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KR-102963158-B1 - OPERATING METHOD FOR ELECTRONIC APPARATUS FOR MANAGING LINKAGE STATUS AND ELECTRONIC APPARATUS SUPPORTING THEREOF

KR102963158B1KR 102963158 B1KR102963158 B1KR 102963158B1KR-102963158-B1

Abstract

According to the present disclosure, a method for managing the interlocking status of an electronic device for target equipment associated with a ship combat system may include: a step of establishing a redundant interlocking structure for interlocking target equipment included in one or more target equipment associated with the ship combat system to the ship combat system; and a step of managing the interlocking status of the target equipment interlocked to the ship combat system based on the redundant interlocking structure.

Inventors

  • 고영근
  • 김점수
  • 김규백
  • 최낙중

Assignees

  • 국방과학연구소

Dates

Publication Date
20260512
Application Date
20240311

Claims (10)

  1. In a method for an electronic device to manage the interlocking status of target equipment related to a ship combat system, A step of establishing a redundant linkage structure for linking target equipment included in one or more target equipment related to a ship combat system to said ship combat system; and It includes a step of managing the linkage status of the target equipment linked to the ship combat system based on the above-mentioned redundancy linkage structure, and The above-mentioned redundancy interlocking structure is, A first interlocking processing structure for processing the interlocking of the above-mentioned target equipment and a first switch structure for managing the application of the first interlocking processing structure for the above-mentioned target equipment, and It includes a second linkage processing structure for processing the linkage of the above-mentioned target equipment and a second switch structure for managing the application of the second linkage processing structure for the above-mentioned target equipment, and The first switch structure and the second switch structure are interconnected, The connection state between the first switch structure and the second switch structure is configured to be collected and determined in each of the first interlocking processing structure and the second interlocking processing structure, and In the case where at least some of the equipment included in the above one or more target equipment is linked to the first switch structure and the first linkage processing structure, and the remaining equipment among the above one or more target equipment, excluding the at least some of the equipment, is linked to the second switch structure and the second linkage processing structure, based on the fact that the first switch structure and the second switch structure are interconnected: At least some of the above equipment is configured to be connectable to the second switch structure and the second interlocking processing structure through the first switch structure, and The remaining equipment mentioned above is configured to be connectable to the first switch structure and the first interlocking processing structure through the second switch structure, Method for managing linkage status.
  2. In Article 1, The above-mentioned redundant interlocking structure includes an interlocking management structure for integrated management of the above-mentioned first interlocking processing structure and the above-mentioned second interlocking processing structure, Method for managing linkage status.
  3. In Article 1, Based on the interlocking of the first switch structure and the second switch structure, one interlocking processing structure determined to be suitable among the first interlocking processing structure and the second interlocking processing structure is applied for the target equipment, and another interlocking processing structure is managed to be applied provisionally for the target equipment. Method for managing linkage status.
  4. In Paragraph 3, When a port for the target equipment is activated in the above-mentioned one interlocking processing structure, it is configured so that a port for the target equipment is deactivated in the above-mentioned other interlocking processing structure, and A configuration in which, when a port for the target equipment is disabled in the one interlocking processing structure, a port for the target equipment is enabled in the other interlocking processing structure. Method for managing linkage status.
  5. In Paragraph 3, The determination of a suitable one of the first interlocking processing structure and the second interlocking processing structure is performed individually for each target device included in the one or more target devices based on the resource usage of the first interlocking processing structure and the second interlocking processing structure. Method for managing linkage status.
  6. In Article 1, First linkage status management information for determining and managing the linkage status of each target equipment included in the one or more target equipment in the first linkage processing structure and second linkage status management information for determining and managing the linkage status of each target equipment included in the one or more target equipment in the second linkage processing structure are obtained, The first linkage status management information and the second linkage status management information are configured to be mutually exchanged between the first linkage processing structure and the second linkage processing structure, Method for managing linkage status.
  7. In Article 1, The above-mentioned method for managing the linkage status is, A step of determining each type of failure that may occur in each linkage section between the ship combat system and the target equipment linked based on the above-mentioned redundancy linkage structure; and A step further comprising establishing each failure recovery procedure corresponding to each of the above failure types, Method for managing linkage status.
  8. In Article 7, Each of the above fault recovery procedures corresponds to a procedure for managing the linkage between the ship combat system and the target equipment based on the other linkage processing structure when a failure occurs in the linkage between the ship combat system and the target equipment based on one of the linkage processing structures among the first linkage processing structure and the second linkage processing structure. Method for managing linkage status.
  9. In a computer-readable, non-transient computer-readable storage medium storing a program for executing on a computer a method for managing the interlocking status of target equipment related to a ship combat system, The above method for managing the linkage status is: A step of establishing a redundant linkage structure for linking target equipment included in one or more target equipment related to a ship combat system to said ship combat system; and It includes a step of managing the linkage status of the target equipment linked to the ship combat system based on the above-mentioned redundancy linkage structure, and The above-mentioned redundancy interlocking structure is, A first interlocking processing structure for processing the interlocking of the above-mentioned target equipment and a first switch structure for managing the application of the first interlocking processing structure for the above-mentioned target equipment, and It includes a second linkage processing structure for processing the linkage of the above-mentioned target equipment and a second switch structure for managing the application of the second linkage processing structure for the above-mentioned target equipment, and The first switch structure and the second switch structure are interconnected, The connection state between the first switch structure and the second switch structure is configured to be collected and determined in each of the first interlocking processing structure and the second interlocking processing structure, and In the case where at least some of the equipment included in the above one or more target equipment is linked to the first switch structure and the first linkage processing structure, and the remaining equipment among the above one or more target equipment, excluding the at least some of the equipment, is linked to the second switch structure and the second linkage processing structure, based on the fact that the first switch structure and the second switch structure are interconnected: At least some of the above equipment is configured to be connectable to the second switch structure and the second interlocking processing structure through the first switch structure, and Characterized by the fact that the remaining equipment mentioned above is configured to be connectable to the first switch structure and the first interlocking processing structure through the second switch structure. Non-transient computer-readable storage media.
  10. In an electronic device for managing the interlocking status of target equipment related to a ship combat system, processor (processor); and It includes one or more memories that store one or more instructions, and The above one or more instructions, at execution, the processor: A step of establishing a redundant linkage structure for linking target equipment included in one or more target equipment related to a ship combat system to said ship combat system; and Control the processor to perform the step of managing the linkage status of the target equipment linked to the ship combat system based on the above-mentioned redundancy linkage structure, and The above-mentioned redundancy interlocking structure is, A first interlocking processing structure for processing the interlocking of the above-mentioned target equipment and a first switch structure for managing the application of the first interlocking processing structure for the above-mentioned target equipment, and It includes a second linkage processing structure for processing the linkage of the above-mentioned target equipment and a second switch structure for managing the application of the second linkage processing structure for the above-mentioned target equipment, and The first switch structure and the second switch structure are interconnected, The connection state between the first switch structure and the second switch structure is configured to be collected and determined in each of the first interlocking processing structure and the second interlocking processing structure, and In the case where at least some of the equipment included in the above one or more target equipment is linked to the first switch structure and the first linkage processing structure, and the remaining equipment among the above one or more target equipment, excluding the at least some of the equipment, is linked to the second switch structure and the second linkage processing structure, based on the fact that the first switch structure and the second switch structure are interconnected: At least some of the above equipment is configured to be connectable to the second switch structure and the second interlocking processing structure through the first switch structure, and The remaining equipment mentioned above is configured to be connectable to the first switch structure and the first interlocking processing structure through the second switch structure, Electronic device.

Description

Operating method for an electronic apparatus for managing linkage status and an electronic apparatus supporting the same The present invention relates to a method and apparatus for managing an interlocking state, and more specifically, to a method and apparatus for managing an interlocking state of a target equipment related to a ship combat system. A ship combat system is a system installed on naval vessels that controls onboard sensors, weapons, and communication systems, and performs functions such as target management, threat assessment, weapon allocation, and/or engagement control. While sensor, weapon, and communication systems are generally acquired through separate projects or processes, the ship combat system operates to achieve optimal combat performance by linking, integrating, and controlling these systems. Since the failure of equipment constituting a naval combat system is directly linked to the combat performance of naval vessels, the survivability and availability of the system have been required as critical performance elements during the design and development phases. However, some interlocking equipment developed in the past was designed to provide only a single communication line for interlocking; consequently, if a failure occurs in the section connecting the equipment, it fails to support redundancy, which poses a problem where the communication line may be severed. Accordingly, this invention proposes a method to redundantly configure the interlocking structure between the naval combat system and the target equipment through a network switch, and to provide a real-time fault recovery function in response to potential failures in each section. FIG. 1 is a drawing for explaining an interlocking state management system in which a method of operation of an electronic device for interlocking state management according to various embodiments can be implemented. FIG. 2 is a diagram illustrating the configuration of nodes according to various embodiments. Figure 3 is a diagram illustrating a conventional interlocking structure between a ship combat system and an interlocking target system. FIG. 4 is a diagram illustrating a redundant linkage structure between a ship combat system and a target linkage system proposed in the present invention. FIG. 5 is a diagram illustrating the structure of an electronic device that performs the interlocking state management method proposed in the present invention. FIG. 6 is a diagram illustrating the operation method of an electronic device for managing interlocking status according to various embodiments. FIG. 7 is a drawing illustrating an example of a plurality of interconnected devices being interconnected according to the redundant interconnected structure proposed in the present invention. FIG. 8 is a diagram illustrating the initial operation process of the redundant interlocking structure proposed in the present invention. FIG. 9 is a diagram illustrating points where failures may occur in each interconnection section according to the redundant interconnection structure of the present invention. FIG. 10 is a diagram illustrating an example of a failure type and a failure recovery procedure according to the redundant interlocking structure of the present invention. FIG. 11 is a diagram illustrating another example of a failure type and a failure recovery procedure according to the redundant interlocking structure of the present invention. FIG. 12 is a diagram illustrating another example of a failure type and a failure recovery procedure according to the redundant interlocking structure of the present invention. FIG. 13 is a diagram illustrating another example of a failure type and a failure recovery procedure according to the redundant interlocking structure of the present invention. FIG. 14 is a diagram illustrating another example of a failure type and a failure recovery procedure according to the redundant interlocking structure of the present invention. The following embodiments are combinations of the components and features of various embodiments in a predetermined form. Each component or feature may be considered optional unless otherwise explicitly stated. Each component or feature may be implemented in a form not combined with other components or features. Additionally, various embodiments may be constructed by combining some components and features. The order of operations described in various embodiments may be changed. Some components or features of one embodiment may be included in another embodiment, or may be replaced with corresponding components or features of another embodiment. In the description of the drawings, procedures or steps that could obscure the essence of the various embodiments were not described, nor were procedures or steps that can be understood by a person of ordinary knowledge in the relevant technical field described. Throughout the specification, when a part is described as "comprising" or "including" a compone