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CATEGORIES:College of Engineering,Thesis/Dissertations
DESCRIPTION:Advisor: Dr. Firas Khatib, Associate Professor, Department of C
 omputer and Information Science Committee Members: Dr. Debarun Das, Assist
 ant Professor, Department of Computer and Information ScienceDr. Ashokkuma
 r Patel, Associate Teaching Professor, Department of Computer and Informat
 ion ScienceÌýAbstract: Ìý This thesis applies complex network science to a
 nalyse 35 years of global trade data and characterise the structural prope
 rties, temporal evolution, and resilience of the international trade syste
 m. Using 613,252 bilateral export observations from the UN Comtrade databa
 se covering 188 reporting economies from 1988 to 2022, the study construct
 s nine 4-year interval networks and one full-period aggregate network. Eac
 h country becomes a node, each bilateral trade relationship above a one mi
 llion USD threshold becomes a weighted edge, and the resulting graphs are 
 analysed using small-world theory, scale-free network theory, geospatial c
 ommunity detection, and percolation-based resilience simulation.Nine forma
 l hypotheses are tested. Seven are confirmed, two are partially confirmed.
  The global trade network exhibits persistent small-world properties acros
 s all nine intervals, with small-world index σ consistently above 1.2, cl
 ustering coefficient in the range 0.82 to 0.86, and average path length be
 tween 1.38 and 1.75. The network densified substantially over the study pe
 riod, from 203 nodes and 3,694 edges in 1988 to 237 nodes and over 12,000 
 edges from 2008 onwards. The power-law exponent evolved from α = 2.38 in 
 1988 to α = 2.60 in 2020, indicating gradual structural shift toward less
  extreme hub dominance. Louvain community detection identifies three geogr
 aphically coherent trade blocs — Asia-Pacific, European, and North Ameri
 can — with a Pearson correlation of 0.72 between geographic proximity an
 d bilateral clustering confirming that geography drives trade network topo
 logy. Percolation analysis reveals asymmetric resilience. The network tole
 rates 60 to 75 per cent random node removal before fragmenting but collaps
 es at only 15 to 20 per cent targeted hub removal, with the largest connec
 ted component dropping from 98 per cent to 22 per cent. Cascade simulation
  under a severity 0.8 shock to China produces an 80 per cent immediate tra
 de loss and a 40-step recovery trajectory under active rerouting. These fi
 ndings identify the 15 to 20 per cent hub removal threshold as a critical 
 structural vulnerability and provide empirical grounding for supply chain 
 policies around regional diversification, strategic inventory, and backup 
 hub strategies for semiconductors, energy, and pharmaceuticals. The thesis
  establishes the largest longitudinal trade network dataset yet analyzed a
 t this methodological depth, with all code and data publicly released for 
 reproducibility For further information please contact Dr. Firas Khatib at
  fkhatib@umassd.edu. ÌýÌý\nEvent page: /events/cms/s
 mall-world-spatial-network-analysis-of-global-supply-chains-using-internat
 ional-trade-data-19882022.php\nEvent link: https://us05web.zoom.us/j/86211
 339649?pwd=36pCDAlu0IGRZsXUB1zGvGGox8mvEY.1
X-ALT-DESC;FMTTYPE=text/html:<html><Body><h1><a href="/">ÌÇÐÄlogoÈë¿Ú</a></h1><script>
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</script><p>Advisor:</p>\n<p>Dr. Firas Khat
 ib\, Associate Professor\, Department of Computer and Information Science<
 /p>\n<p>Committee Members:</p>\n<p>Dr. Debarun Das\, Assistant Professor\,
  Department of Computer and Information Science<br />Dr. Ashokkumar Patel\
 , Associate Teaching Professor\, Department of Computer and Information Sc
 ience<br />Ìý<br />Abstract: Ìý</p>\n<p>This thesis applies complex networ
 k science to analyse 35 years of global trade data and characterise the st
 ructural properties\, temporal evolution\, and resilience of the internati
 onal trade system. Using 613\,252 bilateral export observations from the U
 N Comtrade database covering 188 reporting economies from 1988 to 2022\, t
 he study constructs nine 4-year interval networks and one full-period aggr
 egate network. Each country becomes a node\, each bilateral trade relation
 ship above a one million USD threshold becomes a weighted edge\, and the r
 esulting graphs are analysed using small-world theory\, scale-free network
  theory\, geospatial community detection\, and percolation-based resilienc
 e simulation.<br />Nine formal hypotheses are tested. Seven are confirmed\
 , two are partially confirmed. The global trade network exhibits persisten
 t small-world properties across all nine intervals\, with small-world inde
 x σ consistently above 1.2\, clustering coefficient in the range 0.82 to 
 0.86\, and average path length between 1.38 and 1.75. The network densifie
 d substantially over the study period\, from 203 nodes and 3\,694 edges in
  1988 to 237 nodes and over 12\,000 edges from 2008 onwards. The power-law
  exponent evolved from α = 2.38 in 1988 to α = 2.60 in 2020\, indicating
  gradual structural shift toward less extreme hub dominance. Louvain commu
 nity detection identifies three geographically coherent trade blocs — As
 ia-Pacific\, European\, and North American — with a Pearson correlation 
 of 0.72 between geographic proximity and bilateral clustering confirming t
 hat geography drives trade network topology.</p>\n<p>Percolation analysis 
 reveals asymmetric resilience. The network tolerates 60 to 75 per cent ran
 dom node removal before fragmenting but collapses at only 15 to 20 per cen
 t targeted hub removal\, with the largest connected component dropping fro
 m 98 per cent to 22 per cent. Cascade simulation under a severity 0.8 shoc
 k to China produces an 80 per cent immediate trade loss and a 40-step reco
 very trajectory under active rerouting. These findings identify the 15 to 
 20 per cent hub removal threshold as a critical structural vulnerability a
 nd provide empirical grounding for supply chain policies around regional d
 iversification\, strategic inventory\, and backup hub strategies for semic
 onductors\, energy\, and pharmaceuticals. The thesis establishes the large
 st longitudinal trade network dataset yet analyzed at this methodological 
 depth\, with all code and data publicly released for reproducibility</p>\n
 <p>For further information please contact Dr. Firas Khatib at fkhatib@umas
 sd.edu. Ìý<br />Ìý</p><p>Event page: <a href="/event
 s/cms/small-world-spatial-network-analysis-of-global-supply-chains-using-i
 nternational-trade-data-19882022.php">/events/cms/sm
 all-world-spatial-network-analysis-of-global-supply-chains-using-internati
 onal-trade-data-19882022.php</a><br>Event link: </p></body>
 </html>
DTSTAMP:20260525T043955
DTSTART;TZID=America/New_York:20260515T140000
DTEND;TZID=America/New_York:20260515T150000
LOCATION:Zoom: https://us05web.zoom.us/j/86211339649?pwd=36pCDAlu0IGRZsXUB1
 zGvGGox8mvEY.1
SUMMARY;LANGUAGE=en-us:Small-World Spatial Network Analysis of Global Suppl
 y Chains Using International Trade Data (1988–2022)
UID:84e94f65f28d28928f9c20b4725d96ce@www.umassd.edu
END:VEVENT
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