Tag: Volumes

Retouch4me Portrait Volumes 1.020


Free Download Retouch4me Portrait Volumes 1.020 (x64) | Plug-in for Photoshop | 25 Mb
Retouch4me Portrait Volumes – Add new dimension to your portraits. Retouch4me Portrait Volumes automatically enhances the sense of depth in portraits. It makes eyes brighter, emphasizes lips, nose and draws the oval of the face. Adding volume to a portraits by hand is not an easy task, even for an experienced retoucher. Retouch4me Portrait Volumes is great for portraits with even lighting.

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Theory of Stochastic Canonical Equations Volumes I and II (DJVU)


Free Download V.L. Girko, "Theory of Stochastic Canonical Equations: Volumes I and II"
English | 2001 | pages: 1008 | ISBN: 9401038821, 1402000758 | DJVU | 6,3 mb
Theory of Stochastic Canonical Equations collects the major results of thirty years of the author’s work in the creation of the theory of stochastic canonical equations. It is the first book to completely explore this theory and to provide the necessary tools for dealing with these equations. Included are limit phenomena of sequences of random matrices and the asymptotic properties of the eigenvalues of such matrices. The book is especially interesting since it gives readers a chance to study proofs written by the mathematician who discovered them.

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Sensors Applications 5 Volumes


Free Download Sensors Applications: 5 Volumes By
2008 | 2330 Pages | ISBN: 3527295658 | PDF | 51 MB
The book series Sensors Applications covers the application of up-to-date sensor principles in key areas, meeting the growing need for comprehensive information on the wide variety of available systems and their purposes, potentials, applications and limitations. Content: Chapter 1.1 Fundamentals: Roles of Sensors in Manufacturing and Application Ranges (pages 1-6): Prof. Dr. I. Inasaki and Prof. H. K. TonshoffChapter 1.2 Fundamentals: Principles of Sensors in Manufacturing (pages 6-23): D. DornfeldChapter 1.3 Fundamentals: Sensors in Mechanical Manufacturing – Requirements, Demands, Boundary Conditions, Signal Processing, Communication Techniques, and Man?Machine Interfaces (pages 24-45): T. MoriwakiChapter 2 Sensors for Machine Tools and Robots (pages 47-70): Prof. H. K. TonshoffChapter 3.1 Sensors for Workpieces: Macro?Geometric Features (pages 71-98): A. WeckenmannChapter 3.2 Sensors for Workpieces: Micro?Geometric Features (pages 98-123): A. WeckenmannChapter 3.3 Sensors for Workpieces: Sensors for Physical Properties (pages 123-142): B. KarpuschewskiChapter 4.1 Sensors for Process Monitoring: Casting and Powder Metallurgy (pages 143-171): H. D. Haferkamp, M. Niemeyer, J. Weber and R. WertheimChapter 4.2 Sensors for Process Monitoring: Metal Forming (pages 172-202): E. Doege, F. Meiners, T. Mende, W. Strache and J. W. YunChapter 4.3 Sensors for Process Monitoring: Cutting Processes (pages 203-235): Prof. Dr. I. Inasaki, B. Karpuschewski and Prof. H. K. TonshoffChapter 4.4 Sensors for Process Monitoring: Abrasive Processes (pages 236-272): Prof. Dr. I. Inasaki and B. KarpuschewskiChapter 4.5 Sensors for Process Monitoring: Laser Processing (pages 272-277): V. Kral and O. HillersChapter 4.6 Sensors for Process Monitoring: Electrical Discharge Machining (pages 277-286): T. MasuzawaChapter 4.7 Sensors for Process Monitoring: Welding (pages 286-307): H. D. Haferkamp, F. v. Alvensleben, M. Niemeyer, W. Specker and M. ZeltChapter 4.8 Sensors for Process Monitoring: Coating Processes (pages 307-325): K.?D. Bouzakis, N. Vidakis and G. ErkensChapter 4.9 Sensors for Process Monitoring: Heat Treatment (pages 326-342): P. Mayr and H. Klumper?WestkampChapter 5.1 Developments in Manufacturing and Their Influence on Sensors: Ultra?Precision Machining: Nanometric Displacement Sensors (pages 343-353): E. BrinksmeierChapter 5.2 Developments in Manufacturing and Their Influence on Sensors: High?Speed Machining (pages 354-357): Prof. H. K. TonshoffChapter 5.3 Developments in Manufacturing and Their Influence on Sensors: Micro?Machining (pages 357-363): M. WeckChapter 5.4 Developments in Manufacturing and Their Influence on Sensors: Environmental Awareness (pages 363-376): F. KlockeChapter 1 Introduction (pages 1-25): Dr. Oliver Gassmann and Prof. Dr. Hans MeixnerChapter 2.1 Energy and HVAC: Intelligent Air?Conditioning Control (pages 27-61): Albert T. P. So and Brian W. L. TseChapter 2.2 Energy and HVAC: NEUROBAT – a Self?Commissioned Heating Control System Using Neural Networks (pages 63-83): Jens Krauss, Manuel Bauer, Jurg Bichsel and Nicolas MorelChapter 2.3 Energy and HVAC: Air Quality Measurement and Management (pages 85-102): Hanns?Erik EndresChapter 2.4 Energy and HVAC: Sensor?Based Management of Energy and Thermal Comfort (pages 103-126): Th. Bernard and H.?B. KuntzeChapter 2.5 Energy and HVAC: Wireless and M?Bus enabled Metering Devices (pages 127-157): Dieter MrozinskiChapter 2.6 Energy and HVAC: Sensors in HVAC Systems for Metering and Energy Cost Allocation (pages 159-172): Gunter MuggeChapter 2.7 Energy and HVAC: Pressure Sensors in the HVAC Industry (pages 173-199): Yves Luthi, Rolf Meisinger, Marc Wenzler and Kais MnifChapter 3.1 Information and Transportation: Fieldbus Systems (pages 201-239): Dietmar Dietrich and Thilo SauterChapter 3.2 Information and Transportation: Wireless In?Building Networks (pages 241-260): Mike BarnardChapter 3.3 Information and Transportation: Sensor Systems in Modern High?Rise Elevators (pages 261-291): Enrico Marchesi, Ayman Hamdy and Rene KunzChapter 3.4 Information and Transportation: Sensing Chair and Floor Using Distributed Contact Sensors (pages 293-304): Hong Z. Tan, Alex Pentland and Lynne A. SlivovskyChapter 4.1 Safety and Security: Life Safety and Security Systems (pages 305-397): Marc ThuillardChapter 4.2 Safety and Security: Biometric Authentication for Access Control (pages 399-408): Christoph BuschChapter 4.3 Safety and Security: Smart Cameras for Intelligent Buildings (pages 409-426): Bedrich J. HostickaChapter 4.4 Safety and Security: Load Sensing for Improved Construction Site Safety (pages 427-447): Peter L. Fuhr and Dryver R. HustonChapter 5.1 Maintenance and Facility Management: Maintenance Management in Industrial Installations (pages 449-468): Jerry KahnChapter 5.2 Maintenance and Facility Management: WWFM – Worldwide Facility Management (pages 469-481): Rolf ReinemaChapter 6.1 System Technologies: Sensor Systems in Intelligent Buildings (pages 483-510): Hans?Rolf Trankler and Olfa KanounChapter 6.2 System Technologies: System Technologies for Private Homes (pages 511-558): Friedrich Schneider, Lars Binternagel, Yuriy Kyselytsya, Wolfgang Muller, Thomas Schlutsmeier, Bernhard Schreyer, Rostislav Stolyar, Kay Werthschulte, Gunter Westermeir, Dirk Wolfle and Thomas WeinzierlChapter 1 Introduction (pages 1-13): Prof. P. A. Oberg, Prof. F. A. Spelman and Prof. T. TogawaChapter 2 Optical Sensors in Medical Care (pages 15-43): Prof. P. Ake ObergChapter 3 Biosensors for Monitoring Glucose (pages 45-78): J. D. Newman and A. P. F. TurnerChapter 4 Biomagnetic Imaging: Principles of Magnetic Resonance Imaging and Emerging Techniques in Progress (pages 79-105): S. Ueno and N. IriguchiChapter 5 Non?Invasive Cardiovascular Hemodynamic Measurements (pages 107-160): K. YamakoshiChapter 6 Sensors for Respiratory Monitoring (pages 161-186): A. Johansson and B. HokChapter 7 Sensors for Fetal and Neonatal Monitoring (pages 187-242): P. RolfeChapter 8 Body Motion Analysis (pages 243-281): T. TamuraChapter 9 Cardiac Pacemakers (pages 283-308): B. Hensel, G. Czygan, I. Weiss and T. NappholzChapter 10 Cochlear Implants (pages 309-338): F. A. SpelmanChapter 11 Sensors for Catheter Applications (pages 339-380): P. J. French, D. Tanase and J. F. L. GoosenChapter 12 Home Health Care and Telecare (pages 381-405): Prof. T. TogawaChapter 1 Overview (pages 1-4): Dr.?Ing. Jiri Marek and Dr. Hans?Peter TrahChapter 2 Automotive Sensor Market (pages 5-19): Dr. Karl?Franz Reinhart and Dr. Matthias IllingChapter 3 Measurement Principles: Basic Considerations about Sensing (pages 21-37): Dr. Hans?Peter Trah, Dr. Kersten Kehr and Dr. Roland Muller?FiedlerChapter 4 Design Methodology (pages 39-72): Dr. Reinhard Neul, Dr. Hans?Reiner Krauss, Dr. Gunar Lorenz and Joe RepkeChapter 5 Technology (pages 73-236): Daniel Lapadatu, Prof. Dr. Henrik Jakobsen, Bob Sulouff, Dr. Jan Peter Stadler, Michael Offenberg, Dr. Franz Larmer, Ralf Henn, Toshio Honma, Dr. Stefan Finkbeiner, Dr. Matthias Furtsch, Dr. Harald Neumann, Hans?Martin Wiedenmann, Dr. Johann Riegel, Dr. Henrik Siegle, Kurt Weiblen, Dr. Roland Muller?Fiedler, Winfried Schonenborn, Dr. Frank Schatz and Dr. Gottfried FlikChapter 6 Evaluation Circuits (pages 237-267): Prof. Bernhard Boser, Dr. Rainer Kienzler and Oliver SchatzChapter 7 Applications: Sections 7.1-7.4 (pages 269-342): Prof. Dr. David J. Monk, Dragan Mladenoric, Mark Skaw, Oliver Schatz, Prof. Dr. Iwao Yokomori, Prof. Dr. Yasutoshi Suzuki and Jorg GebersChapter 7 Applications: Sections 7.5-7.13 (pages 343-473): Aldo Bojarski, Werner Fichte, Dr. Uwe Konzelmann, Prof. Dr. Peter Knoll, Matthias Morbe, Gunter Zwiener, Prof. Dr. Iwao Yokomori, Prof. Dr. Yasutoshi Suzuki, Prof. Dr. Peter Kofink and Cord von HorstenChapter 7 Applications: Sections 7.14-7.20 (pages 474-544): Andreas Schneider, Dr. Johann Riegel, Hans?Martin Wiedenmann, Dr. Harald Neumann, Dr. Dietmar Schmitt, Klaus Dieter Frers, Prof. Dr. Bernhard Jakoby, Falk Herrmann, Dr. Henrik Siegle, Norbert Normann, Gunter Schulze and Wolfgang KellerChapter 1 The Increasing Importance of Sensors in Household Appliances (pages 1-8): Prof. Dr. A. Lahrmann and Dr. G.R. TschulenaChapter 2 Market Data (pages 9-18): Dr. G.R. TschulenaChapter 3 Appliances and Sensors (pages 19-80): G. Wentzlaff, R. Herden, R. Stamminger, H. Janssen, H.?W. Etzkorn, S. Rusche, J. Goschnick, R. Korber, T. Bij De Leij and B. KrausChapter 4 Sensorics for Detergency (pages 81-115): W. Buchmeier, M. Dreja, W. von Rybinski, P. Schmiedel and T. WeissChapter 5 Sensor Related Topics (pages 117-210): M. Muziol, U. Meier, U. Hoefer, M. Meggle, O. Hilt, T. Weiss, E. Huber, R. Herden and H. SteinmuellerChapter 6 Influencing Factors – Today and Tomorrow (pages 211-239): Dr. G.R. Tschulena, K. Abkai, C. Kuhner and U. Koch

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The Collected Works of C. G. Jung, Volumes 1-19 Complete Digital Edition


Free Download The Collected Works of C. G. Jung, Volumes 1-19: Complete Digital Edition by C. G. Jung, edited by William McGuire, R. F. C. Hull Gerhard Adler, Herbert Read, Michael Fordham, translated by Gerhard Adler, R. F. C. Hull
English | March 1, 2014 | ISBN: 1400851068 | True EPUB/PDF | 10844 pages | 96.8/785 MB
The Collected Works of C. G. Jung forms one of the basic texts of twentieth-century thought: at once foundational for depth psychology and pivotal for intellectual, cultural, and religious history.

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Logical Foundations Of Computer Science (In 2 Volumes)


Free Download Logical Foundations Of Computer Science (In 2 Volumes)
English | 2025 | ISBN: 9811289360 | 1336 Pages | PDF (True) | 16 MB
Logic is a foundational mathematical discipline for Computer Science. This unique compendium provides the main ideas and techniques originating from logic. It is divided into two volumes ― propositional logic and predicate logic. The volume presents some of the most important concepts starting with a variety of logic formalisms ― Hilbert/Frege systems, tableaux, sequents, and natural deduction in both propositional and first-order logic, as well as transformations between these formalisms. Topics like circuit design, resolution, cutting planes, Hintikka sets, paramodulation, and program verification, which do not appear frequently in logic books are discussed in detail.The useful reference text has close to 800 exercises and supplements to deepen understanding of the subject. It emphasizes proofs and overcomes technical difficulties by providing detailed arguments. Computer scientists and mathematicians will benefit from this volume.

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The Genesis of General Relativity (3 Volumes)


Free Download The Genesis of General Relativity (2 Volumes) by Michel Janssen, John D. Norton, Jürgen Renn, Tilman Sauer, John Stachel
English | PDF | 2007 | 2071 Pages | ISBN : 1402039999 | 40.5 MB
The transition from classical to modern physics in the ?rst half of the twentieth c- tury by quantum and relativity theories affected some of the most fundamental notions of physical thinking, such as matter, radiation, space, and time. This tran- tion thus represents a challenge for any attempt to understand the structures of a s- enti?c revolution. The present four-volume work aims at a comprehensive account of the way in which the work of Albert Einstein and his contemporaries changed our understanding of space, time, and gravitation. The conceptual framework of classical nineteenth-century physics had to be fundamentally restructured and reinterpreted in order to arrive at a theory of gravitation compatible with the new notions of space and time established in 1905 by Einstein’s special theory of relativity. Whereas the classical theory of gravitation postulated an instantaneous action at a distance, Einstein’s new relativistic kinematics rather suggested an analogy between the gravitational ?eld and the electromagnetic ?eld, propagating with a ?nite speed. It is therefore not surprising that Einstein was not alone in addressing the problem of formulating a theory of gravitation that complies with the kinematics of relativity t- ory. The analysis of these alternative approaches, as well as of earlier alternative approaches to gravitation within classical physics, turns out to be crucial for identi- ing the necessities and contingencies in the actual historical development.

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