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دانلود کتاب Foundations of Vector Retrieval
دانلود کتاب مبانی بازیابی برداری
مشخصات کتاب
Foundations of Vector Retrieval
ویرایش:
نویسندگان: Sebastian Bruch
سری:
ISBN (شابک) : 9783031551819, 9783031551826
ناشر: Springer
سال نشر: 2024
تعداد صفحات: 199
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 6 مگابایت
قیمت کتاب (تومان) : 83,000
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توضیحاتی درمورد کتاب به خارجی
فهرست مطالب
Preface Vector Retrieval About This Monograph Structure Introduction Retrieval Algorithms Compression Objective Intended Audience Acknowledgements Notation Terminology Symbols Reserved Symbols Vectors and Vector Space Functions and Operators Probabilities and Distributions Contents Part I Introduction Chapter 1 Vector Retrieval 1.1 Vector Representations 1.2 Vectors as Units of Retrieval 1.3 Flavors of Vector Retrieval 1.3.1 Nearest Neighbor Search 1.3.2 Maximum Cosine Similarity Search 1.3.3 Maximum Inner Product Search 1.3.3.1 Properties of MIPS 1.3.3.2 Empirical Demonstration of the Lack of Coincidence 1.4 Approximate Vector Retrieval References Chapter 2 Retrieval Stability in High Dimensions 2.1 Intuition 2.2 Formal Results 2.3 Empirical Demonstration of Instability 2.3.1 Maximum Inner Product Search References Chapter 3 Intrinsic Dimensionality 3.1 High-Dimensional Data and Low-Dimensional Manifolds 3.2 Doubling Measure and Expansion Rate 3.3 Doubling Dimension 3.3.1 Properties of the Doubling Dimension References Part II Retrieval Algorithms Chapter 4 Branch-and-Bound Algorithms 4.1 Intuition 4.2 k-dimensional Trees 4.2.1 Complexity Analysis 4.2.2 Failure in High Dimensions 4.3 Randomized Trees 4.3.1 Randomized Partition Trees 4.3.1.1 A Potential Function to Quantify the Difficulty of NN Search 4.3.1.2 Probability of Failure 4.3.1.3 Data Drawn from a Doubling Measure 4.3.2 Spill Trees 4.3.2.1 Space Overhead 4.3.2.2 Probability of Failure 4.4 Cover Trees 4.4.1 The Abstract Cover Tree and its Properties 4.4.2 The Search Algorithm 4.4.3 The Construction Algorithm 4.4.4 The Concrete Cover Tree 4.5 Closing Remarks 4.5.1 Alternative Constructions and Extensions 4.5.2 Future Directions References Chapter 5 Locality Sensitive Hashing 5.1 Intuition 5.2 Top-k Retrieval with LSH 5.2.1 The Point Location in Equal Balls Problem 5.2.1.1 Proof of Correctness 5.2.1.2 Space and Time Complexity 5.2.2 Back to the Approximate Retrieval Problem 5.3 LSH Families 5.3.1 Hamming Distance 5.3.2 Angular Distance 5.3.2.1 Hyperplane LSH 5.3.2.2 Cross-polytope LSH 5.3.3 Euclidean Distance 5.3.4 Inner Product 5.4 Closing Remarks References Chapter 6 Graph Algorithms 6.1 Intuition 6.1.1 The Research Question 6.2 The Delaunay Graph 6.2.1 Voronoi Diagram 6.2.2 Delaunay Graph 6.2.3 Top-1 Retrieval 6.2.4 Top-k Retrieval 6.2.5 The k-NN Graph 6.2.6 The Case of Inner Product 6.2.6.1 The IP-Delaunay Graph 6.2.6.2 Is the IP-Delaunay Graph Necessary? 6.3 The Small World Phenomenon 6.3.1 Lattice Networks 6.3.1.1 The Probabilistic Model 6.3.1.2 The Claim 6.3.2 Extension to the Delaunay Graph 6.3.2.1 The Probabilistic Model 6.3.2.2 The Claim 6.3.3 Approximation 6.4 Neighborhood Graphs 6.4.1 From SNG to α-SNG 6.4.1.1 Analysis 6.4.1.2 Practical Construction of α-SNGs 6.5 Closing Remarks References Chapter 7 Clustering 7.1 Algorithm 7.2 Closing Remarks References Chapter 8 Sampling Algorithms 8.1 Intuition 8.2 Approximating the Ranks 8.2.1 Non-negative Data and Queries 8.2.2 The General Case 8.2.3 Sample Complexity 8.3 Approximating the Scores 8.3.1 The BoundedME Algorithm 8.3.2 Proof of Correctness 8.4 Closing Remarks References Part III Compression Chapter 9 Quantization 9.1 Vector Quantization 9.1.1 Codebooks and Codewords 9.2 Product Quantization 9.2.1 Distance Computation with PQ 9.2.2 Optimized Product Quantization 9.2.3 Extensions 9.3 Additive Quantization 9.3.1 Distance Computation with AQ 9.3.2 AQ Encoding and Codebook Learning 9.4 Quantization for Inner Product 9.4.1 Score-aware Quantization 9.4.1.1 Parallel and Orthogonal Residuals 9.4.1.2 Learning a Codebook 9.4.1.3 Extensions References Chapter 10 Sketching 10.1 Intuition 10.2 Linear Sketching with the JL Transform 10.2.1 Theoretical Analysis 10.3 Asymmetric Sketching 10.3.1 The Sketching Algorithm 10.3.2 Inner Product Approximation 10.3.3 Theoretical Analysis 10.3.3.1 Probability of Error 10.3.3.2 Distribution of Error 10.3.3.3 Case Study: Gaussian Vectors 10.3.3.4 Error of Inner Product 10.3.4 Fixing the Sketch Size 10.4 Sketching by Sampling 10.4.1 The Sketching Algorithm 10.4.2 Inner Product Approximation 10.4.3 Theoretical Analysis References Part IV Appendices Appendix A Collections References Appendix B Probability Review B.1 Probability B.2 Random Variables B.3 Conditional Probability B.4 Independence B.5 Expectation and Variance B.6 Central Limit Theorem Appendix C Concentration of Measure C.1 Markov’s Inequality C.2 Chebyshev’s Inequality C.3 Chernoff Bounds C.4 Hoeffding’s Inequality C.5 Bennet’s Inequality Appendix D Linear Algebra Review D.1 Inner Product D.2 Norms D.3 Distance D.4 Orthogonal Projection
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