System to monitor the health of a structure, program product and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01B-003/44
G01B-003/38
G01B-003/52
G01B-003/46
출원번호
UP-0430410
(2006-05-09)
등록번호
US-7571058
(2009-08-24)
발명자
/ 주소
Sealing, Charles Scott
Berkcan, Ertugrul
Andarawis, Emad Andarawis
출원인 / 주소
Lockheed Martin Corporation
대리인 / 주소
Bracewell & Giuliani LLP
인용정보
피인용 횟수 :
15인용 특허 :
9
초록▼
A system to monitor the health of the structure, program product, and associated methods are provided. The system can include multiple health monitoring sensor nodes positioned to monitor parameters of a portion of the body of the structure. Sensor elements of the sensor nodes are spatially position
A system to monitor the health of the structure, program product, and associated methods are provided. The system can include multiple health monitoring sensor nodes positioned to monitor parameters of a portion of the body of the structure. Sensor elements of the sensor nodes are spatially positioned along the body of structure at related or complementary locations to form a special correlative relationship between sensor nodes. The system can also include a data collector having a transceiver positioned to gather sensed parameter data from each of the sensor nodes, and a central computer including in memory, parameter process program product adapted to analyze the sensed parameter data, correlate the sensed parameter data to infer a state of health of the structure responsive to the correlation, and to detect or otherwise determine a type, severity, and/or location of damage to or incipient failure of the structure.
대표청구항▼
That claimed is: 1. A structural health monitoring system, comprising: a structure to be monitored having a body including an axis of symmetry; and a plurality of spatially paired health monitoring sensor nodes, each health monitoring sensor node positioned separate and spaced apart from each other
That claimed is: 1. A structural health monitoring system, comprising: a structure to be monitored having a body including an axis of symmetry; and a plurality of spatially paired health monitoring sensor nodes, each health monitoring sensor node positioned separate and spaced apart from each other of the health monitoring sensor nodes, each node connected to or embedded within the body of the structure to monitor data related to parameters of a portion of the body of the structure, each node including a sensor element to sense parameters of a respective portion of the body of the structure to define sensed parameters, each node of the plurality of spatially paired health monitoring sensor node pairs located on an opposite side of the axis of symmetry to establish a special correlative relationship therebetween, each of the plurality of spatially paired health monitoring sensor node pairs having a separate communication link to share information to correlate the monitored data therebetween, and only one of the nodes of each node pair transmitting the correlated data to a central computer or data collector. 2. The system as defined in claim 1, wherein the data collector is the one of the health monitoring sensor nodes of the plurality of spatially paired health monitoring sensor nodes. 3. A multi-node sensor system to monitor the structural health of a structure, the system comprising: a structure to be monitored having a body; a plurality of separate and spaced apart health monitoring sensor nodes each connected to or embedded within the body of the structure to monitor data related to parameters of a portion of the body of the structure, each node including a sensor element to sense parameters of a respective portion of the body of the structure to define sensed parameters, a processor coupled to the sensor element to receive sensed parameters, and memory coupled to the processor to store data and operating instructions therein, the sensor element of at least one of the plurality of health monitoring sensor nodes spatially positioned along the body of structure at a related or a complementary location to the sensor element of at least one other of the plurality of health monitoring sensor nodes to form a special correlative relationship therebetween; a data collector having a transceiver positioned to gather sensed parameter data from each of the plurality of health monitoring sensor nodes; a central computer in communication with the data collector and having a processor and memory coupled to the processor to store requested data and operating instructions therein; and parameter processing program product stored in the memory of central computer and including the operating instructions that when executed by the central computer processor perform the operations of: analyzing the sensed parameter data from each of the plurality of health monitoring sensor nodes, spatially correlating the sensed parameter data from each of the plurality of health monitoring sensor nodes, and inferring a state of health of the structure responsive to the correlation to provide damage and incipient failure detection. 4. The system as defined in claim 3, wherein the body of the structure includes an axis of symmetry; wherein the plurality of health monitoring sensor nodes includes a plurality of spatially paired health monitoring sensor nodes; and wherein each node of the plurality of health monitoring sensor node pairs is located on opposite sides of the axis of symmetry to establish the special correlative relationship. 5. A multi-node sensor system to monitor the structural health of a structure, the system comprising: a structure to be monitored having a body; a plurality of separate and spaced apart health monitoring sensor nodes each connected to or embedded within the body of the structure to monitor data related to parameters of a portion of the body of the structure, each node including a sensor element to sense parameters of a respective portion of the body of the structure to define sensed parameters, a processor coupled to the sensor element to receive sensed parameters, and memory coupled to the processor to store data and operating instructions therein, the sensor element of at least one of the plurality of health monitoring sensor nodes spatially positioned along the body of structure at a related or a complementary location to the sensor element of at least one other of the plurality of health monitoring sensor nodes to form a special correlative relationship therebetween; a data collector having a transceiver positioned to gather sensed parameter data from each of the plurality of health monitoring sensor nodes and to transmit a periodic time synchronization message to each of the plurality of health monitoring sensor nodes; a central computer in communication with the data collector and having a processor and memory coupled to the processor to store requested data and operating instructions therein; and parameter processing program product stored in the memory of central computer and including instructions that when executed by the central computer processor performs the operations of: collectively analyzing the sensed parameter data from each of the plurality of health monitoring sensor nodes, correlating the sensed parameter data from each of the plurality of health monitoring sensor nodes in both space and time, inferring a state of health of the structure responsive to the correlation, and determining at least one of the following: a type, severity, and location of damage to the structure or incipient failure thereof responsive to the inference. 6. The system as defined in claim 5, wherein the parameter processing program product further includes instructions to perform the operation of employing a network time synchronization process to correct a time sampling phase error in each of the plurality of health monitoring sensor nodes including providing the periodic time synchronization message to each of the plurality of health monitoring sensor nodes. 7. A multi-node sensor system to monitor the structural health of a structure, the system comprising: a structure to be monitored having a body; a plurality of separate and spaced apart health monitoring sensor nodes each connected to or embedded within the body of the structure to monitor data related to parameters of a portion of the body of the structure, each node including a sensor element to sense parameters of a respective portion of the body of the structure to define sensed parameters, a processor coupled to the sensor element to receive sensed parameters, and memory coupled to the processor to store data and operating instructions therein, the sensor element of at least one of the plurality of health monitoring sensor nodes spatially positioned along the body of structure at a related or a complementary location to the sensor element of at least one other of the plurality of health monitoring sensor nodes to form a special correlative relationship therebetween; a data collector having a transceiver positioned to gather sensed parameter data from each of the plurality of health monitoring sensor nodes and to transmit a periodic time synchronization message to each of the plurality of health monitoring sensor nodes; a central computer in communication with the data collector and having a processor and memory coupled to the processor to store requested data and operating instructions therein; and parameter processing program product stored in the memory of one of the plurality of health monitoring sensor nodes and including instructions that when executed by the respective sensor node processor perform the operations of: gathering sensed parameters from at least one other of the plurality of health monitoring sensor nodes, collectively analyzing the sensed parameters from the one of the plurality of health monitoring sensor nodes and the at least one other of the plurality of health monitoring sensor nodes, correlating the sensed parameter data in both space and time, inferring a state of health of the structure responsive to the correlation, and detecting at least one of the following: a type, severity, and location of damage to the structure or incipient failure thereof responsive to the inference. 8. A multi-node sensor system to monitor the structural health of a structure, the system comprising: a structure to be monitored having a body; a plurality of separate and spaced apart health monitoring sensor nodes each connected to or embedded within the body of the structure to monitor data related to parameters of a portion of the body of the structure, each node including a sensor element to sense parameters of a respective portion of the body of the structure to define sensed parameters, the sensed parameters include stress, each node further including a processor coupled to the sensor element to receive sensed parameters, and memory coupled to the processor to store data and operating instructions therein, the sensor element of at least one of the plurality of health monitoring sensor nodes spatially positioned along the body of structure at a related or a complementary location to the sensor element of at least one other of the plurality of health monitoring sensor nodes to form a special correlative relationship therebetween; a data collector having a transceiver positioned to gather sensed parameter data from each of the plurality of health monitoring sensor nodes and to transmit a periodic time synchronization message to each of the plurality of health monitoring sensor nodes; a central computer in communication with the data collector and having a processor and memory coupled to the processor to store requested data and operating instructions therein; and parameter processing program product stored in the memory of at least one of the central computer or one of plurality of health monitoring sensor nodes and including instructions that when executed by the respective central computer or sensor node processor perform the operations of: collectively analyzing the sensed parameter data from each of the plurality of health monitoring sensor nodes, correlating the sensed parameter data from each of the plurality of health monitoring sensor nodes to detect a change in stress distribution among nodes describing onset of an incipient failure of the structure, and inferring a state of health of the structure responsive to detection of the change in stress distribution. 9. The system as defined in claim 8, wherein the structure is an aircraft, and wherein the parameter processing program product further includes instructions to perform the operation of determining an optimized flight envelope responsive to detection of damage to or incipient failure of the structure. 10. A method to monitor the structural health of a structure, the method comprising: positioning a plurality of health monitoring sensor nodes each having at least one parameter sensor element at spatially related or complementary positions along a body of a structure to form a special correlative relationship therebetween: sensing parameters of a portion of the body of the structure by each of the plurality of health monitoring sensor nodes; employing data synchronization between each of the plurality of health monitoring sensor nodes to provide an enhanced view of the health of the structure, the data synchronization including performing synchronized data acquisition by each one of the plurality of health monitoring sensor nodes with at least one other of the plurality of health monitoring sensor nodes; gathering sensed parameter data from each of the plurality of health monitoring sensor nodes; spatially correlating the sensed parameter data from each of the plurality of health monitoring sensor nodes; temporally correlating the sensed parameter data from each of the plurality of health monitoring sensor nodes; inferring a state of health of the structure responsive to both the spatial correlation and the temporal correlation; and detecting at least one of the following: a type, severity, and location of damage to the structure, or an incipient failure thereof, responsive to the inferred state. 11. A method as defined in claim 10, further comprising the step of employing a network time synchronization process to correct a time sampling phase error in each of the plurality of health monitoring sensor nodes, the time synchronization process including providing a periodic time synchronization message to each of the plurality of health monitoring sensor nodes. 12. A method as defined in claim 10, wherein the sensed parameters include stress, and wherein the method further comprises the steps of: detecting a change in stress distribution among nodes describing onset of an incipient failure of the structure; and triggering an alarm responsive to the change in stress distribution. 13. A method as defined in claim 10, wherein the sensed parameters include stress, and wherein the method further comprises the steps of: detecting a variation in stress between a pair of nodes describing damage to the structure; and triggering an alarm responsive to the variation in stress distribution. 14. A method as defined in claim 10, wherein the structure is an aircraft, and wherein the method further comprises the step of determining an optimized flight envelope during flight responsive to in-flight detection of damage to or incipient failure of the structure.
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이 특허에 인용된 특허 (9)
Lichtenwalner Peter F. ; Dunne James P. ; Becker Ronald S. ; Baumann Erwin W., Active damage interrogation method for structural health monitoring.
Andarawis,Emad Andarawis; Berkcan,Ertugrul; Delgado,Eladio Clemente; Rao,Samantha, System to monitor the health of a structure, sensor nodes, program product, and related methods.
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Soles, Alexander M.; Walsh, Matthew R.; Scott, Eric B., Event detection system having multiple sensor systems in cooperation with an impact detection system.
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