Knowledge Grid Archives
2007
[1]
H.
Zhuge and X. Li, Peer-to-Peer
in Metric Space and Semantic Space, IEEE
Transactions on Knowledge and Data Engineering, 6(19) (2007) 759-771.
[1]
H.Zhuge,
X.Chen, et al., HRing: A Structured P2P
Overlay Based on Harmonic Series, IEEE
Transactions on Parallel and Distributed Systems, accepted.
[2]
G.
C. Fox and X. Sun, Special
Issue: Progress of the Knowledge Grid, Concurrency
and Computation: Practice and Experience, 19, (15) (2007).
[3]
W.
Tu, J. K. Muppala, and H. Zhuge,
Distributed end-host multicast algorithms for the Knowledge Grid, Concurrency and Computation: Practice and
Experience, 19, (15) (2007).
[4]
J.
Liu, L. Feng, and H. Zhuge, Using
semantic links to support top-K join queries in peer-to-peer networks, Concurrency and Computation: Practice and
Experience, 19, (15) (2007).
[5]
H.
Zhuge, W. Guo, and X. Li, The
potential energy of knowledge flow, Concurrency
and Computation: Practice and Experience, 19, (15) (2007).
[6]
W.
Chen, Q. Zeng, and W. Liu, and T. Hao, A user
reputation model for a user-interactive question answering system, Concurrency and Computation: Practice and
Experience, 19, (15) (2007).
[7]
M.
Cannataro and P. Veltri, MS-Analyzer:
preprocessing and data mining services for proteomics applications on the Grid,
Concurrency and Computation: Practice and
Experience, 19, (15) (2007).
2006
[1]
H.
Zhuge, Discovery of
Knowledge Flow in Science, Communications
of the ACM, 49 (5) (2006) 101-107.
[2]
H.
Zhuge, L. Ding, and X. Li,
Networking Scientific Resources in the Knowledge Grid Environment, Concurrency and Computation: Practice and
Experience, DOI 10.1002/cpe.1094.
[3]
H. Zhuge, Autonomous Semantic Link Networking Model
for the Knowledge Grid, Concurrency
and Computation: Practice and Experience, DOI 10.1002/cpe.1097.
[4]
H.
Zhuge, Knowledge
flow network planning and simulation, Decision
Support Systems, 42, (2) (2006) 571-592.
[5]
H.
Zhuge, X. Chen, X. Sun, Trust-based
probabilistic search with the view model of peer-to-peer networks, Concurrency and Computation: Practice and
Experience, 18, (14) (2006) 1839-1855.
[6]
H.
Zhuge, Semantic
component networking: Toward the synergy of static reuse and dynamic clustering
of resources in the knowledge grid, The
Journal of Systems and Software, 79 (2006) 1469–1482.
[7]
H.
Zhuge, Knowledge flow network
planning and simulation, Decision
Support Systems, 42 (2006) 571– 592.
[8]
J.
Liu, H. Zhuge, A semantic-based P2P
resource organization model R-Chord, The
Journal of Systems and Software, 79 (2006) 1619–1631.
2005
[1]
H. Zhuge, The
Future Interconnection Environment, IEEE
Computer, vol.38, no.4, 2005.
[2]
H.
Zhuge, Semantic
Grid: Scientific Issues, Infrastructure, and Methodology, Communications of the ACM. 48
(4)(2005)117-119.
[3]
H.
Zhuge, Exploring
an Epidemics in an E-Science Environment, Communications of the ACM,
48 (9) (2005) 109-114.
[4]
H.
Zhuge and X. Shi, Toward
the Eco-Grid: A Harmoniously Evolved Interconnection Environment, Communications
of the ACM, 47 (9) (2004) 79-83.
[5]
H.
Zhuge, J. Liu, L. Feng, X. Sun and C. He, Query
Routing in a Peer-to-Peer Semantic Link Network, Computational
Intelligence, 21(2) (2005) 197-216.
[6]
H.
Zhuge, X. Sun, et al, A
Scalable P2P Platform for the Knowledge Grid, IEEE
Transactions on Knowledge and Data Engineering, 17(12) (2005) 1721-1736
(PPT).
[7]
Xiaoqing
Shi, Jingzhu Zhao, Ouyang Zhiyun, Assessment of eco-security
in the Knowledge Grid e-science environment, The Journal of Systems and Software, 79 (2006) 246–252.
[8]
H.
Zhuge and X. Luo, The Knowledge Map:Mathematical
Model and Dynamic Behaviors, Journal of Computer Science and Technology,
20(3)(2005) 289-295.
[9]
H. Zhuge, E. Yao, Y. Xing, and J. Liu, Extended
Normal Form Theory of Resource Space Model, Future Generation Computer
Systems,21 (1) (2005) 189-198.
[10]
H. Zhuge, Y. Sun, R. Jia, and J. Liu. Algebra Model
and Experiment for Semantic Link Network, International Journal of High
Performance Computing and Networking, 2(3)(2005).
[11]
H. Zhuge, X. Chen, X. Sun, Trust-based
probabilistic search with the view model of peer-to-peer networks, Concurrency
and Computation: Practice and Experience.
[12]
H. Zhuge,
The Knowledge Grid and
Its Methodology, 1st International Conference on Semantics, Knowledge
and Grid, Nov 27-29, 2005,
2004
[1]
S.Cass, A Fountain of Knowledge, IEEE Spectrum, 41(1) (2004)60-67.
[2]
[3]
H.Zhuge,
Semantics, Resource and Grid, Future Generation Computer Systems, 20 (1)
(2004) 1-5. (Editorial of
the Special issue of Semantic Grid and Knowledge Grid).
[4]
H.Zhuge,
Resource
Space Model, Its Design Method and Applications, Journal of
Systems and Software, 72 (1) (2004) 71-81. (Review
by Julia Hodges in ACM Computing Review).
[5]
H.Zhuge
and R.Jia, Semantic Link Network Builder and Intelligent Browser, Concurrency
and Computation: Practice and Experience, abstract is available at http://aspen.ucs.indiana.edu/CandCPandE/.
[6]
H.Zhuge,
Semantic Space Grid: Model, Method and Platform, Concurrency and
Computation: Practice and Experience, abstract is available at http://aspen.ucs.indiana.edu/CandCPandE/.
[7]
H.Zhuge,
Fuzzy Resource Management in Semantic Grid: Model and Platform, Journal of
Systems and Software, http://www.elsevier.com/locate/jss.
[8]
H.Zhuge,
Retrieve Images by Understanding Semantic Links and Clustering Image Fragments,
Journal of Systems and Software, http://www.elsevier.com/locate/jss.
[9]
Mario Cannataro and Domenico Talia,
Semantics and Knowledge Grids: Building the Next-Generation Grid, IEEE
Intelligent Systems, Volume 19, Issue 1 (January/February), 2004, Pages
56-63.
[10]
H. Zhuge and X.Shi, Eco-Grid: A Harmoniously Evolved
Interconnection Environment, Communications of the ACM, Sept. 2004.
2003
[1]
H.Balakrishnan, et al., Looking Up Data in P2P Systems,
Communications of the ACM, 46 (2) (2003) 43-48.
[2]
H.Zhuge
and X.Shi, Fighting Epidemics in the Information and Knowledge Age, IEEE Computer, 36(10)
(2003)114-116.
[3]
H.Zhuge
and Y.Sun, A Computing Model for SLN, GCC03 (2nd International Conference on
Grid and Cooperative Computing,
[4]
H.Zhuge,
Active e-Document Framework ADF: Model and Platform, Information and
Management, 20 (43) (2003) 1-11.
[5]
H.Zhuge
and J.Liu, A Fuzzy Online Collaborative Assessment Approach for Knowledge Grid,
Future Generation Computer Systems, 20 (1) (2004) 101-112.
[6]
H.Zhuge
and Y.Li, Semantic-Profile-based Document Logistics for Cooperative Research, Future
Generation Computer Systems, 20 (1) (2004) 47-60.
[7]
H.Zhuge
and Y.Sun, Theory and Algorithm for Rule Base
Refinement, IEA/AIE-2003, June,
[8]
H.Zhuge
and J.Liu, KGOL: A Knowledge Grid Operation Language, ACM SIGPLAN Notice,
38 (4) (2003) 57-66.
2002
[1]
H.Zhuge,
Clustering Soft-Devices in Semantic Grid, IEEE Computing in
Science and Engineering, 4 (6)
(2002) 60-62.
[2]
H.Zhuge,
A Knowledge Grid Model and Platform for Global Knowledge Sharing, Expert
Systems with Applications, 22 (4) (2002) 313-320,
[3]
H.Zhuge,
A Knowledge Flow Model for Peer-to-Peer Team Knowledge sharing
and Management, Expert Systems with Applications, 23 (1) (2002)
23-30.
[4]
H.Zhuge,
Distributed Team Knowledge Management by Incorporating Knowledge Flow and
Knowledge Grid, Journal of Universal Computer Science, (2002) 218-223,
http://www.know-center.at/en/downloads/iknow02/hzhuge.pdf, Springer-verlag.
[5]
H.Zhuge, Workflow-based
cognitive flow management for distributed team cooperation, Information and
Management, 40 (5) (2003) 419-429.
[6]
H.Zhuge,
Knowledge Flow Management for Distributed Team Software Development, Knowledge-based
Systems, 15 (8) (2002) 465-471
[7]
H.Zhuge and Y.Li,
VEGA-KGCL: A Knowledge-Grid-based Cooperative Learning Environment, Lecture
Notes in Computer Science LNCS 2436, pp.192-202, 2002.
2000-2001
[1]
F.Berman,
From TeraGrid to Knowledge Grid, Communications of the ACM, 44 (11)
(2001) 27-28.
[2]
H.Zhuge
and X.Shi, Communication Cost of Cognitive Co-operation for Team Development, Journal
of Systems and Software, 57 (3)
(2001) 227-233.
[3]
H.Zhuge,
Conflict Decision Training through Multi-Space Co-operation, Decision
Support Systems, 29 (2000)111-123.