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200 00$aArtificial Intelligence for Communications and Networks $e4th EAI International Conference, AICON 2022, Hiroshima, Japan, November 30 - December 1, 2022, Proceedings /$fYasushi Kambayashi [and four others], editors
205   $aFirst edition.
210  1$aCham, Switzerland :$cSpringer,$d[2023]
210  4$d©2023
215   $a1 online resource (168 pages)
225 1 $aLecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering Series ;$vVolume 477
311 08$aPrint version: Kambayashi, Yasushi Artificial Intelligence for Communications and Networks Cham : Springer,c2023 9783031291258 
320   $aIncludes bibliographical references and index.
327   $aAI and Networks -- Cost-aware Node Ranking Algorithm for Embedding Virtual Networks in Internet of Vehicles -- Fault Diameter of Strong Product Graph of Two Paths -- Design and Implementation of SF Selection Based on Distance and SNR using Autonomous Distributed Reinforcement Learning in LoRa Networks -- Machine Learning -- QBRT: Bias and Rising Threshold Algorithm with Q-Learning -- A Study on Effectiveness of BERT Models and Task[1]Conditioned Reasoning Strategy for Medical Visual Question Answering -- Inspired human cognitive bias robust Neural Networks against Adversarial attacks -- Efficient estimation of cows? location using machine learning from sensor data, farm management, cow location -- A Time Series Forecasting Method using DBN and Adam Optimization -- Unity-Bounded Function and Benchmark Design Specifications Targeted for Designing Typical Variable Digital Filters -- Evolutionary Computation -- Proposal and evaluation of a course classification support system emphasizing communication with the sub-committees within the Committee of Validation and Examination for Degrees -- A Research of Infectivity Rate of Seasonal Influenza from Pre-Infectious person for Data Driven Simulation Saori Iwanaga -- Creating Trust within Population in an Uncertain Environment using Blockchain -- Efficient Inductive Logic Programming Based on Particle Swarm Optimization.
330   $aThis book, AICON 2022, constitutes the post-conference proceedings of the 4th EAI International Conference on Artificial Intelligence for Communications and Networks, AICON 2022, held in Hiroshima, Japan, in November 30- December 1, 2022. The 9 full papers and 4 short papers were carefully reviewed and selected from 36 submissions. The papers detail research in the areas of AI and communication systems related to intelligent systems and computational intelligence for communication and networks. They are organized in topical sections on AI and networks; machine learning; and evolutionary computation.
410  0$aLecture notes of the Institute for Computer Sciences, Social Informatics, and Telecommunications Engineering ;$vVolume 477.
606   $aArtificial intelligence$vCongresses
606   $aComputer networks$vCongresses
615  0$aArtificial intelligence
615  0$aComputer networks
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200 10$aClinical Insertion Techniques of Orthodontic Temporary Anchorage Devices
205   $a1st ed.
210  1$aNewark :$cJohn Wiley & Sons, Incorporated,$d2024.
210  4$d©2024.
215   $a1 online resource (593 pages)
311 08$aPrint version: Long, Hu Clinical Insertion Techniques of Orthodontic Temporary Anchorage Devices Newark : John Wiley & Sons, Incorporated,c2024 9781119892236 
327   $aCover -- Title Page -- Copyright Page -- Dedication Page -- Contents -- About the Editors -- List of Contributors -- Foreword -- Preface -- Acknowledgements -- Chapter 1 An Overview of Orthodontic Temporary Anchorage Devices -- 1.1 Introduction -- 1.2 Evolution of Orthodontic TADs -- 1.3 Characteristics of Orthodontic TADs -- 1.3.1 Materials -- 1.3.2 Morphology -- 1.3.3 Drilling Methods: Self-tapping versus Self-drilling -- 1.4 Mechanical Retention of Orthodontic TADs -- 1.4.1 Mechanical Retention -- 1.4.2 Primary Stability and Secondary Stability -- 1.4.3 Direct versus Indirect Anchorage -- 1.5 Clinical Indications for Orthodontic TADs -- 1.5.1 Sagittal Dimension -- 1.5.2 Vertical Dimension -- 1.5.3 Transverse Dimension -- 1.6 Potential Complications -- 1.7 Summary -- References -- Chapter 2 Requirements for the Insertion of Orthodontic Temporary Anchorage Devices -- 2.1 Introduction -- 2.2 Systemic Requirements -- 2.2.1 Basic Conditions -- 2.2.2 Systemic Diseases -- 2.2.3 Drugs -- 2.2.4 Habits -- 2.3 Local Requirements -- 2.3.1 Hard Tissue -- 2.3.2 Soft Tissue -- 2.4 Summary -- References -- Chapter 3 General Principles for the Insertion of Orthodontic Temporary Anchorage Devices -- 3.1 Introduction -- 3.2 Anatomy-driven Paradigm -- 3.2.1 General Principles -- 3.2.2 Available Anatomical Sites -- 3.3 Biomechanics-driven Paradigm -- 3.3.1 Maxillary Molar Uprighting -- 3.3.2 Molar Intrusion -- 3.3.3 Incisor Intrusion -- 3.3.4 Orthodontic Traction of Impacted Molars -- 3.3.5 Molar Protraction -- 3.4 Clinical Procedures for Inserting Mini-implants -- 3.4.1 Preinsertion Preparation -- 3.4.2 Insertion of Mini-implants -- 3.4.3 Post-insertion Examination -- 3.5 Summary -- References -- Chapter 4 Maxillary Labial Region -- 4.1 Introduction -- 4.2 Interradicular Sites -- 4.2.1 Anatomic Features -- 4.2.2 Biomechanical Considerations.
327   $a4.2.3 Selection of Appropriate Insertion Sites -- 4.2.4 Insertion Techniques -- 4.2.5 Clinical Applications -- 4.3 Anterior Nasal Spine -- 4.3.1 Anatomical Features -- 4.3.2 Biomechanical Considerations -- 4.3.3 Selection of Appropriate Insertion Sites -- 4.3.4 Insertion Techniques -- 4.3.5 Clinical Applications -- 4.4 Summary -- References -- Chapter 5 Maxillary Buccal Region -- 5.1 Introduction -- 5.2 Interradicular Sites -- 5.2.1 Anatomical Characteristics -- 5.2.2 Biomechanical Considerations -- 5.2.3 Selection of Appropriate Insertion Sites -- 5.2.4 Insertion Techniques -- 5.2.5 Clinical Applications -- 5.3 Infrazygomatic Crest -- 5.3.1 Anatomical Characteristics -- 5.3.2 Biomechanical Considerations -- 5.3.3 Selection of Appropriate Insertion Sites -- 5.3.4 Insertion Techniques -- 5.3.5 Clinical Applications -- 5.4 Maxillary Tuberosity -- 5.4.1 Anatomical Characteristics -- 5.4.2 Biomechanical Considerations -- 5.4.3 Selection of Appropriate Insertion Sites -- 5.4.4 Insertion Techniques -- 5.4.5 Clinical Applications -- 5.5 Summary -- References -- Chapter 6 Maxillary Palatal Region -- 6.1 Introduction -- 6.2 Interradicular Sites -- 6.2.1 Anatomical Characteristics -- 6.2.2 Biomechanical Considerations -- 6.2.3 Selection of Appropriate Insertion Sites -- 6.2.4 Insertion Techniques -- 6.2.5 Clinical Applications -- 6.3 Paramedian Sites -- 6.3.1 Anatomical Characteristics -- 6.3.2 Biomechanical Considerations -- 6.3.3 Selection of Optimal Insertion Sites -- 6.3.4 Insertion Techniques -- 6.3.5 Clinical Applications -- 6.4 Midpalatal Suture -- 6.4.1 Anatomical Features -- 6.4.2 Optimal Insertion Sites -- 6.4.3 Insertion Techniques -- 6.4.4 Clinical Applications -- 6.5 Summary -- References -- Chapter 7 Mandibular Labial Region -- 7.1 Introduction -- 7.2 Interradicular Sites -- 7.2.1 Anatomical Characteristics -- 7.2.2 Biomechanical Perspectives.
327   $a7.2.3 Determining the Optimal Sites -- 7.2.4 Insertion Techniques -- 7.3 Mandibular Symphysis -- 7.3.1 Anatomical Features -- 7.3.2 Biomechanical Considerations -- 7.3.3 Selection of Optimal Sites -- 7.3.4 Insertion Techniques -- 7.4 Summary -- References -- Chapter 8 Mandibular Buccal Region -- 8.1 Introduction -- 8.2 Interradicular Sites -- 8.2.1 Anatomical Characteristics -- 8.2.2 Biomechanical Considerations -- 8.2.3 Selection of Appropriate Insertion Sites -- 8.2.4 Insertion Techniques -- 8.2.5 Clinical Applications -- 8.3 Buccal Shelf -- 8.3.1 Anatomical Characteristics -- 8.3.2 Biomechanical Considerations -- 8.3.3 Selection of Appropriate Insertion Sites -- 8.3.4 Insertion Techniques -- 8.3.5 Clinical Applications -- 8.4 Summary -- References -- Chapter 9 Mandibular Ramus -- 9.1 Introduction -- 9.2 Anatomical Considerations -- 9.2.1 Anatomical Location -- 9.2.2 Hard Tissue Considerations -- 9.2.3 Soft Tissue Considerations -- 9.2.4 Optimal Insertion Sites -- 9.3 Mini-implant Selection -- 9.4 Insertion Procedure -- 9.4.1 Insertion Procedures -- 9.4.2 Insertion on Skulls -- 9.4.3 Clinical Procedures -- 9.4.4 Biomechanical Analysis -- 9.5 Versatile Clinical Applications -- 9.5.1 Uprighting Mesioangulated Impacted Mandibular Second Molars -- 9.5.2 Orthodontic Traction of a Vertically Impacted Mandibular Second Molar -- 9.5.3 Traction of a Lingually Angulated Impacted Mandibular Second Molar -- 9.5.4 Traction of a Mandibular Third Molar Away from the Inferior Alveolar Canal6 -- 9.6 Summary -- References -- Chapter 10 The Placement of Miniplates -- 10.1 Introduction -- 10.2 Clinical Features -- 10.2.1 Structure of Miniplates -- 10.2.2 Advantages and Disadvantages -- 10.2.3 Available Anatomical Sites -- 10.3 Clinical Indications -- 10.3.1 Orthopaedic Treatment for Skeletal Discrepancy -- 10.3.2 Anatomical Factors Undesirable for Mini-implants.
327   $a10.3.3 Biomechanical Advantages -- 10.4 Insertion Techniques -- 10.5 Removal Techniques -- 10.6 Summary -- References -- Chapter 11 Three-dimensional Design and Manufacture of Insertion Guides -- 11.1 Introduction -- 11.2 Evolution of Insertion Guides -- 11.2.1 The Concept of Guided Surgery -- 11.2.2 Evolution of Guided Insertion for Mini-implants -- 11.3 Advantages and Disadvantages of Insertion Guides -- 11.3.1 Advantages -- 11.3.2 Disadvantages -- 11.4 Three-dimensional Design of Insertion Guides for Mini-implants -- 11.4.1 Reconstructing a Three-dimensional Dentition Model -- 11.4.2 Establishing the Digital Data of Mini-implants and Screwdrivers -- 11.4.3 Virtual Placement of Mini-implants -- 11.4.4 Three-dimensional Design of Insertion Guides -- 11.5 Manufacturing Insertion Guides -- 11.5.1 Exporting the STL File -- 11.5.2 Adding Supporting Components for the Insertion Guide -- 11.5.3 Generating the Actual Insertion Guide Through 3-D Printing -- 11.5.4 Removing the Supporting Components and Polishing the Insertion Guide -- 11.5.5 Try-in on the Dental Model -- 11.5.6 Examples of Insertion Guides for Different Anatomical Sites -- 11.6 Summary -- References -- Chapter 12 Clinical Techniques for Using Insertion Guides -- 12.1 Introduction -- 12.2 Clinical Procedures -- 12.2.1 Verifying the Fit of Insertion Guides -- 12.2.2 Anaesthesia -- 12.2.3 Inserting Mini-implants -- 12.2.4 Detaching Screwdrivers and Removing Insertion Guides -- 12.3 Placement of Mini-implants with Insertion Guides at Different Sites -- 12.3.1 Labial Interradicular Region -- 12.3.2 Buccal Interradicular Region -- 12.3.3 Palatal Region -- 12.3.4 Buccal Shelf -- 12.4 Summary -- References -- Chapter 13 Root Contact -- 13.1 Introduction -- 13.2 Clinical Manifestations -- 13.3 Prognosis -- 13.3.1 Mini-implants -- 13.3.2 Periodontal Tissues and Dental Roots -- 13.4 Risk Factors.
327   $a13.4.1 Insertion Site -- 13.4.2 Limited Interradicular Space -- 13.4.3 Insertion Height -- 13.4.4 Insertion Angulation -- 13.5 Prevention -- 13.5.1 Prudent Selection of Insertion Sites -- 13.5.2 Meticulous Design of Insertion Angulation -- 13.5.3 Appropriate Anaesthesia and Insertion Technique -- 13.6 Management of Root Contact -- 13.7 Summary -- References -- Chapter 14 Fractures of Orthodontic Temporary Anchorage Devices -- 14.1 Introduction -- 14.2 Risk Factors for Mini-implant Fracture -- 14.2.1 Operator-associated Factors -- 14.2.2 Implant-associated Factors -- 14.2.3 Insertion Site-associated Factors -- 14.3 Prevention of Mini-implant Fracture -- 14.3.1 Prudent Selection of Insertion Sites -- 14.3.2 Judicious Selection of Appropriate Mini-implants -- 14.3.3 Appropriate Insertion Techniques -- 14.4 Management of Mini-implant Fracture -- 14.4.1 Clinical Decisions in Different Clinical Scenarios -- 14.4.2 Clinical Techniques for Removing Fractured Mini-implants -- 14.5 Summary -- References -- Chapter 15 Soft Tissue Complications -- 15.1 Introduction -- 15.2 Clinical Manifestations -- 15.2.1 Soft Tissue Swelling -- 15.2.2 Soft Tissue Hyperplasia -- 15.2.3 Soft Tissue Infection -- 15.2.4 Soft Tissue Lesion -- 15.3 Adverse Consequences -- 15.4 Risk Factors -- 15.4.1 Patient Factors -- 15.4.2 Operator Factors -- 15.4.3 Factors Associated with the Mini-implant -- 15.5 Prevention -- 15.5.1 Meticulous Oral Hygiene Care -- 15.5.2 Prudent Selection of Insertion Sites -- 15.5.3 Sophisticated Insertion Techniques -- 15.5.4 Prevention of Excessive Soft Tissue Trauma -- 15.6 Treatment -- 15.6.1 Peri-implant Irrigation and Scaling -- 15.6.2 Removal of Causative Factors -- 15.6.3 Local Debridement and Drainage -- 15.6.4 Excision of Hypertrophic Soft Tissue -- 15.7 Summary -- References -- Chapter 16 Failure of Orthodontic Temporary Anchorage Devices.
327   $a16.1 Introduction.
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