiments of un terschiedlicher measures accelerator as the invention, data network connections provided.

In the example shown in Fig. 1 computer network 1, various data are end-systems 6 to 9 spaced apart vorgese hen at different installation locations 2 to 5.

The data end systems 6 to 9 , which preferably form workstations or server stations, are connected to a data network 10 , via which the data exchange takes place, via data network connections 11 to 14 designed as floor tanks. In the data network connections 11 to 14 , localization transmitters shown below are provided as transmitters for a unique localization identifier, which contains information about the location of the station.

In the block diagram shown in FIG. 2a of a first variant of a data end system provided with the parts relating to the invention, a data processing system 7 is shown schematically. In addition to a conventional processor system 21 which is combined into a single block, this device 7 is intended to represent the elements and assemblies provided in the housing of a PC, including local peripherals such as a screen, keyboard and printer, with the relevant hardware and software. Connected to this processor system 21 is a network interface 22 , which connects to the data network 10 via a data network connection unit 12 . The network interface 22 is controlled by the processor system 21 in such a way that the data is transmitted over the network in accordance with the protocols provided in the network.

A sensor 23 for the localization data LD stores the information provided by the donor provided in the nearest data network connection unit 12 for this localization data and forwards it to a converter 24 , which stores this data in order to be assigned to it from a memory 25 for one of the Station or the end system identifier ED assigned to a processor in a to transmit this data as localization data LD originating from a specific station in a suitable protocol at predetermined times or on request via the closest data network connection unit 12 to other data terminal systems connected to the computer network. The summarized or appropriately transmitted to localization and end system data (LD + ED) are summarized in a protocol which is suitable for the transmission of data on the network and differ in this respect from the pure localization or end system data LD and ED.

The data network connection unit 12 has a control part 26 which controls the data flow between connected data end system 7 and data network 10 by inserting its location data. For this purpose, an encoder 27 is provided for the localization data, which contains the localization data permanently set or specified in some other way.

In a variant, the localization data can also be received and implemented by a nearby fixed transmitter 20 . In this case, the localization transmitter 27 is designed as a corresponding receiver that does not originally contain the localization data. Instead, these are included in the transmitter. As part of this results in particular that the data network connection units can be designed uniformly among themselves. It is of particular importance in the embodiment variant shown that the localization data are only output by the data network connection unit 12 in the direction of the data end system connected to it. Since the localization data as such are "shielded from the network". This can be done by suitable time or frequency filtering, switches or other measures that prevent the localization data from spreading to the network. Correspondingly, additional filter measures can be used to prevent localization data that is incorrectly interspersed in the network and that is generated at a remote location from reaching the data end system 7 via the data network connection unit 12 . This filtering or shielding 29 is shown in FIG. 2a with a dashed line.

As a localization transmitter come in question, the over Radio, infrared or sound waves the localization data transmitted to the data network connection unit. In contrast to the floor tank solution which is a differentiated system Localization is possible because each connection is identified individually can be certified, the latter variant is based on a common location information for several in nearby data end systems limited. The Loka lization sensors are shielded against each other, so that Multiple assignments of a data end system to several lo calibrators are not possible.

In Fig. 2a, the rest of the data to be transmitted in the network are denoted by D and are transported in the usual way between the data end system 7 and network 10 via the data network connection unit 12 . The bracket DV _int summarizes the existing data traffic between data end system 7 , while the bracket Dv _ext does the same for data traffic between data network connection unit 12 and data network 10 .

In the block diagram shown in FIG. 2b of a second variant of a data end system 8 provided with the parts relating to the invention, a conventional processor system 21 is also combined into a single block. A network interface 22 is connected to this processor system 21 , which in turn establishes the connection to the data network 10 via a data network connection unit 13 . The network interface 22 is also controlled by the processor system 21 in such a way that the data is transmitted over the network in accordance with the protocols provided in the network.

The data network connection unit 13 has a control part 26 which controls the data flow between connected data end system 8 and data network 10 by inserting the data end system and localization data (ED + LD). For this purpose, a transmitter 27 for the localization data is also provided, which contains the localization data permanently set or specified in some other way. In a variant, the localization data can also be received and implemented by a nearby fixed transmitter 28 .

In contrast to the embodiment shown in FIG. 2a, the end system data ED generated by the data end system 8 with the localization data LD summarizing converters 24 'in the data network connection unit 13 are combined to form the combined end system and localization data (ED + LD) and on that Submitted network.

It is of particular importance in the embodiment variant shown here that the end system data are received by the data network connection unit 13 only from the connected data end system 8 . In this way, the end system data is "kept away from the network" as such. This can also be done by suitable filtering, time selection, switches or other measures that prevent the end system data from spreading to the network. Correspondingly, additional or the same filtering measures can additionally be used to prevent end system data ED which is erroneously interspersed in the network and which does not reach the data network connection unit 13 . Furthermore, beyond the data network connection unit 12 , no end system data ED can reach the external data network connection unit. This filtering or shielding 29 'is shown in dashed lines in Fig. 2b Darge. In FIG. 2b, the rest of the network data to be transmitted are also referred to with D and transported in a conventional manner between Datenendsystem 8 and network 10 via the data network connection unit 13.

While the pure localization data LD can only be communicated between the data end system and the data network connection unit in the embodiment according to FIG. 2a, it is the pure end system data ED in the embodiment according to FIG. 2b. Only the complete data sets (LD + ED) can be freely transferred to the data network. This prevents erroneous combinations of end system data and localization data from being generated, which would simulate an incorrect device location.

By means of a data analysis in the monitoring system, one is Plausibility check of localization data and data end system data possible, as with inventory data is comparable. This enables data to be made available for: statistical analyzes, inventories, the network, Cable and system management as well as security applications.

Connection to increase security are favorable side additional constructive hardware measures (at for example enabling the tank unit to be opened exclusively by a key or a special plant stuff) or software solutions, such as the Need for a password query like the one for code  locks and other secured access becomes.

With "tank unit" is here in the floor or on the wall referred to connection unit on which the data end system connected to the local network by cable is. Generally are within this Unit four structured connected sockets, the one and for various services (e.g. telephone and LAN) are usable.

Available tank units can be used for this, which by an inserted localizer or egg a receiver for a nearby one brought localization transmitter be supplemented.

The first solution is based on the use of existing ones Floor tank techniques. To the desired functionality to achieve an additional localization provider Module required that with an appropriate adapter is firmly connected to the floor tank and only with a special factory stuff to be solved. The data end system is only indi rect, d. H. via the localizer, with the floor tank connected.

A simple localizer consists of a simple Chen electrical or electronic component, which on request of the data end system its localization data returns. This can be a simple one, for example electrical resistance, an oscillating circuit or another be electronically queried read-only memory.

Examples of function groups defined by Signal values that are only available during production or commissioning  me the unit are changeable, is determined, are at for example clocks, resistors and constant voltage or current transmitter.

Exemplary embodiments of port connections are shown in FIGS . 3a and b. In the embodiment shown in Fig. 3a Darge designed as an adapter plug (adapter) 30 to a tank connection data network connection is a Western socket 31 for receiving the connection cable to the connected terminal and a We star plug 32 for connection to the permanently installed Data network connection provided. Inside the electronics nikteil 26 '(see. Fig. 2a or 2b) is shown in dashed lines Darge. In order to ensure that the adapter containing the transmitter for the localization identifier remains in a fixed location at the intended location, the nose 33 is shortened so that it cannot be reached manually. Removal of the adapter 30 is therefore only possible with a special tool.

Another solution is shown in Fig. 3b. The floor tank 34 shown there has an electronics part 26 'having insert 35 with Western socket and Kabelan circuit 36 . When mounted on a building part Tankan circuit 34 , flanges 37 and 38 , which serve for its fastening, are covered, so that removal is not possible or only with difficulty.

The invention is not restricted in its implementation to the preferred embodiments given above games. Rather, a number of variants are possible which of the solution shown also in principle makes use of different types.

Claims (5)

1. Computer network with data or communication end systems such as workstations and / or server stations, which are connected to a data network, in particular data cable network, for processing and exchanging data at locations spatially distant from one another, and each have a respective data end system or have an end system identifier assigned to a processor working there, which can be transmitted from the data end system via the data network to another data end system, characterized in that
that in a data network connection unit for the data end system or another installed data transport unit, which is passed by data from data end systems to be localized, an encoder for a localization identifier that differs from other localization identifiers in the data network, is provided or a transmission unit for such a localization identifier, which is in a fixed operative connection with an external encoder, at least the encoder being permanently connected to the installation site of the data transmission system;
that either
the localization identifier can be sent from the data network connection unit exclusively to or in the direction of the at least one data end system connected to this data network connection unit and
a transducer for this localization identifier is provided in the data end system, and a converter which converts the localization identifier together with or in association with the end system identifier into a data format suitable for transmission via the data network connection unit and via the data network to another data end system for evaluation transmitted or
In the data network connection unit, a transducer is provided for the end system identifier that is only transmitted from the at least one data end system connected to this data end system, and a converter that converts the localization identifier together with or in association with the recorded end system identifier into a transmission unit for transmission via the data network connection implements a suitable data format and transmits it to another data end system for evaluation via the data network,
that the localization identifier is determined by at least one elec trical parameter of at least one provided in the transmitter for the localization detector or the transmitter forming electrical or electronic component. 2. Computer network according to claim 1, characterized net that the electronic component is a resistor, Resonant circuit, filter, read-only memory or other construction element with defined adjustable output variables. 3. Computer network according to one of the preceding claims che, characterized in that for the limitation of Transmission of the localization identifier or the inclusion of the End system identifier of the data network connection unit on the  closed data end system by transmission to separately assigned lines, time windows, frequency bands or Codes. 4. Computer network according to one of the preceding claims che, characterized in that the data network connection unit and / or the donor for the localization identification agent for a fixed connection with a part of a building or a have another fixed element, which is concealed assigns and / or only with a special tool open or are. 5. Computer network according to one of the preceding claims che, characterized in that the localization provider a wireless transmitter adapted to one in the data network connection unit provided receiver as a trans has unit for the localization identifier.