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Spectral techniques and fault detection /
Spectral techniques and fault detection.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor Corporativo: | |
| Otros Autores: | |
| Formato: | Electrónico Congresos, conferencias eBook |
| Idioma: | Inglés |
| Publicado: |
Orlando :
Academic Press,
1985.
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| Colección: | Notes and reports in computer science and applied mathematics.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Spectral Techniques and Fault Detection; Copyright Page; Table of Contents; CONTRIBUTORS; PREFACE; CHAPTER 1. INTRODUCTION; 1. Linearity; 2. Translation of Arguments; 3. Logical Convolution; 4. PIancherel Theorem; 5. Poisson Summation Theorem; REFERENCES; CHAPTER 2. SYNTHESIS OF ENCODED PLAS; I. INTRODUCTION; II. MATHEMATICAL BACKGROUND FOR ENCODED PLA ANALYSIS; III. EXAMPLES OF ALGORITHM OPERATION; IV. AN ALTERNATE SELECTION ALGORITHM; V. RESULTS AND CONCLUSIONS; APPENDIX A: DERIVATION OF M IN TERMS OF AUTOCORRELATIONS; REFERENCES
- CHAPTER 3. SPECTRAL PROCESSING OF SWITCHING FUNCTIONS USING SIGNAL-FLCW TRANSFORMATIONS1. INTRODUCTION; 2. WHT OF DYADIC ORDERED DATA; 3. SIMILARITY TRANSFORMATIONS UNDER THE WHT; 4. EXAMPLES OF SPECTRAL PROCESSING; 5. APPLICATIONS; 6. CONCLUDING REMARKS; REFERENCES; CHAPTER 4. THE CHRESTENSON TRANSFORM IN PATTERN ANALYSIS; I . SUMMARY; II. DEFINITIONS; III. PROPERTIES OF THE TWO SIDED CHRESTENSON SPECTRUM OF A PATTERN; IV. COMPACT SPECTRA; V. CLOSING REMARKS; REFERENCES; CHAPTER 5. FILTERING IN A COMMUNICATION CHANNEL BY FOURIER TRANSFORMS OVER FINITE GROUPS; I. INTRODUCTION
- II. HARMONIC ANALYSIS OVER FINITE GROUPSIII. OPTIMAL AND SUBOPTIMAL WIENER FILTERS; IV. GROUP WIENER FILTERS; V. COMPUTER EXPERIMENTS; VI. REFERENCES; CHAPTER 6. 3D CELLULAR ARRAYS FOR PARALLEL/CASCADE IMAGE/SIGNAL PROCESSING; I. Introduction; II. Constant Geometry Algorithms for Generalized Spectral Analysis; III. A Universal Processing Element for Parallel/Cascade Processing; IV. A Model for Parallel/Cascade Processing Using the UPE; V. Memory Configurations; VI. Processors for 1D and 2D Signals; VII. Array Topology; VIII. Convolution and Correlation Using the Z Transform; IX. Conclusions
- AcknowledgementReferences; CHAPTER 7. UNIVERSAL TESTING OF COMPUTER HARDWARE; I. INTRODUCTION; II. BASIC IDEAS OF UNIVERSAL TESTING AND APPLICATIONS TO COMBINATIONAL AND SEQUENTIAL CIRCUITS; III. ADVANTAGES AND LIMITATIONS OF UNIVERSAL TESTING METHODS; IV. CONCLUDING REMARKS; REFERENCES; CHAPTER 8. SPECTRAL TECHNIQUES FOR FAULT DETECTION IN COMBINATIONAL LOGIC; I. INTRODUCTION; II. NOTATION AND BACKGROUND; III. SPECTRAL COEFFICIENT TESTABILITY; IV. SYNDROME AND CONSTRAINED SYNDROME TESTING; V. SPECTRAL CHARACTERIZATION OF CONSTRAINED SYNDROME TESTING; VI. SPECTRAL COEFFICIENT SIGNATURES
- VII. PROGRAMMABLE LOGIC ARRAYSVIII. SEQUENTIAL NETWORKS AND TEST IMPLEMENTATION; IX. MULTIPLE-OUTPUT NETWORKS; X. CONCLUSION; REFERENCES; CHAPTER 9. SIGNATURE TECHNIQUES IN FAULT DETECTION AND LOCATION; I. INTRODUCTION; II. FAULT DETECTION PROBLEM; III. DISCUSSION OF THE DATA COMPACTION TECHNIQUES; IV. LINEAR FEEDBACK SHIFT REGISTER AS SIGNATURE ANALYZER; V. FAULT LOCATION PROBLEM; VI. FUTURE DIRECTIONS AND CONCLUSIONS; REFERENCES; CHAPTER 10. THE DESIGN AND ANALYSIS OF HIGH-SPEED LOGIC SYSTEMS WITH DISTRIBUTED ERROR CORRECTION; I. INTRODUCTION