Method for the reliable transport of alarm messages in a distributed computer system

The invention claimed is: 1. A method for the reliable transport of alarm messages in a distributed computer system, said computer system comprising a plurality of components, the components being node computers, distributor units, intelligent sensors, and-intelligent actuators, wherein all of the components have access to a global time of known precision, and the node computers, intelligent sensors and intelligent actuators are configured to exchange messages via the distributor units, the method comprising: assigning intelligent alarm sensors to the computer system or assigning the computer systems to intelligent alarm sensors, the intelligent alarm sensors being configured to monitor alarms; and transmitting from an intelligent alarm sensor two types of time-triggered messages, a first type being alarm messages having an alarm transport period prescribed a priori, and a second type being error detection messages having an error detection period prescribed a priori, wherein time stamps for an occurrence of an alarm event are included in an alarm monitoring interval, the alarm monitoring interval ending directly before the transmission of the alarm message and being at least twice as long as the alarm transport period, and an alarm message only being transmitted if at least one time stamp of the alarm event is included in the alarm message, and wherein current states of all of the alarms that are active immediately before the transmission of the error detection message are included in the error detection messages, which are transmitted periodically. 2. The method of claim 1 , wherein a position of the time stamp of the alarm event in the alarm message determines the significance of the alarm event. 3. The method of claim 1 , wherein a transmission instant of the alarm message determines epochs for the time stamp of the alarm events that are contained in the alarm message, the time stamps of the alarm events being expressed in relation to the epochs. 4. The method of claim 1 , wherein the global time of a transmission instant of a sporadic alarm message is contained in the alarm message. 5. The method of claim 1 , wherein the instants of the transmission of a plurality of the alarm messages that are to be transmitted to a same one of the distributor units are synchronized in such a manner that the plurality of alarm messages arrive at the distributor unit simultaneously, and the contents of the plurality of simultaneously arriving alarm messages are combined into a new alarm message and in some cases are transmitted further. 6. The method of claim 1 , wherein authenticity and integrity of data content of the alarm message are protected by an electronic signature, and the electronic signature is transmitted in a subsequent alarm message. 7. The method of claim 1 , wherein communication between the components is controlled by TT-Ethernet protocol. 8. A distributed computer system comprising: a plurality of components which comprise node computers, distributor units, intelligent sensors, and intelligent actuators, wherein all of the components have access to a global time of known precision, and the node computers, intelligent sensors and intelligent actuators are configured to exchange messages via the distributor units, wherein the computer system includes intelligent alarm sensors or intelligent alarm sensors are assigned to the computer system, and the intelligent alarm sensors are configured to monitor alarms, wherein for the reliable transport of alarm messages, an intelligent alarm sensor is configured to transmit two types of time-triggered messages, a first type being alarm messages having an alarm transport period prescribed a priori, and a second type being error detection messages having an error detection period prescribed a priori, wherein time stamps for an occurrence of an alarm event are included in an alarm monitoring interval, the alarm monitoring interval being configured to end directly before the transmission of the alarm message and configured to be at least twice as long as the alarm transport period, and wherein an alarm message is only transmitted if at least one time stamp of the alarm event is included in the alarm message, and wherein current states of all of the alarms that are active immediately before the transmission of the error detection message are included in the error detection messages, which are transmitted periodically. 9. The computer system of claim 8 , wherein a position of the time stamp of the alarm event in the alarm message determines the significance of the alarm event. 10. The computer system of claim 8 , wherein a transmission instant of the alarm message determines epochs for the time stamp of the alarm events that are contained in the alarm message, the time stamps of the alarm events being expressed in relation to the epochs. 11. The computer system of claim 8 , wherein the global time of a transmission instant of a sporadic alarm message is contained in the alarm message. 12. The computer system of claim 8 , wherein the instants of the transmission of a plurality of the alarm messages that are to be transmitted to a same one of the distributor units are synchronized in such a manner that the plurality of alarm messages arrive at the distributor unit simultaneously, and the contents of the plurality of simultaneously arriving alarm messages are combined into a new alarm message and in some cases are transmitted further. 13. The computer system of claim 8 , wherein authenticity and integrity of data content of the alarm message are protected by an electronic signature, which is configured to be transmitted in a subsequent alarm message. 14. The computer system of claim 8 , which is configured to provide communication between the components controlled by the TT-Ethernet protocol.