Foundations of Computer Science
Hamid R. Arabnia (Redaktør) ; George A. Gravvanis (Redaktør) ; George Jandieri (Redaktør) ; Ashu M. G. Solo (Redaktør) ; Fernando G. Tinetti (Redaktør)
Includes topics such as: Algorithms, Graph Based Methods and Applications, Quantum Computing, and Finite State Machine. Les mer
- Vår pris
- 878,-
(Paperback)
Fri frakt!
Leveringstid:
Sendes innen 21 dager
Paperback
Legg i
Paperback
Legg i
Vår pris:
878,-
(Paperback)
Fri frakt!
Leveringstid:
Sendes innen 21 dager
Includes topics such as: Algorithms, Graph Based Methods and Applications, Quantum Computing, and Finite State Machine.
- FAKTA
-
Utgitt:
2015
Forlag: C. S. R. E. A.
Innbinding: Paperback
Språk: Engelsk
ISBN: 9781601322708
Format: 28 x 20 cm
- KATEGORIER:
- VURDERING
-
Gi vurdering
Les vurderinger
Session: Graph Based Methods and Applications + Related Issues
1) Asynchronous P Systems for Uniform Graph Partitioning and Related Graph Problems
2) Math Words and their Dendrograms
3) Improved Computing Performance for Algorithm Finding the Shortest Path in Extended Graph
Session: Algorithms + Finite State Machine + Computational Science + Languages And Systems
1) A Tail Recursive Scheme for Exact Real Number Computation Based on LRT, GMP and FC++
2) Tackling Sequences From Prudent Self-Avoiding Walks
3) Model-based Automated Testing using a Record-Replay Mechanism
4) Counting Lattice Paths and Walks with Several Step Vectors
5) Fixed Share Scheduling via Dynamic Weight Adjustment in Proportional Share Scheduling Systems
SESSION: QUANTUM COMPUTING
1) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
2) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
3) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
4) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
5) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 5
6) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
7) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
8) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
9) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
10) Quantum-Identity Equivalents of the Orhtmodularity Law in Quantum Logic: Part 5
11) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
12) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
13) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
14) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
15) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 5
SESSION: POSTERS
1) A Study on the Public Opinion on the Issue of Cost Sharing in Higher Education in Taiwan
Session: Late Breaking Papers and Position Papers: Foundations Of Computer Science
1) Evolving Systems
2) Control Operators vs. Graph Logic Model
3) Concrete State Machine Language (CSML)
1) Asynchronous P Systems for Uniform Graph Partitioning and Related Graph Problems
2) Math Words and their Dendrograms
3) Improved Computing Performance for Algorithm Finding the Shortest Path in Extended Graph
Session: Algorithms + Finite State Machine + Computational Science + Languages And Systems
1) A Tail Recursive Scheme for Exact Real Number Computation Based on LRT, GMP and FC++
2) Tackling Sequences From Prudent Self-Avoiding Walks
3) Model-based Automated Testing using a Record-Replay Mechanism
4) Counting Lattice Paths and Walks with Several Step Vectors
5) Fixed Share Scheduling via Dynamic Weight Adjustment in Proportional Share Scheduling Systems
SESSION: QUANTUM COMPUTING
1) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
2) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
3) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
4) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
5) Quantum-Intersection Equivalents of the Orthomodularity Law in Quantum Logic: Part 5
6) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
7) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
8) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
9) Quantum-Identity Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
10) Quantum-Identity Equivalents of the Orhtmodularity Law in Quantum Logic: Part 5
11) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 1
12) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 2
13) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 3
14) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 4
15) Quantum-Union Equivalents of the Orthomodularity Law in Quantum Logic: Part 5
SESSION: POSTERS
1) A Study on the Public Opinion on the Issue of Cost Sharing in Higher Education in Taiwan
Session: Late Breaking Papers and Position Papers: Foundations Of Computer Science
1) Evolving Systems
2) Control Operators vs. Graph Logic Model
3) Concrete State Machine Language (CSML)
Hamid R. Arabnia is Professor, Computer Science; Editor-in-Chief, The Journal of Supercomputing (Springer); Elected Fellow,
Int'l Society of Intelligent Biological Medicine (ISIBM); The University of Georgia, Department of Computer Science.