초록 ▼

An air monitoring system is disclosed having an air monitoring unit with at least one sensor for measuring data of an air quality parameter and a computer for storing the air quality parameter data received from the sensor. The air monitoring unit may use an installed or a portable system, or a comb

An air monitoring system is disclosed having an air monitoring unit with at least one sensor for measuring data of an air quality parameter and a computer for storing the air quality parameter data received from the sensor. The air monitoring unit may use an installed or a portable system, or a combination of both, for measuring the air quality parameters of interest. A remote data center may be provided, and the data may be uploaded to the data center from the unit by a communications media such as the Internet. Information or instructions may also be downloaded from the data center to the unit via the communications media for controlling or modifying the function of the unit. An expert system may be provided with the air monitoring system for controlling the unit. The information or instructions downloaded to the unit may be generated by the expert system.

대표청구항 ▼

What is claimed is: 1. An air monitoring system for monitoring indoor locations, comprising: an air monitoring unit including at least one sensor for acquiring air quality parameter data at at least one indoor location; a source of environmental data representative of the outside of a building in

What is claimed is: 1. An air monitoring system for monitoring indoor locations, comprising: an air monitoring unit including at least one sensor for acquiring air quality parameter data at at least one indoor location; a source of environmental data representative of the outside of a building in which at least one indoor location is being monitored; and a computer including an expert system for controlling the air monitoring unit based at least in part on the acquired air quality parameter data; wherein the expert system is adapted to provide an air quality analysis based at least in part on the acquired air quality parameter data and the environmental data. 2. The air monitoring system of claim 1, wherein the expert system is adapted to analyze data from the air monitoring unit based at least in part on the acquired air quality parameter data. 3. The air monitoring system of claim 1, wherein: the expert system is adapted to configure a test to be performed by the air monitoring unit including at least the location of the test or the time duration for the test. 4. The air monitoring system of claim 1, wherein the expert system is adapted to provide a recommendation for improving the air quality parameter data. 5. The air monitoring system of claim 1, wherein the air monitoring unit is portable. 6. The air monitoring system of claim 1, wherein the expert system is provided within the air monitoring unit. 7. The air monitoring system of claim 1, wherein the air monitoring unit includes a program for acquiring the air quality parameter data and the expert system is adapted to modifying the program. 8. The air monitoring system of claim 1 wherein expert system is used at least in part to detect anomalies in the air monitoring unit. 9. The air monitoring system of claim 1 wherein expert system is used at least in part to detect tampered or faulty data. 10. The air monitoring system of claim 1, wherein the air monitoring unit is an installed system. 11. The air monitoring system of claim 1, wherein the source of environmental data is from at least one location outside the building for which the air monitoring unit acquired air quality parameter or environmental data. 12. An air monitoring system for monitoring indoor locations, comprising: an air monitoring unit including at least one sensor for measuring air quality parameter data at at least one indoor location, and a computer for storing the data received from the at least one sensor; a remote data center including, a database for storing the air quality parameter data, and an expert system interactive with the air quality parameter data for analysis of the air quality parameter data, the expert system using at least one of a rule-based method, a case-based method, or a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data; and a communication link between the remote data center and the air monitoring unit, the communication link including a data communication network that is adapted to handle communications between two or more other devices in addition to the communications between the remote data center and the air monitoring unit; wherein the remote data center sends information to the air monitoring unit through the communication link to modify the function of the air monitoring unit. 13. The air monitoring system of claim 12, wherein the expert system generates the information, and is adapted to send the information to the air monitoring unit. 14. The air monitoring system of claim 12, wherein the expert system is adapted to send information to the air monitoring unit to command the air monitoring unit to take a grab sample. 15. The air monitoring system of claim 12, wherein the air monitoring unit includes operational parameters, and the remote data center is adapted to send information to the unit to change the operational parameters. 16. The air monitoring system of claim 12, wherein the air monitoring unit includes a program to instruct the air monitoring unit in measuring air quality parameter data, and the remote data center is adapted to send information to the air monitoring unit to change the program. 17. The air monitoring system of claim 12, wherein the air monitoring unit includes a set-up parameter, and the remote data center is adapted to change the set-up parameter in the air monitoring unit. 18. The air monitoring system of claim 12, wherein the communications link includes the Internet. 19. The air monitoring system of claim 12, wherein the remote data center is adapted to send information to the air-monitoring unit to command the air monitoring unit to take a grab sample. 20. The air monitoring system of claim 12, wherein the communications link includes a building's data network. 21. The air monitoring system of claim 12, wherein the communications link includes a building control system network. 22. The air monitoring system of claim 12, wherein the communications link includes a local area network. 23. The air monitoring system of claim 12, wherein at least a portion of the communications between the remote data center and the air monitoring unit is encrypted. 24. Apparatus for monitoring indoor locations, comprising: an air monitoring system having at least one sensor for acquiring air quality parameter data at at least one selected indoor location; a source of environmental data representative of the outside of a building in which at least one indoor location is being monitored; and a computer comprising an expert system for analyzing the acquired air quality parameter data and reaching a conclusion regarding air quality of the selected indoor location; wherein the expert system is adapted to provide an air quality analysis based at least in part on the acquired air quality parameter data and the environmental data. 25. Apparatus as defined in claim 24, wherein the computer comprising the expert system is a local part of the air monitoring system. 26. Apparatus as defined in claim 24, wherein the computer comprising the expert system is remotely located from said air monitoring system with communications between the expert system and the air monitoring system that at least includes information related to the air quality parameter data acquired by the air monitoring system. 27. Apparatus as defined in claim 24, wherein said expert system for analyzing the acquired air quality parameter data additionally analyzes information representative of the selected indoor location in order to reach said conclusion. 28. Apparatus as defined in claim 24, wherein said expert system comprises two or more experts for determining intermediate results and an expert coordinator for combining said intermediate results to reach said conclusion. 29. Apparatus as defined in claim 24, wherein said expert system can make a recommendation for improving the air quality of the selected indoor location. 30. Apparatus as defined in claim 24, wherein said expert system can control at least a portion of the operations of said air monitoring system. 31. Apparatus as defined in claim 24, wherein said expert system can modify at least a portion of the operation of the air monitoring system in response to the acquired air quality parameter data. 32. Apparatus as defined in claim 24, wherein said air monitoring system further comprises an air sampling device and wherein said expert system can issue a command to said air sampling device to acquire an air sample in response to the acquired air quality parameter data meeting a predetermined criteria. 33. Apparatus as defined in claim 24, wherein said air monitoring system comprises a portable air monitoring unit that is easily movable to different selected indoor locations. 34. Apparatus as defined in claim 24, wherein said air monitoring system comprises an installed system for monitoring air quality in multiple indoor locations. 35. Apparatus as defined in claim 24, wherein the expert system operates at least on occupant symptom data from the indoor location. 36. Apparatus as defined in claim 24, wherein the expert system operates at least on user supplied information about the indoor location. 37. Apparatus as defined in claim 24, wherein the expert system operates at least on historical indoor air quality data in addition to current indoor air quality data from the indoor location. 38. Apparatus as defined in claim 24, wherein the expert system can learn or improve its effectiveness by accepting user feedback on the effectiveness of its conclusions. 39. Apparatus as defined in claim 38, wherein data mining is used to assist the learning process. 40. Apparatus as defined in claim 24, wherein the expert system uses two or more of rule, case, or pattern recognition based methods and combines their results to create an overall assessment of the air quality parameter data. 41. Apparatus as defined in claim 24, wherein the expert system uses blackboarding techniques to combine multiple expert system methods. 42. Apparatus as defined in claim 41, wherein a web session is used as the expert system blackboard. 43. Apparatus as defined in claim 24, wherein said expert system uses at least both a rule-based method and a case-based method to process the air quality parameter data. 44. Apparatus as defined in claim 24, wherein said expert system uses at least both a rule-based method and a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data. 45. Apparatus as defined in claim 24, wherein said expert system uses at least both a case-based method and a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data. 46. Apparatus as defined in claim 24, wherein said expert system uses at least a case-based method, a rule-based method, or a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data. 47. Apparatus as defined in claim 24, wherein the source of environmental data is from at least one location outside the building for which the air monitoring system acquired air quality parameter or environmental data. 48. Apparatus as defined in claim 24, wherein the expert system is used at least in part to detect tampered or faulty data. 49. Apparatus as defined in claim 24, wherein said air monitoring system has sensors for at least acquiring three different types of air quality parameter data. 50. Apparatus as defined in claim 24, wherein said air monitoring system has at least a carbon dioxide sensor, a particle sensor, and a humidity sensor. 51. Apparatus as defined in claim 24, wherein said air monitoring system has at least a carbon dioxide sensor and a TVOC sensor. 52. The apparatus as defined in claim 26, wherein at least a portion of the communications between the remotely located expert system and the air monitoring system is encrypted. 53. The apparatus as defined in claim 26, wherein the communications between the expert system and the air monitoring system occurs on a communications link between the expert system and the air monitoring system, the communication link including a data communication network that is adapted to handle communications between two or more other devices in addition to the communications between the expert system and the air monitoring system. 54. An air monitoring system for monitoring indoor locations, comprising: an air monitoring unit including at least one sensor for acquiring air quality parameter data at at least one indoor location; and a computer including an expert system for controlling the air monitoring unit based at least in part on the acquired air quality parameter data, wherein the computer comprising the expert system is remotely located from said air monitoring system, communications between the expert system and the air monitoring system at least including information related to the air quality parameter data acquired by the air monitoring system; and wherein the communications between the expert system and the air monitoring system occurs on a communications link between the expert system and the air monitoring system, the communication link including a data communication network that is adapted to handle communications between two or more other devices in addition to the communications between the expert system and the air monitoring system. 55. The air monitoring system of claim 54, wherein the expert system is adapted to analyze data from the air monitoring unit based at least in part on the acquired air quality parameter data. 56. The air monitoring system of claim 54, wherein the expert system is adapted to provide a recommendation for improving the air quality parameter data. 57. The air monitoring system of claim 54, wherein the expert system is used at least in part to detect tampered or faulty data. 58. Apparatus for monitoring indoor locations, comprising: an air monitoring system having at least one sensor for acquiring air quality parameter data at at least one selected indoor location, said air monitoring system having at least a carbon dioxide sensor and a TVOC sensor; and a computer comprising an expert system for analyzing the acquired air quality parameter data and reaching a conclusion regarding air quality of the selected indoor location. 59. Apparatus as defined in claim 58, wherein the expert system uses at least a case-based method, a rule-based method, or a pattern recognition method using fuzzy reasoning over patterns, to process the air quality parameter data, and wherein the computer comprising the expert system is remotely located from said air monitoring system with communications between the expert system and the air monitoring system that at least includes information related to the air quality parameter data acquired by the air monitoring system. 60. Apparatus as defined in claim 59, wherein at least a portion of the communications between the remotely located expert system and the air monitoring system is encrypted. 61. Apparatus as defined in claim 59, wherein the communications between the expert system and the air monitoring system occurs on a communications link between the expert system and the air monitoring system, the communication link including a data communication network that is adapted to handle communications between two or more other devices in addition to the communications between the expert system and the air monitoring system. 62. Apparatus as defined in claim 58, wherein said expert system can make a recommendation for improving the air quality of the selected indoor location. 63. Apparatus as defined in claim 58, wherein the expert system operates at least on user supplied information about the at least one selected indoor location. 64. Apparatus as defined in claim 58, wherein the expert system operates at least on historical indoor air quality data in addition to current indoor air quality data from the at least one selected indoor location. 65. Apparatus as defined in claim 58, further comprising: a source of environmental data representative of the outside of a building in which at least one indoor location is being monitored; wherein the expert system uses at least a case-based method, a rule-based method, or a pattern recognition method using fuzzy reasoning over patterns, to process the air quality parameter data, and wherein the expert system is adapted to provide an air quality analysis based at least in part on the acquired air quality parameter data and the environmental data. 66. Apparatus as defined in claim 59, wherein the expert system is used at least in part to detect tampered or faulty data. 67. Apparatus as defined in claim 58, wherein said air monitoring system has at least a carbon dioxide sensor, a particle sensor, and a humidity sensor. 68. The apparatus of claim 58, wherein the expert system controls the air monitoring system based at least in part on the acquired air quality parameter data. 69. Apparatus for monitoring indoor locations, comprising: an air monitoring system having at least one sensor for acquiring air quality parameter data at at least one selected indoor location; and a computer comprising an expert system for analyzing the acquired air quality parameter data and reaching a conclusion regarding air quality of the selected indoor location, wherein the computer comprising the expert system is remotely located from said air monitoring system with communications between the expert system and the air monitoring system at least including information related to the air quality parameter data acquired by the air monitoring system; and wherein communications between the expert system and the air monitoring system occurs on a communications link between the expert system and the air monitoring system, the communication link including a data communication network that is adapted to handle communications between two or more other devices in addition to the communications between the expert system and the air monitoring system. 70. Apparatus as defined in claim 69, wherein the expert system uses at least a case-based method, a rule-based method, or a pattern recognition method using fuzzy reasoning over patterns, to process the air quality parameter data. 71. Apparatus as defined in claim 69, wherein at least a portion of the communications between the remotely located expert system and the air monitoring system is encrypted. 72. Apparatus as defined in claim 69, wherein said expert system can make a recommendation for improving the air quality of the selected indoor location. 73. Apparatus as defined in claim 69, wherein the expert system operates at least on user supplied information about the at least one selected indoor location. 74. Apparatus as defined in claim 69, wherein the expert system operates at least on historical indoor air quality data in addition to current indoor air quality data from the at least one selected indoor location. 75. Apparatus as defined in claim 70, further comprising: a source of environmental data representative of the outside of a building in which at least one indoor location is being monitored; wherein the expert system is adapted to provide an air quality analysis based at least in part on the acquired air quality parameter data and the environmental data. 76. Apparatus as defined in claim 69, wherein the expert system is used at least in part to detect tampered or faulty data. 77. Apparatus as defined in claim 69, wherein said air monitoring system has at least a carbon dioxide sensor, a particle sensor, and a humidity sensor. 78. Apparatus as defined in claim 69, wherein said air monitoring system has at least a carbon dioxide sensor and a TVOC sensor. 79. Apparatus as defined in claim 69, wherein the computer comprising the expert system is a local part of the air monitoring system. 80. Apparatus as defined in claim 69, wherein said expert system comprises two or more experts for determining intermediate results and an expert coordinator for combining said intermediate results to reach said conclusion. 81. Apparatus as defined in claim 69, wherein said expert system can control at least a portion of the operations of said air monitoring system. 82. Apparatus as defined in claim 69, wherein said expert system can modify at least a portion of the operation of the air monitoring system in response to the acquired air quality parameter data. 83. Apparatus as defined in claim 69, wherein said air monitoring system further comprises an air sampling device and wherein said expert system can issue a command to said air sampling device to acquire an air sample in response to the acquired air quality parameter data meeting a predetermined criteria. 84. Apparatus as defined in claim 69, wherein said air monitoring system comprises a portable air monitoring unit that is easily movable to different selected indoor locations. 85. Apparatus as defined in claim 69, wherein said air monitoring system comprises an installed system for monitoring air quality in multiple indoor locations. 86. Apparatus as defined in claim 69, wherein the expert system operates at least on occupant symptom data from the indoor location. 87. Apparatus as defined in claim 69, wherein the expert system can learn or improve its effectiveness by accepting user feedback on an effectiveness of its conclusions. 88. Apparatus as defined in claim 87, wherein data mining is used to assist the expert system in learning. 89. Apparatus as defined in claim 69, wherein the expert system uses two or more of rule, case, or pattern recognition based methods and combines their results to create an overall assessment of the air quality parameter data. 90. Apparatus as defined in claim 69, wherein the expert system uses blackboarding techniques to combine multiple expert system methods. 91. Apparatus as defined in claim 90, wherein a web session is used as the expert system blackboard. 92. Apparatus as defined in claim 69, wherein said expert system uses at least both a rule-based method and a case-based method to process the air quality parameter data. 93. Apparatus as defined in claim 69, wherein said expert system uses at least both a rule-based method and a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data. 94. Apparatus as defined in claim 69, wherein said expert system uses at least both a case-based method and a pattern recognition method using fuzzy reasoning over patterns to process the air quality parameter data. 95. Apparatus as defined in claim 75, wherein the source of environmental data is from at least one location outside the building for which the air monitoring system acquired air quality parameter data. 96. Apparatus as defined in claim 69, wherein said air monitoring system has sensors for at least acquiring three different types of air quality parameter data.