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Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications [[electronic resource] /] / editors, Jean-Marc Theriault, James O. Jensen
| Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications [[electronic resource] /] / editors, Jean-Marc Theriault, James O. Jensen |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (545 p.) |
| Disciplina | 623.4/590287 |
| Altri autori (Persone) |
ThériaultJean-Marc <1954->
JensenJames O |
| Collana | Selected topics in electronics and systems |
| Soggetto topico |
Environmental monitoring - Remote sensing
Radioactive pollution - Remote sensing Chemical detectors Chemical terrorism - Prevention Biological weapons - Remote sensing Spectrum analysis |
| Soggetto genere / forma | Electronic books. |
| Soggetto non controllato |
ISSSR
Spectral sensing research Radiological defense applications Security applications Biological applications Air monitoring |
| ISBN |
1-282-76052-1
9786612760525 981-283-592-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; Foreword; Surface Sensing & Monitoring Sessions; Infrared Spectral Signatures: Creation of Reference Data for Vapors and Liquids S. Sharpe, T. Johnson, R. Sams, J. Hylden, J. Kleimeyer and B. Rowland; 1. Introduction; 2. Experiment; 2.1. Data Acquisition parameters; 2.2. Sample cell construction; 2.3. Sample cell characterization; 3. Sample analysis; 4. Results; 5. Conclusion; 6. Acknowledgements; 7. References; Appendix A. Physical properties of CWAs; Appendix B. Real and imaginary refractive indices of CWAs
Passive Standoff Detection of Surface Contaminants: A Novel Approach by Differential Polarization FTIR Spectrometry J.-M. Thériault, H. Lavoie, E. Puckrin and F. Bouffard1. Introduction; 2. Surface Radiance Phenomenology; 2.1. Modeling surface contaminant radiance: Unpolarized case; 2.2. Modeling surface contaminant radiance: Polarized case; 3. Standoff Sensor and Field Experiment; 3.1. CATSI instrument; 3.2. SURFCON field experiment; 3.3. Example of results; 4. Experimental and Modeling Study; 5. Optimized Sensor Design for Differential FTIR Sensing; 6. Conclusion; References Background Contributions in Direct and Differential Fourier Transform LWIR Measurements: A Comparative Analysis F. Bou.ard and J.-M. Thériault1. Introduction; 2. Experimental Setup; 3. Results; 3.1. Clustering; 3.2. Norm and spectral length; 3.3. Covariance; 3.4. Distribution of synthesis coefficients; 3.5. Background suppression; 4. Conclusion; References; Signal Processing of Multicomponent Raman Spectra of Particulate Matter J. Fochesatto and J. Sloan; 1. Introduction; 2. Experimental Setup; 3. Peak and Noise signals Removal from Raman Spectra; 3.1. Spike Removal in Raman Spectra 3.2. Noise Removal in Raman Spectra4. Baseline Reduction in Raman Spectra; 4.1. Baseline Reduction based on Polynomial Fitting; 5. Chemical Fingerprint Retrieval; 5.1. Chemical composition of aerosols during Pacific 2001 and ALERT 2002 experiments; 6. Discussion and Conclusions; 7. Acknowledgements; 8. References; Signature and Signal Generation Aspects of Explosive Detection Using Terahertz Time-Domain Spectroscopy R. Osiander, M. J. Fitch, M. Leahy-Hoppa, Y. Dikmelik and J. B. Spicer; 1. Introduction; 2. THz Spectroscopy for Explosives Detection: Background Information 3. THz Time-domain Transmission Spectroscopy of Explosives4. THz Time-Domain Reflection Spectroscopy; 5. Wave scattering from granular materials; 6. Conclusions; 7. Acknowledgments; References; Novel Application of Passive Stando. Radiometry for the Measurement of Explosives E. Puckrin, J.-M. Thériault, H. Lavoie, D. Dubé and P. Brousseau; 1. Introduction; 2. Detection Principles and Phenomenology; 3. Measurement Approach; 3.1. Laboratory measurements; 3.2. Field measurements; 4. Results and Analysis; 4.1. Laboratory measurements of diffuse reflectance 4.2. Simulation of the passive standoff detection of solid explosive materials |
| Record Nr. | UNINA-9910455870203321 |
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications [[electronic resource] /] / editors, Jean-Marc Theriault, James O. Jensen
| Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications [[electronic resource] /] / editors, Jean-Marc Theriault, James O. Jensen |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (545 p.) |
| Disciplina | 623.4/590287 |
| Altri autori (Persone) |
ThériaultJean-Marc <1954->
JensenJames O |
| Collana | Selected topics in electronics and systems |
| Soggetto topico |
Environmental monitoring - Remote sensing
Radioactive pollution - Remote sensing Chemical detectors Chemical terrorism - Prevention Biological weapons - Remote sensing Spectrum analysis |
| Soggetto non controllato |
ISSSR
Spectral sensing research Radiological defense applications Security applications Biological applications Air monitoring |
| ISBN |
1-282-76052-1
9786612760525 981-283-592-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; Foreword; Surface Sensing & Monitoring Sessions; Infrared Spectral Signatures: Creation of Reference Data for Vapors and Liquids S. Sharpe, T. Johnson, R. Sams, J. Hylden, J. Kleimeyer and B. Rowland; 1. Introduction; 2. Experiment; 2.1. Data Acquisition parameters; 2.2. Sample cell construction; 2.3. Sample cell characterization; 3. Sample analysis; 4. Results; 5. Conclusion; 6. Acknowledgements; 7. References; Appendix A. Physical properties of CWAs; Appendix B. Real and imaginary refractive indices of CWAs
Passive Standoff Detection of Surface Contaminants: A Novel Approach by Differential Polarization FTIR Spectrometry J.-M. Thériault, H. Lavoie, E. Puckrin and F. Bouffard1. Introduction; 2. Surface Radiance Phenomenology; 2.1. Modeling surface contaminant radiance: Unpolarized case; 2.2. Modeling surface contaminant radiance: Polarized case; 3. Standoff Sensor and Field Experiment; 3.1. CATSI instrument; 3.2. SURFCON field experiment; 3.3. Example of results; 4. Experimental and Modeling Study; 5. Optimized Sensor Design for Differential FTIR Sensing; 6. Conclusion; References Background Contributions in Direct and Differential Fourier Transform LWIR Measurements: A Comparative Analysis F. Bou.ard and J.-M. Thériault1. Introduction; 2. Experimental Setup; 3. Results; 3.1. Clustering; 3.2. Norm and spectral length; 3.3. Covariance; 3.4. Distribution of synthesis coefficients; 3.5. Background suppression; 4. Conclusion; References; Signal Processing of Multicomponent Raman Spectra of Particulate Matter J. Fochesatto and J. Sloan; 1. Introduction; 2. Experimental Setup; 3. Peak and Noise signals Removal from Raman Spectra; 3.1. Spike Removal in Raman Spectra 3.2. Noise Removal in Raman Spectra4. Baseline Reduction in Raman Spectra; 4.1. Baseline Reduction based on Polynomial Fitting; 5. Chemical Fingerprint Retrieval; 5.1. Chemical composition of aerosols during Pacific 2001 and ALERT 2002 experiments; 6. Discussion and Conclusions; 7. Acknowledgements; 8. References; Signature and Signal Generation Aspects of Explosive Detection Using Terahertz Time-Domain Spectroscopy R. Osiander, M. J. Fitch, M. Leahy-Hoppa, Y. Dikmelik and J. B. Spicer; 1. Introduction; 2. THz Spectroscopy for Explosives Detection: Background Information 3. THz Time-domain Transmission Spectroscopy of Explosives4. THz Time-Domain Reflection Spectroscopy; 5. Wave scattering from granular materials; 6. Conclusions; 7. Acknowledgments; References; Novel Application of Passive Stando. Radiometry for the Measurement of Explosives E. Puckrin, J.-M. Thériault, H. Lavoie, D. Dubé and P. Brousseau; 1. Introduction; 2. Detection Principles and Phenomenology; 3. Measurement Approach; 3.1. Laboratory measurements; 3.2. Field measurements; 4. Results and Analysis; 4.1. Laboratory measurements of diffuse reflectance 4.2. Simulation of the passive standoff detection of solid explosive materials |
| Record Nr. | UNINA-9910780725003321 |
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications / / editors, Jean-Marc Theriault, James O. Jensen
| Spectral sensing research for surface and air monitoring in chemical, biological and radiological defense and security applications / / editors, Jean-Marc Theriault, James O. Jensen |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | New Jersey, : World Scientific, c2009 |
| Descrizione fisica | 1 online resource (545 p.) |
| Disciplina | 623.4/590287 |
| Altri autori (Persone) |
TheriaultJean-Marc <1954->
JensenJames O |
| Collana | Selected topics in electronics and systems |
| Soggetto topico |
Environmental monitoring - Remote sensing
Radioactive pollution - Remote sensing Chemical detectors Chemical terrorism - Prevention Biological weapons - Remote sensing Spectrum analysis |
| Soggetto non controllato |
ISSSR
Spectral sensing research Radiological defense applications Security applications Biological applications Air monitoring |
| ISBN |
1-282-76052-1
9786612760525 981-283-592-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTENTS; Foreword; Surface Sensing & Monitoring Sessions; Infrared Spectral Signatures: Creation of Reference Data for Vapors and Liquids S. Sharpe, T. Johnson, R. Sams, J. Hylden, J. Kleimeyer and B. Rowland; 1. Introduction; 2. Experiment; 2.1. Data Acquisition parameters; 2.2. Sample cell construction; 2.3. Sample cell characterization; 3. Sample analysis; 4. Results; 5. Conclusion; 6. Acknowledgements; 7. References; Appendix A. Physical properties of CWAs; Appendix B. Real and imaginary refractive indices of CWAs
Passive Standoff Detection of Surface Contaminants: A Novel Approach by Differential Polarization FTIR Spectrometry J.-M. Thériault, H. Lavoie, E. Puckrin and F. Bouffard1. Introduction; 2. Surface Radiance Phenomenology; 2.1. Modeling surface contaminant radiance: Unpolarized case; 2.2. Modeling surface contaminant radiance: Polarized case; 3. Standoff Sensor and Field Experiment; 3.1. CATSI instrument; 3.2. SURFCON field experiment; 3.3. Example of results; 4. Experimental and Modeling Study; 5. Optimized Sensor Design for Differential FTIR Sensing; 6. Conclusion; References Background Contributions in Direct and Differential Fourier Transform LWIR Measurements: A Comparative Analysis F. Bou.ard and J.-M. Thériault1. Introduction; 2. Experimental Setup; 3. Results; 3.1. Clustering; 3.2. Norm and spectral length; 3.3. Covariance; 3.4. Distribution of synthesis coefficients; 3.5. Background suppression; 4. Conclusion; References; Signal Processing of Multicomponent Raman Spectra of Particulate Matter J. Fochesatto and J. Sloan; 1. Introduction; 2. Experimental Setup; 3. Peak and Noise signals Removal from Raman Spectra; 3.1. Spike Removal in Raman Spectra 3.2. Noise Removal in Raman Spectra4. Baseline Reduction in Raman Spectra; 4.1. Baseline Reduction based on Polynomial Fitting; 5. Chemical Fingerprint Retrieval; 5.1. Chemical composition of aerosols during Pacific 2001 and ALERT 2002 experiments; 6. Discussion and Conclusions; 7. Acknowledgements; 8. References; Signature and Signal Generation Aspects of Explosive Detection Using Terahertz Time-Domain Spectroscopy R. Osiander, M. J. Fitch, M. Leahy-Hoppa, Y. Dikmelik and J. B. Spicer; 1. Introduction; 2. THz Spectroscopy for Explosives Detection: Background Information 3. THz Time-domain Transmission Spectroscopy of Explosives4. THz Time-Domain Reflection Spectroscopy; 5. Wave scattering from granular materials; 6. Conclusions; 7. Acknowledgments; References; Novel Application of Passive Stando. Radiometry for the Measurement of Explosives E. Puckrin, J.-M. Thériault, H. Lavoie, D. Dubé and P. Brousseau; 1. Introduction; 2. Detection Principles and Phenomenology; 3. Measurement Approach; 3.1. Laboratory measurements; 3.2. Field measurements; 4. Results and Analysis; 4.1. Laboratory measurements of diffuse reflectance 4.2. Simulation of the passive standoff detection of solid explosive materials |
| Record Nr. | UNINA-9910826300703321 |
| New Jersey, : World Scientific, c2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
