Emergent information pattern driven sensor networks
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08B-023/00
G08B-025/00
출원번호
US-0837921
(2007-08-13)
등록번호
US-9076314
(2015-07-07)
발명자
/ 주소
Miller, Landon C. G.
출원인 / 주소
International Business Machines Corporation
대리인 / 주소
Yudell Isidore PLLC
인용정보
피인용 횟수 :
0인용 특허 :
29
초록▼
Emergent information is created and utilized by an array of sensors. Each sensor is programmed with a trigger rule, which describes a local condition that must be met for the sensor to trigger an event signal, and a relationship rule, which describes a hierarchy of communication control among sensor
Emergent information is created and utilized by an array of sensors. Each sensor is programmed with a trigger rule, which describes a local condition that must be met for the sensor to trigger an event signal, and a relationship rule, which describes a hierarchy of communication control among sensors in the array of sensors. When a predetermined percentage or weighting of the sensors trigger event signals, emergent information that describes conditions at the array location is generated.
대표청구항▼
1. A method for utilizing emergent information from an array of sensors, the method comprising: deploying an array of sensors to an array location, wherein the array of sensors comprises a plurality of different types of sensors;programming each sensor in the array of sensors with at least one trigg
1. A method for utilizing emergent information from an array of sensors, the method comprising: deploying an array of sensors to an array location, wherein the array of sensors comprises a plurality of different types of sensors;programming each sensor in the array of sensors with at least one trigger rule, wherein the at least one trigger rule describes a local condition that must be met for the sensor to trigger an event signal to the other sensors in the array of sensors;programming each sensor in the array of sensors with a relationship rule, wherein the relationship rule describes a hierarchy of communication control among sensors in the array of sensors;providing each sensor of the array of sensors with controlling software that defines a set of search patterns that utilizes the plurality of different types of sensors within the array of sensors, wherein the set of search patterns is stored within each sensor in the array of sensors, and wherein each sensor in the array of sensors is capable of generating emergent information about the array location;activating the array of sensors, wherein each sensor in the array of sensors monitors at least one condition of a plurality of conditions at the array location and transmits an event signal to the other sensors in the array of sensors in response to detecting an external stimulus that matches any of the set of search patterns stored within the sensor; andin response to the plurality of conditions at the array location causing a predetermined percentage of sensors, from the array of sensors, to each transmit an event signal which conforms to a known search pattern of the set of search patterns: a first one or more sensors in the array of sensors generating emergent information about the array location, wherein the emergent information describes the plurality of conditions at the array location, and wherein the emergent information exists only when the predetermined percentage of sensors in the array of sensors each transmits an event signal; andthe first one or more sensors sharing the generated emergent information with a remote server via a first one or more communication channels. 2. The method of claim 1, wherein the array location is on a water coastline, and wherein the array of sensors comprises a weather sensor, a thermal sensor, a video camera, a radar system, and an audio sensor. 3. The method of claim 1, wherein the array location is a well, and wherein the array of sensors comprises a pressure sensor and a heat sensor coupled to a downhole drill bit. 4. The method of claim 1, wherein the relationship rule defines how each sensor, in the array of sensors, communicates with other sensors in the array of sensors. 5. The method of claim 1, wherein the relationship rule defines which sensor, in the array of sensors, communicates with a remote controller for the array of sensors. 6. The method of claim 1, further comprising: updating, from a remote controller, the at least one trigger rule and the relationship rule in each sensor in the array of sensors. 7. The method of claim 1, wherein each sensor in the array of sensors is programmed with a plurality of trigger rules, including the at least one trigger rule, wherein each trigger rule of the plurality of trigger rules is used in a generation of particular emergent information. 8. The method of claim 1, further comprising: recommencing monitoring the array location in response to the first one or more sensors sharing the generated emergent information with the remote server. 9. The method of claim 1, further comprising generating, from output data corresponding to the emergent information received from the array of sensors, reports, including (i) a description of a pattern within the output data from the plurality of sensors, (ii) supporting data that supports the pattern within the output data from the plurality of sensors, (iii) emergent results including next-level information derived from the output data from the plurality of sensors, and (iv) deterministic real time information that comprises diagnostic data regarding each sensor within the array of sensors and each sensor's lines of communication with other sensors within the array of sensors and the remote server. 10. The method of claim 1, further comprising providing a low power consumption profile for each sensor within the array of sensors, which enables each respective sensor to operate in a low power mode during which the sensor does not report no operation (no op) events. 11. The method of claim 10, wherein: the array of sensors is communicatively connected to the remote server via the first one or more communication channels of a plurality of communication channels; andeach individual sensor of the array of sensors is separately connected to the remote server via at least one communication channel. 12. The method of claim 11, wherein the plurality of communication channels comprises a Zigbee™-type network. 13. The method of claim 1, further comprising: providing the set of search patterns as a download to the array of sensors; andanalyzing received output data corresponding to the emergent information generated by each sensor of the array of sensors and matching, in real time, the emergent information generated by each sensor against the set of search patterns. 14. The method of claim 1, wherein: the relationship rules are utilized if a consolidated event signal, based on a predetermined number of sensors in the array of sensors each transmitting an event signal, is to be transmitted via a gateway and a transmit network to a remote controller. 15. The method of claim 1, wherein the emergent information is generated by consolidating a plurality of event signals from all sensors in the array of sensors. 16. The method of claim 1, further comprising, in response to the local condition for the at least one trigger rule being met, sending at least one event signal to a central controlling and emergent information pattern generating server, wherein the central controlling and emergent information pattern generating server displays at least one of: details associated with the at least one event signal and a consolidation of one or more event signals as emergent information. 17. The method of claim 1, wherein each sensor in the array of sensors comprises a plurality of trigger rules, including the at least one trigger rule. 18. The method of claim 1, further comprising, in response to generating the emergent information, performing a local response which addresses and corrects anomalies associated with the plurality of conditions at the array location, wherein the local response includes turning on a particular sensor in the array of sensors. 19. The method of claim 1, further comprising: in response to the first one or more sensors sharing the generated emergent information with the remote server via the first one or more communication channels, a second one or more sensors of the plurality of sensors sharing the generated emergent information with the remote server via a second one or more communication channels. 20. A method for utilizing emergent information from an array of sensors, the method comprising: deploying an array of sensors to an array location, wherein the array of sensors comprises a plurality of different types of sensors, wherein the array location is on a water coastline, and wherein the array of sensors comprises a weather sensor, a thermal sensor, a video camera, a radar system, and an audio sensor;programming each sensor in the array of sensors with a plurality of trigger rules, wherein a trigger rule describes a local condition that must be met for the sensor to trigger an event signal to the other sensors in the array of sensors, and wherein each trigger rule of the plurality of trigger rules is used in a generation of particular emergent information;programming each sensor in the array of sensors with a relationship rule, wherein the relationship rule describes a hierarchy of communication control among sensors in the array of sensors, and wherein the relationship rule defines how each sensor, in the array of sensors, communicates with other sensors in the array of sensors, and wherein the relationship rule defines which sensor, in the array of sensors, communicates with a remote controller for the array of sensors;providing each sensor of the array of sensors with controlling software that defines a set of search patterns that utilizes the plurality of different types of sensors within the sensors, wherein the set of search patterns is stored within each sensor in the array of sensors, and wherein each sensor in the array of sensors is capable of generating emergent information about the array location;activating the array of sensors, wherein each sensor in the array of sensors monitors at least one condition of a plurality of conditions at the array location and transmits an event signal to the other sensors in the array of sensors in response to detecting an external stimulus that matches any of the set of search patterns stored within the sensor;in response to the plurality of conditions at the array location causing a predetermined percentage of sensors, from the array of sensors, to each transmit an event signal which conforms to a known search pattern of the set of search patterns: a first one or more sensors of the array of sensors consolidating event signals from all sensors in the array of sensors and generating emergent information about the array location, wherein the emergent information describes the plurality of conditions at the array location, and wherein the emergent information exists only when the predetermined percentage of sensors in the array of sensors each transmits an event signal;the first one or more sensors sharing the generated emergent information with a remote server via a first one or more communication channels; andin response to the first one or more sensors sharing the generated emergent information with a remote server via the first one or more communication channels, a second one or more sensors of the plurality of sensors sharing the generated emergent information with the remote server via a second one or more communication channels; andupdating, via the remote controller, at least one trigger rule of the plurality of trigger rules and the relationship rule in each sensor in the array of sensors.
Wang Hsu-Pin (Tallahassee FL) Huang Hsin-Hao (Kaohsiung TWX) Knapp Gerald M. (Baton Rouge LA) Lin Chang-Ching (Tallahassee FL) Lin Shui-Shun (Tallahassee FL) Spoerre Julie K. (Tallahassee FL), Machine fault diagnostics system and method.
Jordan Robert J. ; Herndon Douglas C. ; McMorrow Joseph A. ; Harrington John E. ; Constantine Harold E. ; Linzey Michael R., Marine vessel traffic system.
Yuasa Hajime (Akishima JPX) Hosono Kazuho (Akishima JPX) Kamiirisa Hikaru (Akishima JPX) Yamamoto Keijiro (Sagamihara JPX) Miyaji Hideyuki (Atsugi JPX), Measuring tool for collecting down hole information and metering valve for producing mud-pulse used in the same.
Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Method for collecting data using compact internetworked wireless integrated network sensors (WINS).
※ AI-Helper는 부적절한 답변을 할 수 있습니다.