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送料無料 日付更新(2017年7月)

アウトレットブック ポイント2倍キャンペーン(~11/15)

目次

TIME SERIES ANALYSIS AND ITS APPLICATIONS 3

TIME SERIES ANALYSIS AND ITS APPLICATIONS 3

  • KAZUHIRO TAKEYASU(著)/ YASUO ISHII(著)/ JOHSUKE TOYODA(著)/ YUKI HIGUCHI(著)
  • Chapter1 BACKGROUND AND OBJECTIVE OF THIS STUDY
  • Chapter2 SIMPLIFIED MACHINE DIAGNOSIS TECHNIQUES USING AR MODEL OF ABSOLUTE DETERIORATION FACTOR
    • 2.1.INTRODUCTION
    • 2.2.DETECTION OF FAILURE BY SYSTEM PARAMETER DISTANCE
    • 2.3.ESTIMATION OF SYSTEM PARAMETER BY AUTOREGRESSIVE MODEL
    • 2.4.SIMPLIFIED CALCULATION METHOD OF AUTOCORRELATION FUNCTION
    • 2.5.SYSTEM PARAMETER DISTANCE BY SIMPLIFIED CALCULATION METHOD
    • 2.6.MAHALANOBIS’GENERALIZED DISTANCE
    • 2.7.COMPARISON OF THE BOTH METHODS
    • 2.8.CONCLUDING REMARKS
  • Chapter3 SIMPLIFIED MACHINE DIAGNOSIS TECHNIQUES USING 2ND ORDER ARMA MODEL OF ABSOLUTE DETERIORATION FACTOR
    • 3.1.INTRODUCTION
    • 3.2.DETECTION OF FAILURE BY SYSTEM PARAMETER DISTANCE
    • 3.3.ESTIMATION OF SYSTEM PARAMETER BY ARMA MODEL
    • 3.4.FUNDAMENTAL PREPARATION
    • 3.5.ESTIMATION OF SYSTEM PARAMETER ABOUT ARMA MODEL UTILIZING 4−TH ORDER CUMULANTS AND AUTOCORRELATION FUNCTION
    • 3.6.NUMERICAL EXAMPLES
    • 3.7.CONCLUDING REMARKS
  • Chapter4 SIMPLIFIED MACHINE DIAGNOSIS TECHNIQUES USING 3RD ORDER ARMA MODEL OF ABSOLUTE DETERIORATION FACTOR
    • 4.1.INTRODUCTION
    • 4.2.DETECTION OF FAILURE BY SYSTEM PARAMETER DISTANCE
    • 4.3.ESTIMATION OF SYSTEM PARAMETERS ABOUT ARMA MODEL
    • 4.4.NUMERICAL EXAMPLES
    • 4.5.CONCLUDING REMARKS
  • Chapter5 REVISED FAULT MATRIX METHOD FOR MACHINE DIAGNOSIS
    • 5.1.INTRODUCTION
    • 5.2.FAULT MATRIX METHOD
    • 5.3.REVISED METHOD OF FAULT MATRIX METHOD
    • 5.4.NUMERICAL EXAMPLE
    • 5.5.CONCLUDING REMARKS
  • Chapter6 ANALYSIS OF THE BEHAVIOR OF 6TH NORMALIZED MOMENT BY ONE SIDED AFFILIATED SIMPLIFIED IMPACT VIBRATION AND ITS APPLICATION TO MACHINE DIAGNOSIS
    • 6.1.INTRODUCTION
    • 6.2.THE SIMPLIFIED CALCULATION METHOD OF 6TH NORMALIZED MOMENT
    • 6.3.NUMERICAL EXAMPLES
    • 6.4.CONCLUDING REMARKS
  • Chapter7 OPTIMIZATION IN ALLOCATING GOODS TO SHOP SHELVES
    • 7.1.INTRODUCTION
    • 7.2.PROBLEM DESCRIBTION
    • 7.3.ALGORITHM
    • 7.4.NUMERICAL EXAMPLES
    • 7.5.REMARKS
    • 7.6.CONCLUDING REMARKS
  • Chapter8 OPTIMIZATION IN ALLOCATING GOODS TO SHOP SHELVES−IN THE CASE OF PERMITTING ALLOCATION TO MULTIPLE SHELVES
    • 8.1.INTRODUCTION
    • 8.2.PROBLEM DESCRIBTION
    • 8.3.ALGORITHM
    • 8.4.NUMERICAL EXAMPLES
    • 8.5.REMARKS
    • 8.6.CONCLUDING REMARKS
  • Chapter9 ANALYSIS OF THE PREFERENCE SHIFT OF CUSTOMER BRAND SELECTION
    • 9.1.INTRODUCTION
    • 9.2.BRAND SELECTION AND ITS MATRIX STRUCTURE
    • 9.3.BLOCK MATRIX STRUCTURE IN BRAND GROUPS AND S−STEP FORECASTING
    • 9.4.A QUESTIONNAIRE INVESTIGATION AND NUMERICAL CALCULATION
    • 9.5.CONCLUDING REMARKS
    • APPENDIX
  • Chapter10 ANALYSIS OF THE MATRIX STRUCTURE IN THE PREFERENCE SHIFT OF CUSTOMER BRAND SELECTION FOR AUTOMOBILE
    • 10.1.INTRODUCTION
    • 10.2.MATRIX STRUCTURE IN WHEN CONDENSING THE VARIABLES OF THE SAME CLASS
    • 10.3.A QUESTIONNAIRE INVESTIGATION AND NUMERICAL CALCULATION
    • 10.4.CONCLUDING REMARKS
    • APPENDIX
  • Chapter11 A REVISED FIRST FIT ALGORITHM FOR CUTTING STOCK PROBLEM IN TIMBER PRECUTTING
    • 11.1.INTRODUCTION
    • 11.2.DEFINITION OF CUTTING STOCK PROBLEM
    • 11.3.A REVISED FIRST FIT ALGORITHM
    • 11.4.APPLYING TO HOUSING TIMBER PRECUTTING PROBLEM
    • 11.5.CONCLUDING REMARKS
  • Chapter12 A RECURSIVE REVISED FIRST FIT ALGORITHM FOR CUTTING STOCK PROBLEM
    • 12.1.INTRODUCTION
    • 12.2.A REVISED FIRST FIT DECREASING(RFFD)ALGORITHM
    • 12.3.PROPOSAL OF RECURSIVE RFFD
    • 12.4.APPLYING TO HOUSING TIMBER PRECUTTING PROBLEM
    • 12.5.CONCLUDING REMARKS
  • Chapter13 A REVISED MINIMUM BIN SLACK ALGORITHM FOR CUTTING STOCK PROBLEM
    • 13.1.INTRODUCTION
    • 13.2.FORMULATION OF MULTIPLE STOCK LENGTH CSP
    • 13.3.REVISED MINIMUM BIN SLACK(RMBS)ALGORITHM
    • 13.4.APPLYING TO HOUSING TIMBER PRECUTTING PROBLEM
    • 13.5.CONCLUDING REMARKS
  • Chapter14 A RECURSIVE REVISED MINIMUM BIN SLACK ALGORITHM FOR CUTTING STOCK PROBLEM
    • 14.1.INTRODUCTION
    • 14.2.DEFINITION OF CUTTING STOCK PROBLEM
    • 14.3.A REVISED MINIMUM BIN SLACK(RMBS)ALGORITHM
    • 14.4.PROPOSAL OF RECURSIVE RMBS
    • 14.5.APPLYING TO HOUSING TIMBER PRECUTTING PROBLEM
    • 14.6.CONCLUDING REMARKS
  • Chapter15 EXTENDED ELITISM METHOD FOR CUTTING STOCK PROBLEM OF TIMBER PRECUTTING
    • 15.1.INTRODUCTION
    • 15.2.DEFINITION OF MULTIPLE STOCK LENGTH CSP
    • 15.3.MODEL UTILIZING GENETIC ALGORITHM
    • 15.4.APPLYING TO HOUSING TIMBER PRECUTTING PROBLEM
    • 15.5.CONCLUDING REMARKS
    • APPENDIX
  • Chapter16 ANALYSIS OF THE APPLICATION FOR PRINCIPAL COMPONENT ANALYSIS AND MULTIPLE CORRESPONDENCE ANALYSIS TO MACHINE DIAGNOSIS INDICES
    • 16.1.INTRODUCTION
    • 16.2.FACTORS FOR VIBRATION CALCULATION
    • 16.3.EXAMINATION OF MEASURING DATA
    • 16.4.PRINCIPAL COMPONENT ANALYSIS
    • 16.5.MULTIPLE CORRESPONDENCE ANALYSIS
    • 16.6.CONCLUDING REMARKS
    • APPENDIX