IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0617521
(2006-12-28)
|
등록번호 |
US-7561037
(2009-07-27)
|
발명자
/ 주소 |
|
인용정보 |
피인용 횟수 :
34 인용 특허 :
103 |
초록
▼
A security and surveillance system for aircraft on the ground incorporates a plurality of strategically spaced sensors including video imaging generators, audio sensors, motion detectors, and fire and smoke detectors for monitoring critical components and critical areas of both the interior and the
A security and surveillance system for aircraft on the ground incorporates a plurality of strategically spaced sensors including video imaging generators, audio sensors, motion detectors, and fire and smoke detectors for monitoring critical components and critical areas of both the interior and the exterior of the a commercial transport such as an aircraft. The system is a comprehensive multi-media safety, tracking and/or surveillance system, which provides both visual and/or audio information as well as critical data such as location, direction, intrusion, fire and/or smoke detection and/or status of environmental conditions and/or asset systems status. The collected information is analyzed and prioritized according to type of event, location and nature of required response for automatically dispatching the proper response. The captured data and images are transmitted to a ground based security station for display on a monitor and may be recorded on a "black box" recorder as well as on a ground based recording system.
대표청구항
▼
What is claimed is: 1. A system for monitoring a location for the occurrence of an event, collecting information relating to the event, prioritizing the information and dispatching an appropriate response based on the prioritized information, the method comprising the steps of: a. placing strategic
What is claimed is: 1. A system for monitoring a location for the occurrence of an event, collecting information relating to the event, prioritizing the information and dispatching an appropriate response based on the prioritized information, the method comprising the steps of: a. placing strategically located sensors having a geographic location identifier in a position adapted for monitoring the location, said sensors further adapted for generating a data signal upon the occurrence of an event; b. providing response personnel and equipment with receivers adapted for receiving selected collected and analyzed data; c. further providing response personnel and equipment with location sensors for generating a location signal identifying their precise geographic location at any point in time; d. collecting and analyzing the data signal in order to determine the time, location and type of event; and e. alerting and dispatching appropriate response personnel and equipment to the location of the event based on their proximity and resources relative to the event. 2. The method of claim 1, wherein said geographic location identifiers are GPS signal generators. 3. The method of claim 1, further including the step of recording the collected and analyzed data. 4. The method of claim 1, wherein said location is a moveable asset and the location identifier is adapted for providing the step of tracking the movement of said moveable asset. 5. The method of claim 4, wherein the prioritizing step includes identifying the location of the moveable asset when an event occurs and determining the personnel and equipment in closest proximity to the moveable asset when the event occurs. 6. The method of claim 1, wherein the step of placing strategically located sensors includes the step of placing a plurality of specific location sensors at each location in order to monitor and define the type of event occurring. 7. The method of claim 6, wherein said event detection sensors are event activated. 8. The method of claim 6, wherein said event detection sensors are programmed to operate on a timed-interval basis. 9. The method of claim 6, wherein said event detection sensors operate on a real time basis for continuous monitoring of the location and wherein there is further included the step of providing an alert signal upon the occurrence of an event. 10. The method of claim 1, including the additional step of providing personnel and equipment with a signal generator for identifying the type and/or training of the personnel and the type of asset whereby appropriately equipped assets and personnel are alerted and dispatched to the event. 11. The method of claim 10, wherein the collecting step includes: a. identifying the type of personnel in the system; b. identifying the type of equipment in the system; c. identifying the type of event occurring; and d. matching the personnel and equipment to the event. 12. The method of claim 10, wherein the alerting and dispatching step includes alerting the matched personnel and equipment to respond based on proximity to the event. 13. The method of claim 1, further including the step of collecting feedback data from the personnel and equipment dispatched to an event in order to assure response. 14. The method of claim 13, further including the step of logging the feedback data for archive purposes. 15. The method of claim 1, further including the step of mapping the location of an event on a system map. 16. The method of claim 15, wherein the mapping step further includes selecting and positioning and event identifying icon on the system map. 17. The method of claim 16, wherein the mapping step further includes tagging the icon with event critical information. 18. The method of claim 16, further including the step of removing the event icon once an event is closed. 19. A security monitoring, surveillance and event response system comprising: a. a ground based monitoring station for monitoring the position of and conditions relative to a commercial transport when in port; b. a network of ground based sensors each operational within a predefined operating zone and adapted for monitoring a selected conditions associated with the commercial transport while within the operating zone for generating a unique data signal representing the specific condition to be monitored for describing the condition and location of the commercial transport while within the zone; and c. communication system for transmitting the unique data signal from each of the network of sensors to the ground based monitoring station for monitoring the selected conditions at the commercial transport, whereby both the condition and the location of the commercial transport may be determined, the communication system adapted for identifying the event based on the unique data signal and for generating a response based on the location and type of event. 20. The system of claim 19, wherein at least one of the ground based sensors is hard-wired directly to the ground based monitoring station. 21. A system for monitoring an environment on board a movable transport, the system comprising: at least one camera on board the transport, the at least one camera being trained on a field of view, the at least one camera collecting image data of the field of view, the at least one camera including a compressor, the compressor being configured to compress the image data to generate compressed image data, the at least one camera being configured to output the compressed image data; at least one GPS receiver on board the transport, the at least one GPS receiver being configured to generate GPS location information about a location of the transport; at least one wireless transmitter on board the transport, the at least one wireless transmitter being configured to receive the compressed image data, the at least one wireless transmitter being configured to receive the GPS location information, the at least one wireless transmitter being configured to transmit at least one wireless transmission, the at least one wireless transmission carrying the compressed image data, the at least one wireless transmission carrying the GPS location information; a wireless receiver remote from the transport, the wireless receiver being configured to receive the at least one wireless transmission; an internet protocol network in communication with the wireless receiver, the internet protocol network being configured to carry the compressed image data, the internet protocol network being configured to carry the GPS location information; and at least one monitoring station in communication with the internet protocol network, the at least one monitoring station being configured to display for viewing at least one displayed image of the field of view of the at least one camera, the at least one displayed image being associated with at least one of the following: the GPS location information, the at least one GPS receiver, the at least one camera, the transport. 22. The system according to claim 21 and further comprising: at least one software application embodied in media, the at least one software application being executable upon a suitable processor, upon occurrence of a response event relating to the movable transport execution of the at least one software application performing a response analysis, the response analysis providing at least one result. 23. The system according to claim 22 and further comprising: the at least one result being dependent upon at least one of the following: consideration of the response event according to event type, consideration of location of the response event, consideration of the transport according to transport type, consideration of identity of the transport, consideration of location of the transport, consideration of route of the transport, consideration of image data of the at least one camera, consideration of a location of the at least one camera, consideration of a location of the field of view, consideration of output of an executable image recognition application processing image data of the field of view, consideration of the image data, consideration of a sensor signal according to sensor type, consideration of location of a sensor, consideration of an alarm signal according to alarm type, consideration of location of an alarm signal, consideration of alarm source, and consideration of time of occurrence of the response event. 24. The system according to claim 23 and further comprising: the sensor signal originating from an audio sensor on board the movable transport. 25. The system according to claim 22 and further comprising: at least one response resource indicia accessible by the at least one software application, the at least one response resource indicia indicating a status of at least one response resource; the at least one result being dependent upon the at least one response resource indicia. 26. The system according to claim 25 and further comprising: the at least one response resource indicia including location information of the at least one response resource, the at least one result being dependent upon location information of the at least one response resource. 27. The system according to claim 25 and further comprising: the at least one response resource indicia including information about response capability for an event type of the at least one response resource, the at least one result being dependent upon response capability for an event type of the at least one response resource. 28. The system according to claim 26 and further comprising: the at least one response resource indicia including information about response capability for an event type of the at least one response resource, the at least one result being dependent upon response capability for an event type of the at least one response resource. 29. The system according to claim 25 and further comprising: the at least one result providing information for alerting at least one response resource to respond to the response event. 30. The system according to claim 25 and further comprising: the at least one result providing information about comparison of status for at least two response resources. 31. The system according to claim 30 and further comprising: the information about comparison of status including comparison of time for arrival at an event location of at least two response resources. 32. The system according to claim 30 and further comprising: the information about comparison of status including comparison of information about response capability for an event type of at least two response resources. 33. Application software for use in a monitoring system, the application software being embodied in suitable media, the application software being executable by a processor, execution of the application software performing a response analysis for a movable transport, the monitoring system including at least one monitoring station remote from the transport, the monitoring system including an internet protocol network in communication with the at least one monitoring station for communicating information from at least one wireless receiver to the at least one monitoring station, the internet protocol network conveying to the at least one monitoring station compressed image data, the compressed image data when decompressed being used to generate a display for viewing at the monitoring station at least one visual image from a field of view of at least one camera on board the transport, the internet protocol network conveying to the at least one monitoring station GPS location information, the GPS location information being generated by at least one GPS receiver on board the transport, the monitoring system including at least one wireless transmitter on board the transport for transmitting at least one wireless transmission to the at least one wireless receiver, the at least one wireless transmission conveying the compressed image data to the at least one wireless receiver, the at least one wireless transmission conveying the GPS location information to the at least one wireless receiver, the application software comprising: the application software being configured to receive input, the input including the GPS location information and at least one of the following: an event type of a response event, a transport type of the transport, identity of the transport, travel route of the transport, image data of at least one camera on board the transport, location of the at least one camera, location of a field of view of the at least one camera, output from an executable image recognition application software, the image recognition application software processing image data of the field of view of the at least one camera, a sensor type for a sensor originating a sensor signal, location of a sensor originating a sensor signal, an alarm type for an alarm originating an alarm signal, and location of an alarm originating an alarm signal; and the application software being configured to generate at least one result upon occurrence of a response event, the at least one result being dependent upon the input, the at least one result providing information for alerting at least one response resource to respond to the response event. 34. The application software according to claim 33 and further comprising: the sensor signal originating from an audio sensor on board the movable transport. 35. The application software according to claim 33 and further comprising: the application software being configured to access at least one response resource indicia, the at least one response resource indicia indicating a status of at least one response resource; the at least one result being dependent upon the at least one response resource indicia. 36. The application software according to claim 35 and further comprising: the at least one response resource indicia including location information of the at least one response resource, the at least one result being dependent upon location information of the at least one response resource. 37. The application software according to claim 35 and further comprising: the at least one response resource indicia including information about response capability for an event type of the at least one response resource, the at least one result being dependent upon response capability for an event type of the at least one response resource. 38. The application software according to claim 36 and further comprising: the at least one response resource indicia including information about response capability for an event type of the at least one response resource, the at least one result being dependent upon response capability for an event type of the at least one response resource. 39. The application software according to claim 35 and further comprising: the at least one result providing information about comparison of status for at least two response resources. 40. The application software according to claim 39 and further comprising: the information about comparison of status including comparison of time for arrival at an event location of at least two response resources. 41. The application software according to claim 39 and further comprising: the information about comparison of status including comparison of information about response capability for an event type of at least two response resources.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.