Cham : , : Springer International Publishing : , : Imprint : Palgrave Macmillan, , 2020

9783030371333

3030371336

1 online resource (xii, 188 pages) : illustrations

149/.8

410.1835

Continental philosophy

Psycholinguistics

Cognitive psychology

Continental Philosophy

Psycholinguistics and Cognitive Lingusitics

Cognitive Psychology

Inglese

Includes bibliographical references and index.

1. Introduction -- 2. Nietzsche's Genealogy of Nihilism -- 3. Nihilism as Life-Denial -- 4. Before Affective Nihilism, Understanding Affect -- 5. The Problem of Affective Nihilism -- 6. Affective Nihilists, Weak Agents -- 7. Who is Nietzsche's Affective Nihilist?: Thinking Cognitive Nihilism, Affective Nihilism, and their Interplay -- 8. Overcoming Affective Nihilism. .

Nietzsche is perhaps best known for his diagnosis of the problem of nihilism. Though his elaborations on this diagnosis often include descriptions of certain beliefs characteristic of the nihilist (such as beliefs in the meaninglessness or worthlessness of existence), he just as frequently specifies a variety of affective symptoms experienced by the nihilist that weaken their will and diminish their agency. This affective dimension to nihilism, however, remains drastically underexplored. In this book, Kaitlyn Creasy offers a comprehensive account of affective nihilism that draws on Nietzsche's drive

psychology, especially his reflections on affects and their transformative potential. After exploring Nietzsche's account of affectivity (illuminating especially the transpersonal nature of affect in Nietzsche's thought) and the phenomenon of affective nihilism, Creasy argues that affective nihilism might be overcome by employing a variety of Nietzschean strategies: experimentation, self-narration, and self-genealogy.

Washington, D.C., : National Academy Press, 1995

9786610211067

9780309176446

0309176441

9780309552752

0309552753

9780585054537

0585054533

9781280211065

1280211067

1 online resource (284 pages)

623.89/3

Global Positioning System

Artificial satellites in navigation

Inglese

"... Congress requested a joint study by the National Academy of Sciences and the National Academy of Public Administration (NAPA) ..."--Pref.

Includes bibliographical references.

The Global Positioning System: A Shared National Asset -- Copyright --

Acknowledgements -- Preface -- Contents -- Acronyms and Abbreviations -- Executive Summary -- TASK 1 -- TASK 2 -- Recommendations that Enhance GPS Performance for Civil and Commercial Users -- Recommendations that Enhance GPS Performance for Military Users -- Recommendations that Enhance GPS Performance for All Users (Civil, Commercial, and Military) -- Improvement Implementation Strategy -- TASK 3 -- 1 Introduction -- THE TASK -- JOINT STUDY APPROACH -- National Research Council Study Approach -- MAJOR ISSUES AND CONSIDERATIONS -- REPORT ORGANIZATION -- GPS PROGRAM OVERVIEW -- GPS TECHNICAL OVERVIEW -- 2 GPS Applications and Requirements -- INTRODUCTION -- GPS MILITARY APPLICATIONS -- Current and Future Applications and Requirements -- Challenges to Full GPS Utilization -- Accuracy and Integrity -- Anti-Jam and Anti-Spoof Capability -- Findings -- GPS AVIATION APPLICATIONS -- Current and Future Applications and Requirements -- Challenges to Full Utilization of GPS -- Selective Availability and Anti-Spoofing -- Resistance to Radio Frequency Interference -- Operational Procedures -- Findings -- MARITIME USE OF GPS -- Current and Future Applications and Requirements -- Challenges to Full Utilization of GPS -- Associated Technologies -- Selective Availability -- Integrity -- Availability and Radio Frequency Interference -- Findings -- LAND TRANSPORTATION APPLICATIONS -- Current and Future Applications and Requirements -- Challenges to Full GPS Utilization -- Accuracy Versus Other Requirements -- The Cost of Integrated Systems -- Findings -- MAPPING, GEODESY, AND SURVEYING APPLICATIONS -- Current and Future Applications and Requirements -- Challenges to Full GPS Utilization -- Findings -- GPS EARTH SCIENCE APPLICATIONS -- Current and Future Applications and Requirements.

Meteorology -- Oceanography -- Geodynamics -- Airborne Geophysics -- Accuracy Requirements -- Challenges to Full GPS Utilization -- Meteorology -- Oceanography -- Geodynamics -- Airborne Geophysics -- Findings -- GPS TIMING AND TELECOMMUNICATIONS APPLICATIONS -- Current and Future Applications and Requirements -- Challenges to Full GPS Utilization -- Time Transfer -- Time Synchronization -- Findings -- SPACECRAFT USES OF GPS -- Current and Future Applications and Requirements -- Orbit Determination -- Attitude Determination -- Launch and Re-entry Vehicle Guidance -- Challenges to Full GPS Utilization -- Orbit Determination and Orbital Positioning -- Attitude Determination -- Signal Visibility -- Findings -- SUMMARY -- 3 Performance Improvements to the Existing GPS Configuration -- INTRODUCTION -- CURRENT GPS PERFORMANCE -- Accuracy -- Integrity and Availability -- SELECTIVE AVAILABILITY AND ANTI-SPOOFING -- Selective Availability -- Military Utility of SA -- Impact of SA on GPS User Equipment Manufacturers and U.S. Competitiveness -- Impact of SA on Civil Users -- Findings and Recommendations -- Anti-Spoofing -- Impact of A-S on Military Users -- Impact of A-S on Civil Users -- Findings and Recommendations -- SIGNAL STRUCTURE MODIFICATIONS TO REDUCE ATMOSPHERIC DELAY ERROR -- Guidelines and Technical Considerations -- New Signal Structure Options -- Option 1: Wide-Band L4 Signal -- Option 2: Narrow-Band L4 Signal -- Additional Considerations -- Improvements Anticipated from Adding L4 -- Increased Accuracy -- Additional Benefits of L4 -- Reduction of Receiver Noise and Multipath Errors -- Findings and Recommendations -- PERFORMANCE IMPROVEMENTS TO THE GPS OPERATIONAL CONTROL SEGMENT AND SATELLITE CONSTELLATION -- Current Status of the Operational Control Segment and Planned Upgrades -- Recommended Upgrades to the Operational Control Segment.

Accuracy Improvements -- Overall System Improvements -- Planned

Block IIR Operation -- Suggested Improvements Using the Autonomous Ranging and Crosslink Communication Capability -- Accuracy Improvements by Incorporating Satellite Ranging Data into Ground Solution -- Satellite Health Monitoring to Improve System Reliability and Availability -- Ground-Based Integrity Improvements -- PERFORMANCE IMPROVEMENTS TO ENHANCE THE MILITARY USE OF GPS -- Recommended Technical Improvements to Military User Equipment -- Rapid, Direct Y-Code Acquisition -- Antenna Subsystem Improvements -- Inertial Aiding Improvements -- Signal Processing Improvements -- Improved L2 Ionospheric Correction -- Possible Interim Operational Procedures -- IMPROVEMENT IMPLEMENTATION STRATEGY -- 4 Technical Enhancements for Future Consideration -- GPS IMPROVEMENTS TO IMPROVE OVERALL PERFORMANCE -- Use of a 24-Satellite Ensemble Clock -- Reduced Satellite Clock Errors Through Use of Improved Clocks -- Satellite-Based Integrity Monitoring -- Increased L2 Signal Strength -- Cross-Correlation Type Y-Codeless Receivers -- L2 Squaring Y-Codeless Receivers -- Y-Code Tracking PPS Receivers -- MILITARY ENHANCEMENTS -- Block IIF Signal Structure Military Enhancements -- Wide-Band Signals at High Frequency -- Spot Beams -- ENHANCEMENTS FOR HIGH-PRECISION USERS -- GPS Transmit Antenna Calibration -- Knowledge of Spacecraft Characteristics -- Improved L1 Signal Reception at Angles Below the Earth's Horizon -- Appendix A Study Participants -- Appendix B Abbreviated Committee Biographies -- Appendix C Overview Of The Global Positioning System And Current Or Planned Augmentations -- ORIGINS AND DEVELOPMENT OF THE NAVSTAR GPS PROGRAM -- GPS POLICY, MANAGEMENT, AND OPERATIONS -- Department of Defense -- Department of Transportation -- The Federal Radionavigation Plan -- GPS TECHNICAL OVERVIEW.

Space Segment -- Operational Control Segment -- User Equipment -- GPS Signal Characteristics and Operational Concepts -- Selective Availability and Other Positioning Errors -- Atmospheric Error -- Clock and Ephemeris Error -- Multipath Errors -- Receiver Errors -- Dilution of Precision -- IMPROVING THE CAPABILITIES OF GPS -- Integrity -- Availability -- Continuity of Service -- Resistance to RF Interference -- Augmentations and Enhancements -- Differential GPS -- Carrier Phase (Interferometric) GPS -- Pseudolites -- Receiver Autonomous Integrity Monitoring (RAIM) -- Combined Use of GPS and GLONASS -- GPS/Inertial Navigation System (INS) Integration -- GPS and Loran-C -- PERMANENT DIFFERENTIAL GPS AUGMENTATIONS -- U.S. Government-Supported Differential GPS -- FAA Wide-Area and Local-Area DGPS Concepts -- U.S. Coast Guard DGPS Service -- NOAA Continuously Operated Reference Stations -- State and Local Government DGPS -- Differential Systems Supported by Foreign Governments and International Organizations -- Maritime DGPS Services -- International Participation in the FAA's WAAS -- Inmarsat -- The International GPS Service for Geodynamics -- Racal Survey -- John E. Chance &amp -- Associates, Inc. (A member of the Fugro Group of Companies) -- ACCQPOINT -- Differential Corrections Inc. -- Appendix D Accuracy Definitions And Mathematical Relationships -- Appendix E Report From Mr. Michael Dyment, Booz  Allen &amp -- Hamilton -- Appendix F Report From Dr. Young Lee, The MITRE Corporation -- EFFECT OF ELIMINATING SELECTIVE AVAILABILITY (SA): IMPACT ON RAIM -- Appendix G Increased Bandwidth Performance Analysis -- Appendix H Signal Structure Options -- OPTIONS 1 AND 2 -- OPTIONS 3 AND 4 -- OPTION 5 -- OPTION 6 -- OPTION 7 -- OPTION 8 -- OPTION 9 -- Appendix I Report From Mr. Melvin Barmat, Jansky/Barmat Telecommunications, Inc.

Appendix J Selective Denial of Civilian GPS Signals by the Military -- Appendix K Direct Y-Code Acquisition -- OLD TECHNOLOGY (100,000 GATE ASIC) -- CURRENT TECHNOLOGY (500,000 GATE ASIC) -- DISCUSSION -- Appendix L Enhanced Signal Structures for the Military -- SCENARIO 1: UNAIDED Y-CODE BANDWIDTH SIGNAL WITH A STANDARD ANTENNA -- SCENARIO 2: AIDED Y-CODE BANDWIDTH WITH A STANDARD ANTENNA -- SCENARIO 3: AIDED Y-CODE BANDWIDTH WITH NULLING ANTENNA -- SCENARIO 4: UNAIDED WIDE BANDWIDTH WITH STANDARD ANTENNA -- SCENARIO 5: AIDED WIDE BANDWIDTH STANDARD ANTENNA -- SCENARIO 6: AIDED WIDE BANDWIDTH WITH MINIATURIZED NULLING ANTENNA -- SCENARIO 7: AIDED WIDE BANDWIDTH WITH NULLING AND BEAM-FORMING ANTENNA -- Appendix M Accuracy of a 14-Satellite Ensemble Versus a 24-Satellite Ensemble -- CASE A -- Analysis -- CASE B -- Analysis.

Provides the results of the technical portion of the National Research Council's study of the Global Positioning System (GPS) recommending technical improvements that could enhance military, civilian, and commercial use of the system. Describes current and future applications, performance improvements to the existing system, and enhancements under consideration. Includes appendices on technical aspects and reports from companies using the system. No index. Annotation copyright by Book News, Inc., Portland, OR