DE19722477C2 - communication system - Google Patents

Description

The present invention relates to a communication system, especially a communication system with a communica tion system, at least partially by at least one the computer connected to the communication system is controlled becomes.

In contrast to conventional communication systems with egg ner voice or data communication via the voice channels (i.e. the so-called B-channels), it is the the underlying communication present invention system is a system that is based on a computer network zes, d. H. an ethernet, all communication information NEN, such as B. voice or video information or data provides the computer network interfaces.

The communication system comprises a communication system, which is generally used for the transmission of communication information tion between participants in the communication system is seen. In the communication system it can be for example, both about public exchanges and also act as private telephone private branch exchanges. To the Communication systems can therefore be application-specific conventional terminals, such as B. stationary telephone devices or mobile telephone stations (cell phones) and exchange interfaces, z. B. an ISDN interface. The white At least one computer or personal computer is on the communication system connected. advantageously, several of these computers are networked together and over Computer network interfaces to the communication system closed. The connected to the communication system Computers at least partially take on tax tasks for the Control of the communication system. On everyone to the commun Computer connected to the cationsystem is a communication module  implemented, which the user of the computer provides a comfortable communication interface. Furthermore, a control module is implemented on every computer tiert, which for the execution of the corresponding tax task ben is used to control the communication system.

In principle, you can communicate with those on the system connected computers implemented control directions both the actual mediation Operations of the communication system as well as performance features the communication system, which is not for the switching tech nik are needed, control and process. However, since the Switching technology that is used to establish a connection between end devices of the communication system is responsible, must also be operational if one the computer connected to the communication system falls, it is advantageous to communicate via the connected computers were only "secondary" performance to control features of the communication system, which are necessary for the egg generic switching technology are not required. there can be, for example, the number assignment, the au automatic call forwarding, billing or Act control of voice mailboxes. The for the actual che switching technology required basic functionalities are in this case exclusively from communication location itself controlled.

The computers connected to the communication system len decentralized computing capacities for the communication system gene control available. Since there is also a user on every computer application programs, such as B. Word processing programs or the processing of print jobs, is the on every computer in general for the control tasks of Communication system available computer capacity depending on these user requirements. In particular is it is desirable that the user of the respective to the com communication system connected by the computer  Processing of the outsourced communication tasks in his "normal work" is hindered.

With the previously mentioned communication system, the Case occur that the or to the communication system Computer connected for control purposes are, although the resources of the corresponding computer ei occasionally no longer used. This will make the Energy and electricity consumption increased unnecessarily.

From the German utility model DE 295 05 614 U1 a personal computer known that after receiving Te telecommunications data over a telecommunications line remains switched on for a preset period of time. Will not be any more during the preset period The personal computer automatically receives data disabled. Be on the disabled personal computer again Receive telecommunication data, it becomes automatic activated.

The present invention is based on the object a communication system of the type described in the introduction Art to design that the energy consumption of the communicati on system is minimized.

According to the invention, this object is achieved by a communication System solved according to claim 1.

The subclaims describe generally advantageous features Events of the present invention.

As has already been described at the beginning, he owns it communication system according to the invention a communication facility to provide communication information between different Transfer participants of the communication system. To the At least one computer is connected to the communication system sen, the certain control tasks for the control of the communication system  takes over, according to a preferred Embodiment in particular those tax tasks at least one connected to the communication system outsourced computers that are not the actual ones Switching technology for establishing connections between the Affect terminal participants.

Each of these connected to the communication system Calculator is a computer-specific pause time, i.e. H. one like that called power-down time, with the corresponding  Computer in hibernation after this pause time, d. H. a power-down state is to be driven if by no further action on the computer within this period emanates. Monitoring means monitor after an action computer connected to the communication system Expiry of this pause time and cause the deactivation, d. H. the shutdown of the corresponding computer, if after an action by the computer during this pause ne further action of the computer has been carried out. If no computer within this deactivation period further action, this is interpreted by the supervisor means in such a way that the computer concerned actually senses is no longer used, and therefore cause this Shutdown or deactivate the computer to avoid unnecessary to avoid current electricity or energy consumption.

As a rule, several computers are connected to the communication system connected to control the communication system, whereby the computers are networked with each other. The communication On the one hand, the system realizes the actual placement technology for communication information transmission between between the participants in the communication system and also serves as an interface between the computers of the computer network connected to the communication system. In the event that several computers are connected to the communication system are connected, each computer is a computer-specific one Pause or deactivation time assigned. The default This computer-specific deactivation time can be determined by the Be users of the computer network.

After the monitoring means have recognized that one of the Communication system connected computer no longer be the corresponding computer is used or required activated or shutdown. Before disabling one However, computers are perceived by the computer beforehand control tasks for the control of the communication system to another connected to the communication system  Computers transferred to a smooth communication system to ensure gene control. For this purpose are administrators means provided which a suitable computer choose who has enough computing capacity to take over the Provides tax tasks of the computer to be shut down. The A suitable computer is selected using Capacity information from the monitoring means to Will be provided. The capacity information around preferably keep updated information about the current burden of the individual on the communica tion system connected computer. So that the user one Computer not because of the communication system control the corresponding computer in its "normal work", d. H. when editing ordinary user application programs is hindered, a calculation can be capacity cap, which is the maximum for the control tasks available computer capacities of the respective computer. So that the administrative medium before actually shutting down a (apparently) no longer used a suitable computer for can choose to take over the tax tasks the administrative means also information about the invoice capacities that are at least for the takeover and out Management of the corresponding tax task or tax components te are required. This task-specific information NENs are preferably also in the communication information tions of the monitoring means included.

Only after that from the computer to be deactivated Perceived tax tasks or tax components on egg NEN have been transferred to another computer, cause the Monitoring means actually shutdown the ent speaking computer. After shutdown are like this mentioned power-down state with the exception of the network cut put the computer out of service, such as B. the monitor, the hard drive, etc. According to a before preferred embodiment of the invention each computer has  the aforementioned monitoring and administrative resources, which are also formed by a common institution can. In this case, run even after shutdown of a computer, the monitoring and administrative means of deactivated computer still in the RAM memory of the respective computer.

However, monitoring and administration can also be carried out be provided centrally so that the administrative and Monitoring means for everyone on the communication system connected computers are responsible and these according to Head to the description above.

In the event that the on the activated computers, which the communication system are connected computer capacities not or no longer for the Execution of certain control tasks for the communication system sufficient control, trigger the monitoring means the activation of one or more decommissioned computers, so that subsequently the administrative means determined tax gave the already activated computer, in which a supra load threatens to outsource to the activated computer (s) can.

The user of the computer network can use the administrative means also specify a specific load computer on which the Ver resources before shutting down or disabling one computer connected to the communication system Outsource tax duties so that, for example, Herun Drive all others to the communication system closed computer the control components of this computer all outsourced to the specified load computer they are. Likewise, several of these load computers can also be used are given.

By automatically monitoring the communication system connected computer as well as the automatic shutdown,  d. H. the automatic power down circuit, this one Computers are automatically saved resources that are not used switches, so that the energy or electricity consumption clearly can be reduced.

The invention is described below with the aid of a preferred embodiment approximately examples with reference to the drawing be wrote.

Fig. 1 shows a preferred embodiment of the vorlie invention.

The communication system comprises, as an essential mediation component, a communication system 1 , which can be, for example, a public switching center or a private telephone private branch exchange. The communication system 1 is generally used to transmit communication information between terminal subscribers 2 a - 2 c, which can be connected to the communication system 1 . The communication information to be transmitted can be voice information, data or image information. Conventional end devices, such as stationary telephones or base stations for mobile end devices (cell phones), can be connected to the communication system 1 . Furthermore, conventional to the communication system 1 interface of Office may len such. B. ISDN interfaces.

Several computers or personal computers 3 a - 3 c are connected to one another to form a computer network, ie an Ethernet, and are connected to the communication system 1 via Ethernet interfaces. In the embodiment shown in FIG. 1, the communication system 1 serves on the one hand as a mediator for the transmission of the communication information between the participants 2 a- 2 c and on the other hand as an interface between the individual computers 3 a- 3 connected to the communication system 1 c.

A communication module is implemented on each computer 3 a - 3 c, which provides a user with a comfortable communication interface for the communication and operation of the corresponding computer. In addition, a control module 7 a - 7 c is implemented on each computer 3 a - 3 c in order to carry out certain control tasks for the communication system control. The individual control modules 7 a- 7 c can be provided on the one hand for the takeover and control of certain switching processes of the communication system 1 and / or on the other hand for the handling of certain features of the communication system 1 . Since the operation of the actual switching technique of Kom munikationsanlage 1, the connection means between the devices connected to the communication system 1 participants 2 a - 2 c, a plurality of computers 3 a- 3 c should be ensured also in case of failure of one or, however, it is advantageous outsource only control tasks for controlling the communication system 1 to the control modules 7 a- 7 c of the computers 3 a- 3 c, which are not required for the actual switching technology. These "secondary" tax features can therefore in particular include performance features such. B. the call number allocation, automatic call forwarding, the administration of the voice mailbox or the billing etc. act the communication system 1 .

The computer network consisting of the computers 3 a - 3 c thus provides the computer capacities for the communication system control. The free computer capacity available on each computer 3 a - 3 c for the communication system control is strongly dependent on the user requirements of the respective computer, ie, for example, application programs or print jobs that run on the respective computer. The user of the respective computer 3 a - 3 c must not be hindered in his "normal work" by the processing of the communication system control. For this reason, overloading a computer 3 a - 3 c should be avoided.

Therefore, in the embodiment shown in FIG. 1, each computer 3 a - 3 c is equipped with computer capacitance observation means 4 a - 4 c, 5 a - 5 c, which in particular is specific to the (already described above and in FIG For the sake of simplicity) communication module of the respective computer 3 a - 3 c are coupled. The computing capacity monitoring means determine the free computing capacity currently available on the respective computer 3 a - 3 c for the communication system control and are used to manage the individual control tasks of the communication system control in such a way that the individual control tasks depend on those on the individual computers 3 a - 3 c available computer capacities can be distributed without overloading one of the computers.

For this reason, the computer capacity monitoring means each include monitoring means 4 a - 4 c, which determine the computer capacities currently available on the respective computer 3 a - 3 c for taking over control tasks for controlling the communication system 1 and in communication with the other monitoring means 4 a - 4 c of the further computers 3 a - 3 c generate and maintain a system-wide information list with corresponding capacity information. Furthermore, the computer capacity monitoring means each comprise administration means 5 a - 5 c that contain the information list with the capacity information described above , each of which can be stored in corresponding storage means 6 a- 6 c, access and evaluate. As soon as the management means 5 a- 5 c of a computer 3 a- 3 c determine that the computer capacities available on the corresponding computer are not or no longer for the takeover or . Execution enough of a control task to communicate system control, select the administrative processing medium 5 a- 5 c of the corresponding computer 3 a- 3 c on the capacity information of the information list manage a different computer, the sufficient computer capacity, that resources be for the acquisition of the corresponding Steueraufga or control component for communication system control.

In order to be able to reliably select a suitable computer, in this case the administration means 5 a - 5 c require information about the minimum computer capacity required for the acceptance or execution of the respective control task or control component. Furthermore, the administrative means 5 a - 5 c require information about the maximum acceptable load for each computer due to the communication system control so that sufficient capacities for the "normal work" of the computer are available on each computer.

The maximum load limits can be specified by a user for each computer 3a-3c. The aforementioned information is preferably also contained in the communication information, which are each stored in memory means 6 a - 6 c of a corresponding computer 3 a - 3 c. Based on this information, the administrative can a- 5 tung medium 5 c of a computer 3 a- 3 c now the one hand, deciding when and whether an overload of jewei time computer 3 a- threatens 3 c and also select in this case a computer that enough provides free capacities for taking over a tax task from the heavily loaded computer. After selecting a suitable computing ners of the selected computer, the reserved for the acquisition of the control component or of the control task required computing power and computer time by means of the handling means and the control module 7 a- 7 c of the selected processing agent for processing the transmitted control component acti fourth and started. The control module 7 a- 7 c with the fourth control component of the selected computer receives information from which other computer the control module was started, and can thus use the management means of the newly started computer and the computer network to execute the control component Query current operating data of the communication system from the previously responsible computer. After starting the control task or the engine on the newly selected machine be send the administrative resources of the formerly competent computer mation to perform this control task and the Kapazitätsinfor, that the a in the memories 6 6 c stored Infor mationsliste be according to the new Aufgabenvertei updated by the monitoring means 4 a- 4 c and he renewed.

The monitoring means 4 a- 4 c can continuously, ie continuously, renew the capacity information which is stored in the storage means 6 a- 6 c. However, it can also be provided that the monitoring means 4 a - 4 c only create this capacity information when an overload 3 a - 3 c threatens and consequently there is a request for the transfer of the control tasks or control components of the heavily loaded computer. The continuous creation and renewal of the capacity information by the monitoring means 4 a- 4 c is particularly preferable in the case of large computer networks.

Since in the event of a failure of one of the computers 3 a - 3 c no feedback from the failed computer is possible, so that the monitoring means 4 a - 4 c of the other computers cannot determine the load and the available computer capacities of the failed computer, monitor the monitoring means 4 a- 4 c of the other computers of the computer network for their operability, so that the management means 5 a- 5 c of the other computers upon detection of a failure of one of the computers based on the capacity information stored in the memories 6 a- 6 c the control tasks or control components, which were previously outsourced to the failed computer, can be transferred to appropriately suitable, functional computers in the computer network which have sufficient capacities for the transfer of these control tasks. The failure of a computer can be determined by the monitoring means 4 a- 4 c of the other computers in the computer network simply by the fact that there is no feedback from the failed computer to a corresponding request signal, with which the monitoring means 4 a- 4 c usually have the computer-specific load as well further calculating nerspezifischen capacity information which are stored into the SpeI chermitteln 6 6 a- c, query, and len fixed stel.

The monitoring means 4 a- 4 c as well as the management means 5 a - c may be coupled together 5, wherein in particular the management means 5 a- 5c in the monitoring means 4 a- 4 may be configured integrated c.

Analogous to the procedure described above, the management means 5 a - 5 c also select a suitable computer based on the capacity information stored in the memories 6 a - 6 c, which provides sufficient computer capacities if an additional, ie new, control task or control component is available Control of the communication system 1 to be distributed to one of the computers 3 a - 3 c.

The user of the computer network or the user of the single nen computer 3 a- can c 3 computer-specific delay time a Deaktivie or power-down time pretending that corresponds to a pause time, after which the appropriate computer or personal computer in the Power -Down condition to be driven. This means that this deactivation time corresponds to the time span between a last action of the respective computer and an automatic deactivation of the computer. In the shut down idle state, ie in the power-down state, the essential components of the respective computer, such as the monitor or the hard disk, etc., are deactivated, while the network card of the corresponding computer 3 a - 3 c is still active and also the Rechnerka capacities observation means, that the monitoring means 4 a - c 4 and the management means 5 a- 5c, the respective computer 3 a- c 3 in the RAM memory of the respective computer to proceed further to and are active.

The monitoring means 4 a - 4 c monitor the expiry of this power-down time after each action of a computer 3 a - 3 c and cause the respective computer 3 a - 3 c to shut down automatically if, after an action by the corresponding computer, the predetermined power -Down time or deactivation time passes without a further or new action of the respective computer having been carried out. Drive before shutting of the respective computer, however, the administrative determine tung medium 5 5 a- c of the respective computer 3 a- c 3 on the basis of a- in the memories 6 6 c stored Kapazitätsinformatio NEN or the information list one or more other computers that sufficient Provide computer capacities for the control tasks of the computer to be shut down. After the management means 5 a - 5 c of the computer 3 a - 3 c to be deactivated, another computer has been selected which can take over the control tasks previously carried out by the computer to be deactivated for controlling the communication system 1 , these control tasks or control components - as has already been described previously in principle - be transferred to the selected another machine and the control module 7 a- 7 c of the other computer activated to start the transmitted control component. The computer to be deactivated is then shut down, the shutdown being able to be brought about directly by the monitoring means 4 a - 4 c of the corresponding computer or by cooperation with the administrative means 5 a - 5 c of the corresponding computer.

In the event that the monitoring means 4 a - 4 c of the computer 3 a - 3 c determine an impending overload of one of the computers 3 a - 3 c and thus recognize that the 3 a - 3 c are available on the computers for the communication system control standing computer resources are insufficient or no longer sufficient, the monitoring and administration means 4 a - 4 c or 5 a - 5 c of the computer or computers 3 a - 3 c concerned determine a shut down computer of the computer network, which is thus in the idle state, ie in the power-down state, cause the activation of this computer and then relocate the corresponding control tasks or control components to the now activated, ie booted up, computer of the computer network in order to relieve the computer network.

In the outsourcing of control tasks to disable a Kgs to, that is shut down, the computer of the computer network NEN the volume management means 5 a- 5c all computers of the computer network from the user of the computer network a load calculator or more load computer be predetermined consisting finally for the swap of the control tasks or control components of a computer to be shut down. In the event that only one load computer is defined, after shutting down the other computers of the computer network, ie after the power-down time of the individual computers, without a new or further action of the corresponding computer having been carried out, all of them Control tasks for controlling the communication system 1 concentrated on one and the same load computer. The specification of the or the load calculator can SUC gene by a corresponding information according to input by the user of the computer network tätsinformationen part of c in the memories 6 a- 6 capaci stored and the corresponding information list.

Through the automatic deactivation or the automatic shutdown of computers that during ei ner specified deactivation or power-down time not extensive energy can be used for the operation This calculator can be saved.

FIGS. 3a and 3b show an example of the contents of the capacity sinformationen or the system-wide information list wel che in the illustrated in Fig. 1 memories 6 a- 6 c of each computer 3 a- 3 c is stored and the respective Ver waltungsmitteln 5 a - 5 c is available. As shown in FIG. 3a, the capacity information initially includes computer-specific information about the state and the load on the individual computers in the computer network. For each computer it is listed how high the current load of the respective computer is by taking on control tasks for the control of the communication system 1 (cf. 2nd column of the list shown in FIG. 3a). As has already been described above, this information is continuously updated by the monitoring means 4 a - 4 c of the individual computers 3 a - 3 c and communicated to the monitoring means of the other computers via the computer network. In the third column of the list shown in Fig. 3a, depending on the computer, an upper load limit for the load on the respective computer is given by taking on control tasks for system control, this upper load limit being particularly dependent on how much computer capacity is still on the respective computer for the "normal work" on the computer, such. B. for word processing or the processing of print jobs, etc., should be available. The value of this upper load limit can be communicated once to the communication system by the user. In addition, the computer-specific user-definable power-down time, i.e. the deactivation period between the last action of a computer and the intended shutdown of the respective computer, can be specified once by the user (cf. 5th column of the in Fig list shown. 3a). Finally, the user of the computer network can also define one of the computers, in FIG. 3a computer 2 , as a load computer, on which the control tasks of a computer to be shut down are to be outsourced after the power-down time has elapsed. Alternatively, several of these load computers can also be defined. The specification or selection of a computer as a load computer can in particular be done simply by setting a corresponding flag in the list shown in FIG. 3a. Finally, the information list shown in FIG. 3a also includes information about the current state of the individual computers in the computer network (cf. 4th column of the list), with computers being shutdown being assigned the state "not active". The information in the second and fourth columns of the information list shown in FIG. 3a is continuously updated by the monitoring means 4 a - 4 c of the individual computers 3 a - 3 c . Since the monitoring means 4 a - 4 c or the corresponding computer 3 a - 3 c are connected to one another via the computer network connected to the communication system 1 and continuously exchange the information currently valid for the individual computer 3 a - 3 c, acts it is in the a- in Fig. 3a to list shown ei ne system wide list, the contents in the memories a- 6 6 c 3 3 c of the individual computers in each case is identical.

. As shown in Figure 3b, comprise in the memories 6 a - 6 c stored information also information about each of the computers 3 a- c 3 to the receiving control functions for communication system control. From Fig. 3b it can be seen that the stored in the memories 6 a- 6 c in information depending on the task also contain information about the minimum required computing capacity for the execution of the individual control task or Steuerompompo. On the basis of the information contained in the second and third columns of the list shown in FIG. 3a and the information contained in the second column of the list shown in FIG. 3b, the management means 5 a - 5 c of the computers 3 a - shown in FIG. 3 c Always reliably assess which of the computers in the computer network is currently capable of taking on a certain control task (possibly another overloaded or shutdown computer), since this computer has sufficient computing capacity to take on control tasks for controlling the communication system 1 provides. The information shown in FIG. 3b about the minimum computing capacity required for the respective control task or control component can also be specified by the user of the computer network or also by the communication system 1, the computers 3 a - 3 c of the computer network.

In the example shown in Fig. 1 embodiment, the device connected to the communication system 1 includes a computer network alarm or alarm server computer, the object, the monitoring over the individual computers 3 3 a- c or their Arbeitsplät is ze. The tasks of the alarm computer 11 can, however, also be implemented on one of the computers 3 a - 3 c, which are provided for taking over certain control tasks of the communication system 1 . It can also be provided that each of the computers 3 a - 3 c monitors itself according to the following description.

The alarm computer 11 is connected via the communication system 1 to the computers forming the actual computer network 3 a - 3 c and monitors at least one parameter of at least one computer 3 a - 3 c. The alarm computer 11 preferably monitors - as provided in FIG. 1 - several parameters of all computers 3 a - 3 c. Under parameters, any status information of a computer is generally understood, which can be transmitted from the computer to the alarm computer 11 or can be queried by the alarm computer 11 via the computer network.

The parameters of the computers 3 a - 3 c monitored by the alarm computer 11 can be, for example, status information relating to the on / off state of the individual computers 3 a - 3 c. For example, if the alarm computer 11 detects that a computer that is switched off in the evening is being switched on unintentionally or unwanted, the alarm computer 11 evaluates this as an unauthorized intervention in the computer network and generates a corresponding warning signal.

Likewise 3 a- c 3 movement sensors 8a-8c can be mounted on the computers, which preferably a- the workstation computer of the corresponding 3 3 c are monitored automatically activated and especially at night, for example after the entspre sponding computer is switched off. The movement information of the movement sensors 8 a- 8 c are made available to the alarm computer 11 via the computer network, which also generates a warning signal if one of the movement sensors 8 a- 8 c causes an unintentional movement at the work station of the corresponding computer 3 a- 3 c recorded.

Likewise - as exemplified by the computer 3 a indicated is - coupled with the corresponding computer video camera 9 can be provided, which also monitors at least the workstation of the relevant computer and ner over the computer network video or image information to the alarm processing 11 provides who can evaluate this video information using a certain pattern recognition software to assess whether an unwanted person is in the room of the computer 3 a. In this case, too, the alarm computer 11 generates a corresponding warning signal.

Likewise, the actuation of the input device of the individual computers 3 a - 3 c, ie, for example, the actuation of the corresponding keyboard or mouse, can be monitored via the computer network, which is particularly useful if the corresponding computer is in the shutdown idle state or power -Down state, because usually a shutdown computer can be fully reactivated by pressing the keyboard or mouse. If the alarm computer 11 detects an undesired actuation of the keyboard or the mouse of one of the computers 3 a - 3 c, the alarm computer 11 also outputs a corresponding warning signal.

Finally, it can also be provided that the workplace of the individual computers 3 a - 3 c is monitored acoustically, for example in order to detect an undesired intrusion of a person into the room to which the corresponding computer is arranged. The workplace can be monitored - as indicated in FIG. 1 by way of example on the basis of the computer 3 b - with the aid of a microphone 10 , which is in particular coupled to a sound card built into the computer 3 b. The acoustic information detected by the microphone 10 is transmitted via the computer network to the alarm computer 11 , which in turn evaluates this information and, for example, knows the intrusion of an unwanted person if the acoustic information supplied by the microphone 10 indicates a volume exceeding a certain limit value.

In each of the aforementioned cases, the alarm computer 11 accordingly compares the status information supplied or provided by the computers 3 a - 3 c with specific predetermined target values, which are stored in particular in an internal memory or in the form of a database in the alarm computer 11 could be. As soon as the status information supplied by the computers 3 a - 3 c deviate from the specified target values, ie at least one parameter of at least one computer 3 a - 3 c monitored by the alarm computer 11 is not within a specified target range, the alarm computer 11 generates a warning signal and outputs this acoustically via a loudspeaker 12 or optically via the screen or monitor 13 . It can also be provided that the alarm computer 11 constantly on-line via a (not shown) modem and the public telephone line 17 with an alarm center 14 , for. B. a security service or egg ner police station, so that the alarm computer 11 automatically forwards a generated warning signal via the telephone line 17 to the alarm center 14 and triggers an alarm there.

Since the monitoring of the jobs of the computer 3 a- 3 c in particular useful when the user of the computing ner 3 a- 3 c no longer in the individual rooms of hosts 3 a - 3 c are, the alarm computer 11 is preferably automatically activated when the users of the computers 3 a - 3 c are no longer present. To this end, the alarm can be coupled to computer 11 in particular with a presence control system, which automatically ak tivated the alarm computer 11 if the presence of control system, the absence of the user of the computer 3 has detected a- c. 3 This presence control system can be formed in particular by a working time recording system, as is common today for flexitime recording of employees, the working time recording system being able to be implemented, for example, in the form of a magnetic card reader 15 . Each employee registers by inserting his or her specific magnetic card into the magnetic card reader 15 in the morning or in the evening, so that the card reader 15 can record the working time of the corresponding employee on the one hand and always on the presence or absence of the corresponding employee employee is informed. Alternatively, it can be provided that the alarm computer 11 can be activated by entering an identification code, the input being able to be made either directly on the alarm computer 11 or by an administrator on an administration computer of the computer network.

The combination of the computer network shown in Fig. 1 for communication system control 1 with an alarm computer 11 , which - as has already been described - monitors the computer network has the advantage that the resources of the computer network are evaluated directly for monitoring the workstations of the individual computers and can be used to trigger a corresponding alarm.

Fig. 2 shows a second embodiment of the present invention, in contrast to the embodiment shown in Fig. 1 Darge now centrally a computer capacity observer is provided, the central monitoring means 4 and central management means 5 with a central memory 6 for comprises the capacity information already described above or the information list. The centra len monitoring means 4, and the central management means 5 are for all computer 3 a- 3 c responsible wel che control modules 7 a-7 c for Kommunikationsanlagensteue tion, that is, for the acquisition of certain control functions or control components for controlling the communication system 1 having , The central monitoring and management tel 4 , 5 and the central capacity information memory 6 can be in a central computer 16 , for. B. a server, seen before or in one of the computers 3 a - 3 c and alterna tively implemented in the alarm computer 11 , the monitoring and management means 4 and 5 each centrally via the computer network with all computers 3 a - 3 c are connected, which control tasks take over for the communication system 1 . The function of the monitoring means 4 and the management means 5 in combination with the storage means 6 of the embodiment shown in FIG. 2 does not differ substantially from the embodiment shown in FIG. 1, in which the monitoring means 4 a - 4 c, the management means 5 a-c 5, and the memory means 6 a - 6 c are each decentralized for each computer 3 a- c 3 are provided.

The central monitoring means 4 monitor all computers 3 a - 3 c, which are provided for communication system control, and thus create the capacity information shown in FIGS . 3 a and 3 b, which are stored in the central storage means 6 . If the monitoring means recognize that an overload of one of the computers 3 a - 3 c they are monitoring threatens, ie that one of the computers does not or no longer provides sufficient computing capacity for the transfer of a tax task, select the central administrative means 5 on the basis of the Memory 6 stored capacity information or the corresponding information list a computer that provides sufficient computer capacities for the takeover of the corresponding control component. The control task is then transferred to the newly selected computer, with the central monitoring means 4 automatically updating the information list stored in the memory 6 accordingly. After the start of the control component on the newly selected computer - as has already been described with reference to FIG. 1 - also the current operating data required for the execution of the control component are transferred from the previously responsible computer to the newly selected computer, which in particular under Control and supervision of the central administrative means 5 takes place. The monitoring means 4 ask the computer capacity of the individual computers 3 a- 3 c either continuously, so that the data stored in the memory 6 Capacity information is continuously renewed, or erstel len the corresponding information list Kapazitätsin formations only if a corresponding request from the communications installation 1 or the calculator 3 a - 3 c is present if, for. B. a new control task or control component for controlling the communication system 1 to be divided into the computers 3 a - 3 c or one of the computers 3 a - 3 c the central monitoring and administration means 4 , 5 with the redistribution of one or more of its previously control tasks or control components carried out by this computer.

Likewise, the monitoring means 4 provided centrally according to FIG. 2 monitor all the computers 3 a - 3 c of the computer network provided for the control of the communication systems with a view to the expiry of the computer-specific predetermined deactivation or power-down time. As has been explained already with reference to Fig. 3a, nerspezifisch a certain power-down time is set for each computer 3 3 a- c computationally, the part of the data stored in the memory 6 is information list. This deactivation or power-down time defines the period of time that must elapse after an action by the corresponding computer, without any further action of the respective computer being carried out during this time, in order to put the computer into a sleep state, ie the Power-down condition, to be able to drive. If the central monitoring means 4 have recognized that the power down time of a computer 3 a - 3 c has elapsed, the monitoring means 4 cause the deactivation, ie shutdown of the corresponding computer in the power down state. Before that, the management means 5 ensure that, if necessary, outsourced control components for the control of the communication system 1 are distributed to other computers in the computer network, which provide sufficient computer capacities for the takeover of these control tasks. This is done by evaluating the capacity information stored in the memory 6 , which is shown by way of example in FIGS . 3a and 3b.

Likewise, the monitoring means 4 cause the activation of a shutdown or deactivated computer, if the central management means 5 recognize that the available on the activated computers of the computer network are not or are no longer sufficient for the communication system control of the computer capacities. The management means 5 then transfer certain control tasks from the fourth computer to the computer which has now been started up, in order to relieve the load on the computer network. The monitoring means 4 ensure a corresponding update of the capacity information stored in the memory 6 , which in particular specifies the computer capacities available on the individual computers of the computer network for the communication system control.

From the preceding description of FIG. 2, it is evident that the function of the exemplary embodiment shown in FIG. 2 differs only slightly from the exemplary embodiment shown in FIG. 1, central monitoring and administration means 4 , 5 being shown in FIG. 2 seen that are thus centrally responsible for the creation of the capacity information and the administration of the control tasks for controlling the communication system 1 .

Claims (13)

1. communication system,
with a communication system ( 1 ), and
(a- 3 3 c) having a plurality of the communication system (1) connected computers, wherein the computer (3 a- 3 c) each STEU ermittel (7 a- 7 c) specific to the transfer control tasks for controlling the communications installation (1) exhibit,
characterized by
that the computers (3 a- 3 c) each being assigned a machine-specific deactivation period that the time Zvi rule a last action of the computer (3 a- 3 c) and an intended automatic deactivation of the computer (3 a- 3 c) defined,
that monitoring means ( 4 , 4 a- 4 c) are provided which, after an action by a computer ( 3 a- 3 c), monitor the expiry of the deactivation period and cause the deactivation of the computer ( 3 a- 3 c), if within this calculating nerspezifischen deactivation period no further action of the computer (3 a- 3 c) has been performed, and
that administrative means ( 5 , 5 a - 5 c) are provided which, before an intended deactivation of a computer ( 3 a - 3 c), the tax tasks previously assumed by this computer ( 3 a - 3 c) on another computer ( 3 a - 3 c) transferred, which provides sufficient computing capacity for the assumption of the tax task. 2. Communication system according to claim 1, characterized in that the monitoring means ( 4 ) are provided centrally for all computers ( 3 a- 3 c) and after each action of one of the computers ( 3 a- 3 c) the sequence of the respective computer assigned deactivation period monitoring and deactivation of the respective computer (3 a- 3 c) causing, if within the respective computer (3 a- 3 c) associated Deaktivie approximate time period no further action of the computer (3 a- 3 c) has been performed. 3. Communication system according to claim 1, characterized in that each computer ( 3 a- 3 c) has its own monitoring means ( 4 a- 4 c) which, after an action by the corresponding computer ( 3 a- 3 c), the sequence of the respective computer (3 a- 3 c) monitor associated deactivation period and the deactivation of the respective computer (3 a- 3 c) causing, if within the respective computer (3 a- 3 c) zugeord Neten deactivation period no further action of each weiligen computer ( 3 a- 3 c) has been carried out. 4. Communication system according to claim 3, characterized in that in the deactivated state of a computer ( 3 a- 3 c) the monitoring means ( 4 a- 4 c) of this computer ( 3 a- 3 c) are still active. 5. Communication system according to one of the preceding claims, characterized in that the management means ( 5 , 5 a- 5 c) are coupled to the monitoring means ( 4 , 4 a- 4 c). 6. Communication system according to one of the preceding claims, characterized in that the management means ( 5 , 5 a- 5 c) the other computer ( 3 a- 3 c) for taking over the control tasks of a computer to be deactivated ( 3 a- 3 c) Select depending on capacity information, which includes the computer capacities available on each computer ( 3 a - 3 c) connected to the communication system ( 1 ). 7. Communication system according to claim 6, characterized in that the capacity information on each of the communication system ( 1 ) connected computer ( 3 a- 3 c) include maximum computer capacities available for the takeover of control tasks. 8. Communication system according to claim 6 or 7, characterized, that the capacity information is task-specific that for minimal assumption of the respective tax duties compute capacities. 9. Communication system according to one of claims 6 to 8, characterized in that the monitoring means ( 4 , 4 a- 4 c) provide the capacity information. 10. Communication system according to claim 9, characterized in that the monitoring means ( 4 , 4 a- 4 c) continuously update the capacity information. 11. Communication system according to one of the preceding claims, characterized in that the monitoring means ( 4 , 4 a- 4 c) cause the activation of a deactivated computer ( 3 a- 3 c) if the on the activated computers ( 3 a- 3 c) the available computer capacities are no longer sufficient or no longer sufficient to take over or carry out the control tasks for controlling the communication system ( 1 ), the management means ( 5 , 5 a- 5 c) control tasks of the previously activated computers ( 3 a- 3 c) outsource to the reactivated computer ( 3 a - 3 c). 12. Communication system according to one of the preceding claims, characterized in that the management means ( 5 , 5 a- 5 c) a certain computer ner ( 3 a- 3 c) is predetermined on the management means ( 5 , 5 a - 5 c) the tax tasks of a computer to be deactivated ( 3 a - 3 c) are to be outsourced. 13. Communication system according to claim 12, characterized in that the specific computer, on which the management means ( 5 , 5 a- 5 c) control tasks of a computer to be deactivated ( 3 a- 3 c) are to be outsourced, in the management means ( 5 , 5 a- 5 c) predetermined capacity information is set.