Architectures of sensor networks for biological and chemical agent detection and identification
First Claim
1. A network for detecting biological agents, the network comprising:
- a plurality of sensors for detecting agents in an area with a probability of accuracy;
a controller communicatively coupled to the sensors for receiving information from the sensors to determine whether such agents are a threat with a greater probability than any individual sensor.
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Abstract
A sensor network provides the ability to detect, classify and identify a diverse range of agents over a large area, such as a geographical region or building. The network possesses speed of detection, sensitivity, and specificity for the diverse range of agents. Different functional level types of sensors are employed in the network to perform early warning, broadband detection and highly specific and sensitive detection. A high probability of detection with low probability of false alarm is provided by the processing of information provided from multiple sensors. A Bayesian net is utilized to combine probabilities from the multiple sensors in the network to reach a decision regarding the presence or absence of a threat. The network is field portable and capable of autonomous operation. It also is capable of providing automated output decisions.
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Citations
28 Claims
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1. A network for detecting biological agents, the network comprising:
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a plurality of sensors for detecting agents in an area with a probability of accuracy;
a controller communicatively coupled to the sensors for receiving information from the sensors to determine whether such agents are a threat with a greater probability than any individual sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A network for detecting chemical and biological agent threats, the network comprising:
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a plurality of different types of sensors for detecting biological agents in an area;
a controller communicatively coupled to the sensors for phasing operation of the sensors based on information received from the sensors to determine whether an agent threat exists. - View Dependent Claims (10, 11, 12, 13)
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14. A network for detecting chemical and biological agents, the network comprising:
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a plurality of different types of sensors for detecting biological agents in a confined space, wherein the sensors are dispersed within the space;
a controller communicatively coupled to the sensors for receiving information from the sensors to determine whether an agent threat exists for the space.
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15. A network for detecting agents, the network comprising:
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a plurality of sensors for detecting agents in an area;
a controller communicatively coupled to the sensors for controlling the sensors and receiving information from the sensors to determine whether an agent threat exists based on probabilities of agents received from the sensors.
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16. A network for detecting agents, the network comprising:
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a plurality of different sensors for detecting agents in an area, wherein the different types of sensors are placed at predetermined positions within the area;
a controller communicatively coupled to the sensors for controlling the sensors and receiving information from the sensors to determine whether an agent threat exists.
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17. A network for detecting biological agents, the network comprising:
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a plurality of sensors for detecting agents in multiple areas with a probability of accuracy;
a plurality of integrating controllers communicatively coupled to selected groups of sensors protecting each area for receiving information from the sensors to determine whether such agents are a threat to a respective area with a greater probability than any individual sensor; and
an operating controller that receives information propagated to it from the integrating controllers and performs data fusion to determine a final decision for the entire area under protection.
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18. A network for detecting agents, the network comprising:
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a plurality of sensors for detecting agents in an area;
a controller communicatively coupled to the sensors for controlling the sensors and receiving information from the sensors to determine whether an agent threat exists, wherein some of the sensors are controlled by the controller based on information received from at least one of the other sensors.
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19. A method of detecting chemical and biological agent threats using a network of multiple different types of sensors, the method comprising:
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receiving an indication of a probable threat from at least one of the sensors;
modifying a sequence of operation of other sensors in the network based on the indication provided by the at least one of the sensors. - View Dependent Claims (20, 21, 22, 23)
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24. A network for detecting agents, the network comprising:
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a plurality of different sensors for detecting agents in an area, wherein the different types of sensors are placed at predetermined positions within the area;
a controller communicatively coupled to the sensors for controlling the sensors and receiving information from the sensors to determine whether an agent threat exists; and
a modeling system to determine the optimum location of the sensors.
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25. A method of making a network for detecting agents, the method comprising:
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selecting a plurality of different sensors for detecting agents in an area;
placing the different types of sensors at predetermined positions within the area;
controlling the sensors and receiving information from the sensors to determine whether an agent threat exists; and
modeling the system to determine the optimum location of the sensors.
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26. A method of forming a network for detecting agents, the method comprising:
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selecting a plurality of different type of sensors for detecting agents in an area;
determining characteristics of the sensors;
using the characteristics of the sensors to model the sensors; and
configuring the network with the sensors using a genetic-algorithm-based system optimization. - View Dependent Claims (27)
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28. A method of modeling sensors for a network that detects agents, the method comprising:
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creating multiple threat scenarios having different agent/clutter ratios;
collecting sample of the threats;
preparing the samples for sensing by the sensors;
verifying the threats; and
analyzing the performance of the sensors using the verified threats to create a component database.
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Specification