KR100523360B1 - System Operation, Administration and Maintenance Subsystem in NGTS and Dynamic Management Component Construction Method thereon - Google Patents

Abstract

The present invention relates to a device operation management subsystem and method for maintaining the management elements when the configuration of a circuit and a packet delivery device is dynamically changed in an integrated delivery system.

The apparatus operation management subsystem in the integrated delivery system according to the present invention comprises: a device configuration management unit having a signal acceptable in the integrated delivery system and objects related to facilities and state control functions of hardware constituting the signal; A device failure management unit for recognizing and reporting a failure of a network and a network element including the integrated delivery systems, and performing a function related to a diagnosis and recovery effort; A device performance management unit that performs an evaluation and reporting function on the performance of the network and the network elements; A nonvolatile memory for performing a continuous maintenance function of information requiring nonvolatile upon restart of the delegate function; A device connection manager for performing a function of setting, releasing and reporting the connection between the network and the network element; A switching manager for performing switching and reporting functions of the network and the network element; A layer 2 service unit configured to perform a configuration function for the layer 2 connection between the network and the network element; An operator connection unit for providing a management function so that an operator can directly change management elements; An internal communication unit managing a standard communication connection with the network; And a delegate function unit for dynamically generating and maintaining a configuration, failure, and performance management element using information of the device configuration management unit.

Description

System Operation, Administration and Maintenance Subsystem in NGTS and Dynamic Management Component Construction Method thereon}

TECHNICAL FIELD The present invention relates to a device operation management subsystem and a method for maintaining the management elements thereof in an integrated delivery system, and more particularly, to a method for maintaining the management elements in an environment in which the configuration of circuit and packet delivery devices is dynamically changed.

In general, integrated delivery systems not only enable high-speed, high-capacity communications using synchronous transmission technology, but also include the introduction of technologies that increase bandwidth utilization and the acceptance of Gigabit Ethernet packet data and ultimately information, including Internet users. Refers to a device for period transmission that meets the needs of society.

Such conventional delivery systems do not consider element based systems in many cases. In addition, even when the element-based system is considered, when considering in the integrated management situation, only the provision of each management function is considered, and the selection point of the element of each transmission service is not considered. Therefore, the conventional delivery system has a limitation in providing a management function according to a dynamic configuration, which causes a lot of limitations in terms of performance and scalability.

Meanwhile, Korean Patent Application No. 10-2001-0060623 (Ko Young-cheol, Baek Jong-myung, Name: 'Component Information Management Method and System Using Repository', Publication Date: September 28, 2001) discloses a component management method using a repository. . The patent application includes a method for managing component information for editing a software program through a network, the method comprising: requesting component information for editing a program through a network according to a user's request, and correspondingly to the request through a network. Displaying the component information provided from the server, judging whether the displayed component information is corrected, modifying the component information if necessary, and reusing it without modification if the modification is not necessary; If there is no corresponding component information, the step of creating a new component by the user, and upgrading the component information and transmitting the upgraded component information to the repository of the server through the network to manage as a separate component A method of performing is disclosed. All. According to the patented invention, by managing the information of the component on the basis of the repository, it is possible to increase the reusability of the component, it is possible to increase the reusability of the previously developed components distributed geographically. However, since the method discloses the function of the delivery system and the selection point of each transport service is not considered, there is a problem in terms of performance and scalability in other applications.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide a method and system that can select a management function element from various viewpoints when building a management element in an integrated delivery system.

Another object of the present invention is to provide a method for dynamically changing a management element according to a configuration change of a network device even during operation of the network device management system.

It is still another object of the present invention to provide a method for ensuring consistent and dynamic configuration, fault and performance management, and operation efficiency in a network device management system.

The apparatus operation management subsystem in the integrated delivery system according to the present invention for achieving the above object comprises a device configuration having a signal acceptable in the integrated delivery system, and objects related to the facilities and state control functions of the hardware constituting the signal. A management unit; A device failure management unit for recognizing and reporting a failure of a network and a network element including the integrated delivery systems, and performing a function related to a diagnosis and recovery effort; A device performance management unit that performs an evaluation and reporting function on the performance of the network and the network elements; A nonvolatile memory for performing a continuous maintenance function of information requiring nonvolatile upon restart of the delegate function; A device connection manager for performing a function of setting, releasing and reporting the connection between the network and the network element; A switching manager for performing switching and reporting functions of the network and the network element; A layer 2 service unit configured to perform a configuration function for the layer 2 connection between the network and the network element; An operator connection unit for providing a management function so that an operator can directly change management elements; An internal communication unit managing a standard communication connection with the network; And a delegate function unit for dynamically generating and maintaining a configuration, failure, and performance management element using information of the device configuration management unit.

In addition, the device operation management subsystem in the other integrated delivery system according to the present invention, the device configuration management unit initially detects what type of signal layer according to the device unit type to create an object instance with a unique identifier Characterized in that.

In addition, the device operation management subsystem in another integrated delivery system according to the present invention, the device failure management unit, if a communication alert occurs during the operation to access the corresponding transport service layer signal object to reflect the status and notify the upper manager It is characterized by.

In addition, the device operation management subsystem in another integrated delivery system according to the present invention, the device performance management unit reflects the status by accessing the corresponding transport service layer signal object when a periodic performance report or a threshold exceeded alarm occurs during operation; And notifying to a higher level administrator.

In addition, the device operation management subsystem in another integrated delivery system according to the present invention, the delegate function unit, the device configuration management unit, device failure management unit, device performance management unit, device connection management unit, transfer management unit, layer 2 service unit, non The object instances for the volatile memory, the internal communication unit, and the operator connection unit can be maintained.

In addition, a method for maintaining a dynamic management element of a device operation management subsystem in an integrated delivery system according to the present invention for achieving the above object comprises the steps of: transmitting an initialization configuration request message to a device configuration management unit to be controlled by a delegate function; Receiving a predetermined operation message from the device configuration manager; If the received predetermined operation message is an initialization configuration response or report, analyzing network device configuration information to construct a management component, and designating a corresponding transmission service flag using the network device configuration information analysis result; Determining whether the network device is a line signal device or a packet signal device; Activating or deactivating a circuit configuration management element, a circuit failure management element, and a circuit performance management element when the network device is a line signaling device; And re-initializing the management element to newly reflect the management element whose activation or deactivation state is changed.

In addition, a method for maintaining a dynamic management element of a device operation management sub-system in another integrated delivery system according to the present invention for achieving the above object is that the received predetermined operation message is a self- or unit-level configuration initialization report or change report. If related, the shape information is analyzed, and the corresponding transmission service flag is specified using the result of the shape information analysis.

In addition, a method for maintaining a dynamic management element of a device operation management subsystem in another integrated delivery system according to the present invention for achieving the above object includes a packet configuration management element and a packet failure when the network device is an Ethernet packet signaling device. And a management element and a packet performance management element.

In addition, the dynamic management element maintenance method of the device operation management subsystem in another integrated delivery system according to the present invention for achieving the above object, the management element change information when the received predetermined operation message is a management element change report; Analyzing the; And activating or deactivating a specified configuration management element, a failure management element, and a performance management element if the service element for the management element is currently activated.

In addition, the method for maintaining a dynamic management element of the device operation management subsystem in another integrated delivery system according to the present invention for achieving the above object, characterized in that it further comprises the step of ending the procedure upon receiving a termination signal from the operating system system; do.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that reference numerals and like elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of an integrated delivery system according to an embodiment of the present invention.

Referring to FIG. 1, an integrated delivery system (NGTS) 100 according to an embodiment of the present invention includes a higher network management system (NMS / APRS) 60 and a network device management system (EMS / HEMS) 10. , A device operation management subsystem (SOMS) 20, a device management control subsystem (LOMS) 40, a connection control subsystem (ONCS) 30, and a delivery device hardware (IDTS / SCPS) 50. do.

In a network composed of such an integrated delivery system 100, the network device management system (HEMS: Hybrid circuit / packet Network Element Management System or EMS: Element Management System) 10 is higher in order to manage the network connection according to a standard. Interworking with the network management system (NMS: Network Management System or APRS: Automated Network Connection Provisioning and Restoration Subsystem) 60 is achieved. In addition, standard management objects are generated based on the information of the system. In this case, a System Operation, Administration and Maintenance Subsystem (SOMS) 20 is used. The network device management system (EMS) 10 may create and maintain configuration, fault, and performance management objects using information provided from the device operation management subsystem (SOMS) 3.

In addition, the integrated delivery system 100 includes an Optical Networking Control Subsystem (ONCS) 30 that performs a network-level connection control function, and a Device Management Control Subsystem (LOMS) responsible for hardware control functions. , Administration and Maintenance Subsystem (40), and a delivery device hardware (IDTS: Integrated Data Transport Subsystem, SCPS: System Control Processor Subsystem) 50.

Hereinafter, the configuration and operation of the network device management system (EMS) 10 according to an embodiment of the present invention will be described in detail.

The network device management system (EMS) 10 includes a configuration management object unit (ECMF) 11, a failure management object unit (EFMF) 12, a performance management object unit (EPMF) 13, and an administrator communication unit ( SNMF) 14, database management system (DBMS) 15, and user display unit (GUIF) 16.

The EMS Configuration Management Software Function Block (ECMF) 11 includes signals related to the signals that the integrated delivery system 100 can accept and objects related to facilities and state control functions of hardware constituting the integrated delivery system 100. In this case, the signal may be a synchronous signal or an Ethernet signal.

The EMS Configuration Fault Software Function Block (EFMF) 12 recognizes and reports a failure of the network and the elements of the integrated delivery system 100 and performs functions related to diagnosis and recovery efforts. do. In addition, the failure management object unit (EFMF) 12, when a communication alert occurs during operation, accesses the corresponding transport service layer signal object to reflect the status and notify the upper network management system (NMS) 60.

The EMS Configuration Performance Software Function Block (EPMF) 13 performs an evaluation and reporting function for a network of the integrated delivery systems 100 and the performance of these network elements. In addition, the performance management object unit (EPMF) 13 accesses the corresponding transport service layer signaling object to reflect the status and notifies the upper network management system (NMS) 60 when a periodic performance report or a threshold exceeded alarm occurs during operation. do.

The Simple Network Management Protocol Manager Software Function Block (SNMF) 14 performs a function of managing a standard communication connection with the integrated delivery system 100 node.

In addition, the network device management system (EMS) 10 is connected to a telecommunications management network (TMN) to manage a failure with the configuration management object unit (ECMF) 11 to perform a standardized management function as an agent. There is a need for a Database Base Management System (DBMS) 15 which comprises an Object Section (EFMF) 12 and a Performance Management Object Section (EPMF) 13. In addition, the configuration, failure, and performance management functions of the network device management system 10 may be performed by the operator's command transmission and status display through a graphical user interface (GUI) 16.

The upper network management system (NMS / APRS) 60 performs a function of managing connections between nodes. Here, the node refers to the integrated delivery system 100, and these nodes may be connected to form a network.

In the embodiment of the present invention, the configuration management object of the network device management system (EMS) 10 includes a signal configuration as well as a device configuration. In addition, the packet and the line data coexist by the delivery method. The configuration management objects (ie device configuration and signal configuration) are affected by each other because they are correlated with failure or performance management objects. Therefore, if only the physical device configuration information is received from the device operation management subsystem (SOMS) 20 according to the necessity of the network device management system (EMS) 10, the relevant information is used and the configuration, failure, and performance management elements are established. It is necessary to provide so that you can. Such a configuration and operation can ensure a standard network management system that provides efficient and scalable through the interface of all dynamically configured signaling configuration objects, and thus the failure and configuration management objects.

In addition, the information transmission in the integrated delivery system 100 is composed of VC3, VC4 and STM16, STM64-class Regeneration Section (RS), Multiplex Section (MS) including Ethernet packet data, and systematically provides information on integrated data. Maintenance and management is possible.

2 is a block diagram of a device operation management subsystem (SOMS) in accordance with an embodiment of the present invention.

Referring to FIG. 2, the device management management subsystem (SOMS) 20 includes a simple network management protocol manager agent software function block (SNAF) 201 and an internal communication unit therein for performing standard management functions. (IPCF: Inter Process Communication Software Function Block) (202), Operator Connection (HMIF: Human Machine Interface Software Function Block) (203), Device Configuration Management (MCMF: Main Configuration Management Software Function Block) (204), Device Failure Management (MFMF: Main Fault Management Software Function Block) (205), Device Performance Management (MPMF: Main Performance Management Software Function Block) (206), Device Connection Management (CCMF: Connection Control Management Software Function Block) (207), Transfer Manager (MPSF: Main Protection Switching Software Function Block) (208), Layer 2 Service (LSMF: L2 Service Management Software Function Block) (209), Non-Volatile Random Access Memory (NVRAM) 210, inclusive .

The device configuration management unit (MCMF) 204 performs a signal that can be accommodated in the network device management system 10, and facilities and state control functions of hardware constituting the signal. In addition, the device configuration management unit (MCMF) 204 may initially determine which type of signal layer corresponds to a device unit type and generate an object instance with a unique identifier.

The device failure management unit (MFMF) 205 recognizes and reports a failure of the network and the elements of the integrated delivery system 100, and performs a diagnosis and recovery function. In addition, the device failure management unit (MFMF) 205 may access the corresponding transport service layer signal object to reflect the status and notify the upper level manager when a communication alert or the like occurs during operation.

The device performance management unit (MPMF) 206 performs an evaluation and reporting function on the network of the integrated delivery systems 100 and the performance of these network elements. In addition, the device performance management unit (MPMF) 206 may access the corresponding transport service layer signal object to reflect the status and notify the upper level manager when periodic performance reports, threshold exceeded alerts, etc. occur during operation.

The device connection management unit (CCMF) 207 establishes, releases, and reports a connection between a network consisting of the integrated delivery systems 100 and a network element.

The switching management unit (MPSF) 208 performs the switching and reporting of the network and the network element consisting of the integrated delivery system (100).

The layer 2 service unit (LSMF) 209 performs a configuration function for the layer 2 connection of the network and the network elements consisting of the integrated delivery system (100).

The nonvolatile memory (NVRAM) 210 continuously maintains information that requires nonvolatile upon restart of the delegate function in the integrated delivery system 100.

The internal communication unit (IPCF) 202 performs an internal communication procedure of the device operation management subsystem (SOMS) 20, and performs a function of managing a standard communication connection with the integrated delivery system.

The operator connection unit (HMIF) 203 provides a management function to the system operator. Thus, the operator can change the management element using the operator connection (HMIF) 203.

The delegate functional unit (SNAF) 201 maintains a corresponding object instance for the functions of the management units 202-210 as described above. In addition, the delegate functional unit (SNAF) 201 is interworked with the upper network device management system (HEMS / EMS) 10, using the information of the device configuration management unit (MCMF) 204 to dynamically configure, failure, Create and maintain performance management elements

Accordingly, the network device management system (EMS) 10 according to the embodiment of the present invention uses the device operation management subsystem (SOMS) 20 according to the embodiment of the present invention to determine the dynamic shape information and the time. Confirmation of service provisioning establishes management elements. That is, the network device management system (EMS) 10 uses the device configuration information provided through the delegate function unit (SNAF) 201 inside the device operation management subsystem (SOMS) 20 to determine dynamic shape information. And management elements can be established by checking the service provision at that time. In other words, it analyzes what kind of signal service is included according to the device unit at the beginning and includes corresponding configuration, failure and performance management elements. In addition, when dynamic configuration changes occur during operation and the service provision function changes, the management elements are dynamically reflected and the upper level managers are notified to ensure consistency of all current states of configuration, failure, and performance management.

3A and 3B are flowcharts of a method for maintaining dynamic management elements by the device operation management subsystem in accordance with an embodiment of the present invention.

The device operation management subsystem (SOMS) 20 according to an embodiment of the present invention analyzes the device configuration information by using the information transmitted from the device configuration management unit (MCMF) 204, and by transmission service and / or management function You build and maintain the element. 3A and 3B, a process of maintaining a dynamic management element of a device operation management subsystem (SOMS) 20 according to an embodiment of the present invention will be described in detail.

First, when the device operation management subsystem (SOMS) 20 is executed, an internal delegate functional unit (SNAF) 201 sends an initialization configuration request message to the device configuration management unit (MCMF) 204 to control. (S301). Then, the delegate functional unit (SNAF) 201 receives an arbitrary operation message from the device configuration management unit (MCMF) 204 (S302).

In this case, when the operation message received in step 302 (S302) is an initialization configuration response or report (S303), since device initialization is started, network device configuration information is analyzed to construct a management component (S304). Subsequently, the transmission service flag is designated with the network apparatus configuration information analysis result (S305).

On the other hand, when the operation message received in step 302 (S302) relates to the shape initialization report or change report of the self or unit unit (S315), the corresponding shape information is analyzed (S316). Subsequently, the corresponding transmission service flag is designated using the result of the corresponding shape information analysis (S305).

Next, the delegate functional unit (SNAF) 201 first determines whether it is a line signal device (S306). If the determination result in step 306 (S306) is a line signal device, the line device configuration management element is activated or deactivated (S307). In turn, the circuit failure management element is activated or deactivated (S308), and the circuit performance management element is activated or deactivated (S309).

However, if the determination result in step 306 (S306) is not a line signal device, it is determined whether or not it is an Ethernet packet signal device (S310). If the determination result in step 310 (S310) corresponds to the packet signaling device, the packet configuration management element is activated or deactivated (S311). Subsequently, the packet failure management element is activated or deactivated (S312), and the packet performance management element is activated or deactivated (S313).

In this way, when the active or inactive state of the management element is changed, a management element reinitialization process is newly performed to reflect it (S314), and then the step 302 (S302) is performed. In addition, if the determination result in step 310 (S310) does not correspond to the packet signaling apparatus, step 314 (S314) is immediately performed.

Referring to FIG. 3B, when the operation message received in step 302 (S302) is a management element change report (S320), the management element change information is analyzed (S321). Such management element change information may occur when an operator changes the management element using the operator connection unit (HMIF) 203.

Subsequently, after the analysis of the management element change information (S321), it is checked whether a service element for the management element is currently activated (S323). That is, if the selected management element corresponds to the currently activated service element, the specified configuration management element is activated or deactivated (S324). Subsequently, the specified failure management element is activated or deactivated (S325), and the specified performance management element is also activated or deactivated.

However, as a result of the determination in step 323 (S323), if the management element requested by the operator is not the currently activated service element, an error is output (S327). After that, the process proceeds to step 302 again (S302).

The management element maintenance function is permanently performed in the delegate functional unit (SNAF) 201. If the termination signal is received from an operating system (OS) (S330), the execution is terminated.

In the present invention, a method for maintaining a dynamic management element of a device operation management subsystem in an integrated delivery system can be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and also include those implemented in the form of carrier waves such as transmission over the Internet. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by those equivalent to the claims.

According to the present invention as described above there is an advantage that the management element according to the dynamic configuration in the integrated delivery system is possible.

In addition, according to the present invention there is an advantage that the operator can perform the function of the management function or the transmission service element of the integrated delivery system.

In addition, according to the present invention there is an advantage that can be configured, failure, performance management for each transmission service of the integrated delivery system.

In addition, according to the present invention there is an advantage that can be reflected in the configuration change processing of the integrated delivery device to ensure the consistency of the management elements.

In addition, according to the present invention there is an advantage that can be reflected in the agent according to the current status report of the integrated delivery device and managed in a standard manner.

1 is a block diagram of an integrated delivery system (EMS) according to an embodiment of the present invention;

2 is a block diagram of a device operation management subsystem (SOMS) in accordance with an embodiment of the present invention;

3A and 3B are flowcharts of a method for maintaining dynamic management elements by a network device management system according to an embodiment of the present invention.

 Explanation of symbols on the main parts of the drawings

100: Integrated Delivery System (NGTS) 10: Network Device Management System (EMS / HEMS)

11: Configuration Management Objects Division (ECMF) 12: Fault Management Objects Division (EFMF)

13: Performance management object unit (EPMF) 14: Administrator communication unit (SNMF)

15: Database Management System (DBMS) 16: User Display (GUIF)

20: Device Management Subsystem (SOMS) 30: Connection Control Subsystem (ONCS)

40: Device Management Control Subsystem (LOMS) 50: Delivery Device Hardware (IDTS / SCPS)

60: upper network management system (NMS / APRS) 201: delegate function unit (SNAF)

202: internal communication unit (IPCF) 203: operator connection unit (HMIF)

204: Device Configuration Management Unit (MCMF) 205: Device Fault Management Unit (MFMF)

206: Device Performance Management Unit (MPMF) 207: Device Connection Management Unit (CCMF)

208: MPSF 209: Layer 2 Service (LSMF)

210: nonvolatile memory (NVRAM)

Claims (10)

A device configuration management unit having a signal acceptable in the integrated delivery system and objects related to facilities and state control functions of the hardware constituting the signal; A device failure management unit for recognizing and reporting a failure of a network and a network element of the integrated delivery systems, and performing a function related to a diagnosis and recovery effort; A device performance management unit that performs an evaluation and reporting function on the performance of the network and the network elements; A nonvolatile memory for performing a function of continuously maintaining information requiring nonvolatile upon restart of the delegate function; A device connection manager for performing a function of setting, releasing and reporting the connection between the network and the network element; A switching manager for performing switching and reporting functions of the network and the network element; A layer 2 service unit configured to perform a configuration function for the layer 2 connection between the network and the network element; An operator connection unit for providing a management function so that an operator can directly change management elements; An internal communication unit managing a standard communication connection with the network; And And a delegate function unit for dynamically creating and maintaining a configuration, failure, and performance management element using the information of the device configuration management unit. The apparatus of claim 1, wherein the device configuration management unit initially determines which type of signal layer corresponds to a type of device unit, and creates an object instance with a unique identifier. Management subsystem. The apparatus of claim 1, wherein the device failure management unit accesses the corresponding transport service layer signal object to reflect the state and notifies the upper level administrator when a communication alarm occurs during operation. system. The integrated performance delivery system of claim 1, wherein the device performance management unit accesses a corresponding transport service layer signal object to reflect a status and notifies a higher level manager when a periodic performance report or a threshold exceeded alarm occurs during operation. Device Management Subsystem. The apparatus of claim 1, wherein the delegate function unit comprises: an object instance for the device configuration manager, a device failure manager, a device performance manager, a device connection manager, a transfer manager, a layer 2 service unit, a nonvolatile memory, an internal communication unit, and an operator connection unit. Device operation management subsystem in the integrated delivery system, characterized in that it can maintain. Transmitting, by the delegate function unit, an initialization configuration request message to a device configuration manager to control; Receiving a predetermined operation message from the device configuration manager; If the received predetermined operation message is an initialization configuration response or report, analyzing network device configuration information to construct a management component, and designating a corresponding transmission service flag using the network device configuration information analysis result; Determining whether the network device is a line signal device or a packet signal device; Activating or deactivating a circuit configuration management element, a circuit failure management element, and a circuit performance management element when the network device is a line signaling device; And And re-initializing the management element to newly reflect the management element whose activation or deactivation state has changed. The method according to claim 6, wherein when the received predetermined operation message relates to a shape initialization report or a change report on a self or unit basis, the corresponding shape information is analyzed and the corresponding transmission service flag is generated using the result of the corresponding shape information analysis. How to maintain a dynamic management element of the device operation management subsystem in the integrated delivery system, characterized in that for specifying. 8. The integrated delivery system of claim 6 or 7, wherein the network device activates or deactivates a packet configuration management element, a packet failure management element, and a packet performance management element when the network device is an Ethernet packet signaling device. To maintain the dynamic management elements of the device management subsystem of the system. The method of claim 6, further comprising: analyzing the management element change information when the received predetermined operation message is a management element change report; And If the service element for the management element is currently activated, further comprising activating or deactivating a designated configuration management element, a failure management element, and a performance management element. How to maintain the dynamic management elements of the system. 7. The method of claim 6, further comprising terminating the procedure upon receiving a termination signal from the operating system.