Distributed sensor network with a common processing platform for CBMRNE devices and novel applications

1. An integrated chemical, biological, metals, radiation, nuclear, and explosives (CBMRNE) materials detection and identification system, comprising one or more of the following types:

• a plurality of sensors, comprising one or more of the following types;
  
  chemical detection sensors,chemical identification sensors,biological detection sensors,biological identification sensors,radiation detection sensors,radiation identification sensors,nuclear detection sensors,nuclear identification sensors,explosives detection sensors, andexplosives identification sensors;
  
  a digital data collection system and communications system, communicatively coupled with the plurality of detection and identification sensors, for transfer of collected radiation data to an analysis system; and
  
  a spectral analysis system, communicatively coupled with the digital data collection system and communications system, to analyze sensor data provided by the plurality of sensors to identify the specific, chemical and biological materials or isotopes present; and
  
  an information processing system, communicatively coupled with the spectral analysis system, that analyzes the chemical, biological, explosives, or isotopes found to identify if the materials are hazardous and the possible materials or goods that they represent;
  
  a centralized database for analysis of event data, statistics, patterns, forensic analysis and projections;
  
  wherein the spectral analysis system further for, when the plurality of sensors includes a radiation or nuclear sensor, differentiating between gamma pulses and neutron pulses, by;
  
  receiving a signal from an output of a neutron detector;
  
  analyzing a pulse shape of the signal, differentiating the pulse shape between gamma pulses and neutron pulses; and
  
  determining that the pulse shape of the signal is one of a gamma pulse and a neutron pulse; and
  
  further wherein a sensor integration unit is deployed as a network edge device to allow sensor connection from the plurality of sensors to a communication network, the sensor integration unit further for using background radiation as a comparison source for auto calibration of the sensor integration unit when being communicatively coupled with one or more radiation sensors.