References

References used throughout the Biological Sensor Fusion project are included below, in alphabetical order.

Ref#	Reference
[1]	Advanced Liquid Logic. (2007). Advanced Liquid Logic receives prestigious Frost & Sullivan Award [WWW page]. URL: http://www.liquid-logic.com/documents/press%20release%20FS%20award%2006-07.pdf
[2]	Ahi, E. Caglar, M. Ozkasap, O. Message Buffering in Epidemic Data Dissemination. Department. of Computational Science and Engineering, Department. of Mathematics, Department. of Computer Engineering, Koc University, Istanbul, Turkey. Proceedings of the Seventh IEEE International Symposium on Computer Networks (ISCN'06). 2006.
[3]	Anthrax. (2008, February 9). In Wikipedia, The Free Encyclopedia. Retrieved 16:29, February 9, 2008, from http://en.wikipedia.org/w/index.php?title=Anthrax&oldid=190117061.
[4]	AZoNanotechnology New Technology: Biological Sensors To Monitor Living Cells. The A to Z of Nanotechnology. Online: http://www.azonano.com/details.asp?ArticleID=729. 30 March 2004.
[5]	Biological Threats and Terrorism: Assessing the Science and Response Capabilities: Workshop Summary. Institute of Medicine. The National Academies Press. Online: http://books.nap.edu/openbook.php?record_id=10290&page=1. Retrieved 22 Feb 2008.
[6]	Bornhorst, R. Grillo, R. Janardhanan, D. Krishna, S. Poole, K. The Biological Attack Model (BAM). George Mason University (GMU), Operations Research (OR) 680 Final Report. 2 May 2007.
[7]	Broad, William. A NATION CHALLENGED: THE BIOLOGICAL THREAT; U.S. Is Still Selling Reports on Making Biological Weapons, New York Times, 7 February 2008, online: http://query.nytimes.com/gst/fullpage.html?res=9C03EFDA1738F930A25752C0A9649C8B63.
[8]	Carrano, J. Chemical and Biological Sensor Standards Study. Defense Advanced Research Projects Agency (DARPA). 2005.
[9]	Carus, Seth. Defining “Weapons of Mass Destruction”. National Defense University Center for the Study of Weapons of Mass Destruction. Occasional Paper 4. January 2006, online: http://www.ndu.edu/WMDCenter/docUploaded//OP4Carus.pdf.
[10]	Cetin, M. et al. Distributed Fusion in Sensor Networks. IEEE Signal Processing Magazine [42], JULY 2006.
[11]	Chandrasekaran, K. Epidemic Routing for Partially Connected Ad-Hoc Networks. University of Kansas, Lawrence.
[12]	Chicago, IL. Online: http://www.citytowninfo.com/places/illinois/chicago. CityTownInfo.com. Retrieved 17 Feb 2008.
[13]	Chicago Real-time Traffic Report Map. GCM Travel. Online: http://www.gcmtravel.com/gcm/maps.jsp. Retrieved 17 Feb 2008.
[14]	Chicago Transit Map. Online: http://egov.cityofchicago.org/webportal/COCWebPortal/COC_EDITORIAL/ChicagoTransit.pdf. Retrieved 17 Feb 2008.
[15]	Common Chemical, Biological, Radiological, Nuclear (CBRN) Sensor Interface (CCSI). Joint Program Executive Office for Chemical and Biological Defense (JPEO-CBD), Software Support Activity (SSA). Version V1.0 Final. 31 January 2008.
[16]	Countering Bioterrorism. U.S. Food and Drug Administration Center for Biologics Evaluation and Research. Online. Retrieved February 9, 2008, from http://www.fda.gov/cber/cntrbio/cntrbio.htm.
[17]	DARPA Biological Warfare Defense RDT&E Budget Justification. February 2006.
[18]	He, T. Lu, C. Stankovic, J. Abdelzaher, T. A Spatialtemporal Communication Protocol for Wireless Sensor Networks. IEEE Transactions on Parallel and Distributed Systems. Vol 16 Number 10. October 2005.
[19]	Helmy, A. Architectural Framework for Large-Scale Multicast in Mobile Ad Hoc Networks. University of Southern California Electrical Engineering Department. IEEE. 2002.
[20]	Henderson, D.A. Bioterrorism as a Public Health Threat, in Emerging Infectious Diseases. Online: http://www.cdc.gov/ncidod/eid/vol4no3/hendrsn.htm. July-Sept. 1998; Vol. 4, No. 3.
[21]	Hollerung, T. D. Bleckmann, P. Topic No. 9: Epidemic Algorithms. Universitat Paderborn. 4 August 2004.
[22]	ICx MesoSystems biological threat sensor wins innovation award. Online: http://www.fmlink.com/News/Articles/news.cgi?catid=111&display=article&id=21793. 16 Oct 2006.
[23]	Ionian Technologies. (2007). Ionian research and development in BioSensing and BioDefense [WWW page]. URL http://www.ionian-tech.com/NewsReleases/News_080707.html
[24]	About IQuum: Press Releases. (2007). IQuum Selected for Participation in Phase III DHS BAND Program [WWW page]. URL: http://www.iquum.com/news/01_04_07_bandp3.shtml
[25]	IQuum Products & Technology. (n.d.). Biodefense & industrial testing [WWW page]. URL: http://www.iquum.com/products/biodefense.shtml
[26]	Jung, C.C.; Saaski, E.W.; McCrae, D.A.; Lingerfelt, B.M.; Anderson, G.P. RAPTOR: a fluoroimmunoassay-based fiber optic sensor for detection of biological threats. Sensors Journal, IEEE Volume 3, Issue 4, Aug. 2003 Page(s): 352 - 360. Online: http://ieeexplore.ieee.org/Xplore/login.jsp?url=/iel5/7361/27531/01226625.pdf.
[27]	Kamai, M. Chemical Sensor Integration for C4I System. OR683 Principles of C4I Fall 2007 Semester Project. George Mason University. 27 September 2007.
[28]	Lawson, G. Butts, C. Information Transmission Through Human Informants: Simulation. Institute for Mathematical Behavioral Sciences and Department of Sociology, University of California, Irvine
[29]	Lederberg, J. Biological Weapons: Limiting the Threat. MIT Press. 1999.
[30]	Lokpo, I. Goore Bi, T. Padiou, G. Ad Hoc Location Service for Mobile Agents. IEEE SITIS. 2005.
[31]	McCrary, S. Van. Smallpox and Bioterrorism: A Growing Threat, in Health Law and Policy Perspectives; University of Houston Health Law and Policy Institute. Online: http://www.law.uh.edu/healthlaw/perspectives/Bioethics/990803Smallpox.html. Posted 3rd August, 1999.
[32]	McCreery, T. Biological Sensors Special Projects Office.
[33]	Mickens, J. Noble, B. Analytical Models for Epidemics in Mobile Networks. EECS Department, University of Michigan. Third IEEE International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob 2007). 2007.
[34]	MicroFluidic Systems Biodefense. (n.d.). The Complete Solution - Bioagent Autonomous Networked Detector (BAND) [WWW page]. URL: http://www.microfluidicsystems.com/biodefense.html
[35]	Mintz, John. THE WORLD AFTER 9/11 : The Biological Threat, Technical Hurdles Separate Terrorists From Biowarfare, Washington Post, 30 December 2004, online: http://www.washingtonpost.com/wp-dyn/articles/A35011-2004Dec29.html.
[36]	Moreno, Y. Nekovee, M. Pacheco, A. Dynamics of rumor spreading in complex networks. The American Physical Society, Physical Review. E 69, 066130 (2004). 17 June 2004.
[37]	Moreno, Y. Nekovee, M. Vespignani, A. Efficiency and reliability of epidemic data dissemination in complex networks. Rapid Communications. The American Physical Society, Physical Review. E 69, 055101(R) (2004). 2004.
[38]	Musolesi, M. Mascolo, C. Controlled Epidemic-style Dissemination Middleware for Mobile Ad Hoc Networks. Department of Computer Science, University College London. IEEE. 2006.
[39]	Nicholson, D. Lloyd, C.M. Julier, S.J. Uhlmann, J.K. Scalable Distributed Data Fusion. BAE Systems, US Naval Research Laboratory and Dept of Computer Engineering, University of Missouri. ISIF 2002.
[40]	Northrop Grumman News Release. (2006). Northrop Grumman receives contract for third phase of Portable Biological Warfare Detection-System Program [WWW page]. URL: http://www.irconnect.com/noc/press/pages/news_releases.html?d=92030
[41]	Parker, H. S. Agricultural Bioterrorism: A Federal Strategy to Meet the Threat. Institute for National Strategic Studies. National Defense University. McNair Paper 65. March 2002.
[42]	Plague War: The 1979 Anthrax Leak in Sverdlovsk. PBS Frontline. Online: http://www.pbs.org/wgbh/pages/frontline/shows/plague/sverdlovsk/. Retrieved 22 Feb 2008.
[43]	Randall, Vernellia R. Bioterrorism, Public Health and the Law - Law 801: Health Care Law Seminar. 30 Nov 2002, Online. Retrieved February 9, 2008, from http://academic.udayton.edu/health/syllabi/Bioterrorism/.
[44]	Required Net Ready Request For Proposal (RFP) and Contracts Language. JPEO-CBD Net-Centric Policy. 2007.
[45]	SAIC News Release. (2005). SAIC Awarded Chemical, Biological, Radiological, Nuclear and Explosives Contract [WWW page]. URL: http://investors.saic.com/phoenix.zhtml?c=193857&p=irol-newsArticle&ID=895033&highlight=SAIC%20Awarded%20Chemical,%20Biological,%20Radiological,%20Nuclear%20and%20Explosives%20Contract
[46]	Sadagopan, N. Krishnamachari, B. Helmy, A. Active query forwarding in sensor networks. Ad Hoc Networks 3 (2005) 91–113. 2005.
[47]	Seada, K. Helmy, A. An Overview of Geographic Protocols in Ad Hoc and Sensor Networks. University of Southern California Electrical Engineering Department. IEEE. 2005.
[48]	Seetharaman, G. Talbert, M. Blasch, E. Architectural Elements of Integrated Micro-Sensors for Distributed Sensor Networks. The International Workshop on Computer Architecture for Machine Perception and Sensing. September 2006.
[49]	Significant Terrorist Incidents Involving Chemical and Biological Agents. Retrieved 16:29, February 9, 2008, from http://www.cbwinfo.com/History/Incidents.html.
[50]	Smallpox. (2008, February 9). In Wikipedia, The Free Encyclopedia. Retrieved 16:34, February 9, 2008, from http://en.wikipedia.org/w/index.php?title=Smallpox&oldid=190163479.
[51]	Sullivan, B. M., Evans, B. W., & Allen P. W. (2000). Paper in Brief: Biological and chemical warfare Defense Sensors and Systems. Systems and Information Technology Journal, 8 (1), 103-110. URL: http://www.ms.northropgrumman.com/PDFs/TRJ/TRJ-2000/SS/00SS_Sullivan.pdf
[52]	Tan, S. Munro, A. Adaptive Probabilistic Epidemic Protocol for Wireless Sensor Networks in an Urban Environment. Department of Electrical and Electronic Engineering, University of Bristol, UK. IEEE. 2007.
[53]	Toward a National Biodefense Strategy Challenges and Opportunities. A Report of the Center for Counterproliferation Research, National Defense University. April 2003, online: http://www.ndu.edu/WMDCenter/CCR%202003.pdf.
[54]	Understanding the Threat of Biological Weapons, International Studies Review, Vol. 2, No. 1 (Spring, 2000), pp. 142-146.
[55]	Urbina, Ian. City Weighs Plans to Deliver Medicine to Public After Attack, New York Times, 7 February 2005, online: http://www.nytimes.com/2005/02/07/nyregion/07bioterrorism.html?_r=1&oref=login&oref=slogin.
[56]	Webb, B. Biological Defense: Evaluating Sensor Array Quantity and Quality Versus Detection Capability. Cubic Defense Applications. 73rd MORS Symposium. 21–23 June 2005.
[57]	Working Paper - Anthrax In America: A Chronology and Analysis of the Fall 2001 Attacks. Center for Counterproliferation Research, National Defense University. November 2002, online: http://www.ndu.edu/WMDCenter/docUploaded/ANTHRAX%20CHRONOLOGY%20Final.pdf.
[58]	Vahdat, A. Becker, D. Epidemic Routing for Partially-Connected Ad Hoc Networks. Department of Computer Science, Duke University.
[59]	Zanette, D. Dynamics of rumor propagation on small-world networks. The American Physical Society, Physical Review. E, VOLUME 65, 041908. 2002.
[60]	Zilinskas, R. Biological Warfare: Modern Offense and Defense. Lynne Rienner Publishers. November 1999.

Ref#

Reference

[1]

Advanced Liquid Logic. (2007). Advanced Liquid Logic receives prestigious Frost & Sullivan Award [WWW page]. URL: http://www.liquid-logic.com/documents/press%20release%20FS%20award%2006-07.pdf

[2]

Ahi, E. Caglar, M. Ozkasap, O. Message Buffering in Epidemic Data Dissemination. Department. of Computational Science and Engineering, Department. of Mathematics, Department. of Computer Engineering, Koc University, Istanbul, Turkey. Proceedings of the Seventh IEEE International Symposium on Computer Networks (ISCN'06). 2006.

[3]

Anthrax. (2008, February 9). In Wikipedia, The Free Encyclopedia. Retrieved 16:29, February 9, 2008, from http://en.wikipedia.org/w/index.php?title=Anthrax&oldid=190117061.

[4]

AZoNanotechnology New Technology: Biological Sensors To Monitor Living Cells. The A to Z of Nanotechnology. Online: http://www.azonano.com/details.asp?ArticleID=729. 30 March 2004.

[5]

Biological Threats and Terrorism: Assessing the Science and Response Capabilities: Workshop Summary. Institute of Medicine. The National Academies Press. Online: http://books.nap.edu/openbook.php?record_id=10290&page=1. Retrieved 22 Feb 2008.

[6]

Bornhorst, R. Grillo, R. Janardhanan, D. Krishna, S. Poole, K. The Biological Attack Model (BAM). George Mason University (GMU), Operations Research (OR) 680 Final Report. 2 May 2007.

[7]

Broad, William. A NATION CHALLENGED: THE BIOLOGICAL THREAT; U.S. Is Still Selling Reports on Making Biological Weapons, New York Times, 7 February 2008, online: http://query.nytimes.com/gst/fullpage.html?res=9C03EFDA1738F930A25752C0A9649C8B63.

[8]

Carrano, J. Chemical and Biological Sensor Standards Study. Defense Advanced Research Projects Agency (DARPA). 2005.

[9]

Carus, Seth. Defining “Weapons of Mass Destruction”. National Defense University Center for the Study of Weapons of Mass Destruction. Occasional Paper 4. January 2006, online: http://www.ndu.edu/WMDCenter/docUploaded//OP4Carus.pdf.

[10]

Cetin, M. et al. Distributed Fusion in Sensor Networks. IEEE Signal Processing Magazine [42], JULY 2006.

[11]

Chandrasekaran, K. Epidemic Routing for Partially Connected Ad-Hoc Networks. University of Kansas, Lawrence.

[12]

Chicago, IL. Online: http://www.citytowninfo.com/places/illinois/chicago. CityTownInfo.com. Retrieved 17 Feb 2008.

[13]

Chicago Real-time Traffic Report Map. GCM Travel. Online: http://www.gcmtravel.com/gcm/maps.jsp. Retrieved 17 Feb 2008.

[14]

Chicago Transit Map. Online: http://egov.cityofchicago.org/webportal/COCWebPortal/COC_EDITORIAL/ChicagoTransit.pdf. Retrieved 17 Feb 2008.

[15]

Common Chemical, Biological, Radiological, Nuclear (CBRN) Sensor Interface (CCSI). Joint Program Executive Office for Chemical and Biological Defense (JPEO-CBD), Software Support Activity (SSA). Version V1.0 Final. 31 January 2008.

[16]

Countering Bioterrorism. U.S. Food and Drug Administration Center for Biologics Evaluation and Research. Online. Retrieved February 9, 2008, from http://www.fda.gov/cber/cntrbio/cntrbio.htm.

[17]

DARPA Biological Warfare Defense RDT&E Budget Justification. February 2006.

[18]

He, T. Lu, C. Stankovic, J. Abdelzaher, T. A Spatialtemporal Communication Protocol for Wireless Sensor Networks. IEEE Transactions on Parallel and Distributed Systems. Vol 16 Number 10. October 2005.

[19]

Helmy, A. Architectural Framework for Large-Scale Multicast in Mobile Ad Hoc Networks. University of Southern California Electrical Engineering Department. IEEE. 2002.

[20]

Henderson, D.A. Bioterrorism as a Public Health Threat, in Emerging Infectious Diseases. Online: http://www.cdc.gov/ncidod/eid/vol4no3/hendrsn.htm. July-Sept. 1998; Vol. 4, No. 3.

[21]

Hollerung, T. D. Bleckmann, P. Topic No. 9: Epidemic Algorithms. Universitat Paderborn. 4 August 2004.

[22]

ICx MesoSystems biological threat sensor wins innovation award. Online: http://www.fmlink.com/News/Articles/news.cgi?catid=111&display=article&id=21793. 16 Oct 2006.

[23]

Ionian Technologies. (2007). Ionian research and development in BioSensing and BioDefense [WWW page]. URL http://www.ionian-tech.com/NewsReleases/News_080707.html

[24]

About IQuum: Press Releases. (2007). IQuum Selected for Participation in Phase III DHS BAND Program [WWW page]. URL: http://www.iquum.com/news/01_04_07_bandp3.shtml

[25]

IQuum Products & Technology. (n.d.). Biodefense & industrial testing [WWW page]. URL: http://www.iquum.com/products/biodefense.shtml

[26]

Jung, C.C.; Saaski, E.W.; McCrae, D.A.; Lingerfelt, B.M.; Anderson, G.P. RAPTOR: a fluoroimmunoassay-based fiber optic sensor for detection of biological threats. Sensors Journal, IEEE Volume 3, Issue 4, Aug. 2003 Page(s): 352 - 360. Online: http://ieeexplore.ieee.org/Xplore/login.jsp?url=/iel5/7361/27531/01226625.pdf.

[27]

Kamai, M. Chemical Sensor Integration for C4I System. OR683 Principles of C4I Fall 2007 Semester Project. George Mason University. 27 September 2007.

[28]

Lawson, G. Butts, C. Information Transmission Through Human Informants: Simulation. Institute for Mathematical Behavioral Sciences and Department of Sociology, University of California, Irvine

[29]

Lederberg, J. Biological Weapons: Limiting the Threat. MIT Press. 1999.

[30]

Lokpo, I. Goore Bi, T. Padiou, G. Ad Hoc Location Service for Mobile Agents. IEEE SITIS. 2005.

[31]

McCrary, S. Van. Smallpox and Bioterrorism: A Growing Threat, in Health Law and Policy Perspectives; University of Houston Health Law and Policy Institute. Online: http://www.law.uh.edu/healthlaw/perspectives/Bioethics/990803Smallpox.html. Posted 3rd August, 1999.

[32]

McCreery, T. Biological Sensors Special Projects Office.

[33]

Mickens, J. Noble, B. Analytical Models for Epidemics in Mobile Networks. EECS Department, University of Michigan. Third IEEE International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob 2007). 2007.

[34]

MicroFluidic Systems Biodefense. (n.d.). The Complete Solution - Bioagent Autonomous Networked Detector (BAND) [WWW page]. URL: http://www.microfluidicsystems.com/biodefense.html

[35]

Mintz, John. THE WORLD AFTER 9/11 : The Biological Threat, Technical Hurdles Separate Terrorists From Biowarfare, Washington Post, 30 December 2004, online: http://www.washingtonpost.com/wp-dyn/articles/A35011-2004Dec29.html.

[36]

Moreno, Y. Nekovee, M. Pacheco, A. Dynamics of rumor spreading in complex networks. The American Physical Society, Physical Review. E 69, 066130 (2004). 17 June 2004.

[37]

Moreno, Y. Nekovee, M. Vespignani, A. Efficiency and reliability of epidemic data dissemination in complex networks. Rapid Communications. The American Physical Society, Physical Review. E 69, 055101(R) (2004). 2004.

[38]

Musolesi, M. Mascolo, C. Controlled Epidemic-style Dissemination Middleware for Mobile Ad Hoc Networks. Department of Computer Science, University College London. IEEE. 2006.

[39]

Nicholson, D. Lloyd, C.M. Julier, S.J. Uhlmann, J.K. Scalable Distributed Data Fusion. BAE Systems, US Naval Research Laboratory and Dept of Computer Engineering, University of Missouri. ISIF 2002.

[40]

Northrop Grumman News Release. (2006). Northrop Grumman receives contract for third phase of Portable Biological Warfare Detection-System Program [WWW page]. URL: http://www.irconnect.com/noc/press/pages/news_releases.html?d=92030

[41]

Parker, H. S. Agricultural Bioterrorism: A Federal Strategy to Meet the Threat. Institute for National Strategic Studies. National Defense University. McNair Paper 65. March 2002.

[42]

Plague War: The 1979 Anthrax Leak in Sverdlovsk. PBS Frontline. Online: http://www.pbs.org/wgbh/pages/frontline/shows/plague/sverdlovsk/. Retrieved 22 Feb 2008.

[43]

Randall, Vernellia R. Bioterrorism, Public Health and the Law - Law 801: Health Care Law Seminar. 30 Nov 2002, Online. Retrieved February 9, 2008, from http://academic.udayton.edu/health/syllabi/Bioterrorism/.

[44]

Required Net Ready Request For Proposal (RFP) and Contracts Language. JPEO-CBD Net-Centric Policy. 2007.

[45]

SAIC News Release. (2005). SAIC Awarded Chemical, Biological, Radiological, Nuclear and Explosives Contract [WWW page]. URL: http://investors.saic.com/phoenix.zhtml?c=193857&p=irol-newsArticle&ID=895033&highlight=SAIC%20Awarded%20Chemical,%20Biological,%20Radiological,%20Nuclear%20and%20Explosives%20Contract

[46]

Sadagopan, N. Krishnamachari, B. Helmy, A. Active query forwarding in sensor networks. Ad Hoc Networks 3 (2005) 91–113. 2005.

[47]

Seada, K. Helmy, A. An Overview of Geographic Protocols in Ad Hoc and Sensor Networks. University of Southern California Electrical Engineering Department. IEEE. 2005.

[48]

Seetharaman, G. Talbert, M. Blasch, E. Architectural Elements of Integrated Micro-Sensors for Distributed Sensor Networks. The International Workshop on Computer Architecture for Machine Perception and Sensing. September 2006.

[49]

Significant Terrorist Incidents Involving Chemical and Biological Agents. Retrieved 16:29, February 9, 2008, from http://www.cbwinfo.com/History/Incidents.html.

[50]

Smallpox. (2008, February 9). In Wikipedia, The Free Encyclopedia. Retrieved 16:34, February 9, 2008, from http://en.wikipedia.org/w/index.php?title=Smallpox&oldid=190163479.

[51]

Sullivan, B. M., Evans, B. W., & Allen P. W. (2000). Paper in Brief: Biological and chemical warfare Defense Sensors and Systems. Systems and Information Technology Journal, 8 (1), 103-110. URL: http://www.ms.northropgrumman.com/PDFs/TRJ/TRJ-2000/SS/00SS_Sullivan.pdf

[52]

Tan, S. Munro, A. Adaptive Probabilistic Epidemic Protocol for Wireless Sensor Networks in an Urban Environment. Department of Electrical and Electronic Engineering, University of Bristol, UK. IEEE. 2007.

[53]

Toward a National Biodefense Strategy Challenges and Opportunities. A Report of the Center for Counterproliferation Research, National Defense University. April 2003, online: http://www.ndu.edu/WMDCenter/CCR%202003.pdf.

[54]

Understanding the Threat of Biological Weapons, International Studies Review, Vol. 2, No. 1 (Spring, 2000), pp. 142-146.

[55]

Urbina, Ian. City Weighs Plans to Deliver Medicine to Public After Attack, New York Times, 7 February 2005, online: http://www.nytimes.com/2005/02/07/nyregion/07bioterrorism.html?_r=1&oref=login&oref=slogin.

[56]

Webb, B. Biological Defense: Evaluating Sensor Array Quantity and Quality Versus Detection Capability. Cubic Defense Applications. 73rd MORS Symposium. 21–23 June 2005.

[57]

Working Paper - Anthrax In America: A Chronology and Analysis of the Fall 2001 Attacks. Center for Counterproliferation Research, National Defense University. November 2002, online: http://www.ndu.edu/WMDCenter/docUploaded/ANTHRAX%20CHRONOLOGY%20Final.pdf.

[58]

Vahdat, A. Becker, D. Epidemic Routing for Partially-Connected Ad Hoc Networks. Department of Computer Science, Duke University.

[59]

Zanette, D. Dynamics of rumor propagation on small-world networks. The American Physical Society, Physical Review. E, VOLUME 65, 041908. 2002.

[60]

Zilinskas, R. Biological Warfare: Modern Offense and Defense. Lynne Rienner Publishers. November 1999.