03796nam 22005775 450 991102196810332120250820130250.03-031-90444-310.1007/978-3-031-90444-8(CKB)40401962900041(MiAaPQ)EBC32268176(Au-PeEL)EBL32268176(DE-He213)978-3-031-90444-8(OCoLC)1534808806(EXLCZ)994040196290004120250820d2025 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierSport-Related Skin Conditions A Guide for Clinicians /edited by Keyvan Nouri1st ed. 2025.Cham :Springer Nature Switzerland :Imprint: Springer,2025.1 online resource (335 pages)Medicine Series3-031-90443-5 1. Introduction to Sports dermatoses -- 2. Aquatic Sports dermatoses -- 3. Track and Field and Running Sports -- 4. Mountaineering Sports -- 5. Paddle Sports -- 6. Raquet sports -- 7. Ballsports -- 8. Skating Sports.This work reviews the various types of dermatological conditions that affect athletes and sports participants, and provides relevant treatment options in each of the cases. Although there are many articles pertaining to sports medicine in relation to orthopedic and musculoskeletal injuries, there is a shortage of comprehensive literature pertaining the effects of athletics on skin health. Considering the popularity of sports and athletic pursuits, it is important for clinicians to be able to provide preventative guidance and treatment recommendations related to the sports that patients participate in. Previous literature related to sports and dermatology has been confined to review articles that do not provide a thorough breakdown into the various types of sports that have unique biomechanical and environmental components that are worth describing in a book format (e.g. scuba diving and cutaneous decompression sickness). Sport-Related Skin Conditions: A Guide for Clinicians informs dermatologists, medical students and residents, and the general sporting population about the types of dermatoses associated with various sports, methods of identifying them, preventing them and treating them. For example, providing information about the epidemiology of sun exposure in athletes in combination with sun protective guidelines tailored for those athletes (e.g. UV and waterproof sun protection for sailors) could help to improve patient care. Additionally, highlighting the current state of dermatological knowledge relevant to sports can help guide research scientists in finding areas to expand the knowledge base of dermatology. Additionally, by organizing chapters related to groups of sports, this will allow for comparison between different sports in terms of the epidemiology of skin conditions and to stimulate future research into comprehensive prevention and management guidelines for overlapping dermatological conditions in related sports.Medicine SeriesDermatologySports medicinePrimary care (Medicine)DermatologySports MedicinePrimary Care MedicineDermatology.Sports medicine.Primary care (Medicine)Dermatology.Sports Medicine.Primary Care Medicine.616.5Nouri Keyvan900537MiAaPQMiAaPQMiAaPQBOOK9911021968103321Sport-Related Skin Conditions4429558UNINA04869nam 2200589 a 450 991097398570332120251117003209.01-60086-684-01-60086-465-11-61583-079-0(CKB)1000000000703979(SSID)ssj0000071407(PQKBManifestationID)11979938(PQKBTitleCode)TC0000071407(PQKBWorkID)10070744(PQKB)10360748(MiAaPQ)EBC3111665(Au-PeEL)EBL3111665(CaPaEBR)ebr10516770(OCoLC)922978925(BIP)13750021(EXLCZ)99100000000070397920070821d2006 uy 0engurcn|||||||||txtccrAirborne doppler radar applications, theory, and philosophy /by Martin Schetzen1st ed.Reston, Va. American Institute of Aeronautics and Astronauticsc2006xiii, 177 p. illProgress in astronautics and aeronautics ;v. 215Bibliographic Level Mode of Issuance: Monograph1-56347-828-5 Includes bibliographical references and index.Cover -- Title -- Copyright -- Table of Contents -- Preface -- Scientific View -- Doppler Effect -- Aircraft Doppler Stabilization and Navigation -- Quasi-Static Approximation of the Doppler Spectrum -- Pre´cis of Waveform Analysis Techniques -- Thin Antenna Pattern -- General Antenna Pattern -- Center Frequency and Bandwidth of the Doppler Spectrum -- Computer Study of the Doppler Spectrum -- Computer Program -- Appendix A: The Doppler Spectrum for a Thin Gaussian Antenna Pattern and for b(x) ¼ b0 -- Appendix B: The Effect of the Terrain Parameter b(x) -- Appendix C: Derivation of Parseval Relations -- Index.The author's extensive work in Doppler radar theory - specifically his development of an exact theory for the spectrum of an airborne Doppler radar - is thoroughly presented in this important book. Much of the material presented has not previously appeared in print and anyone involved in Doppler theory and applications, airborne Doppler radar, or aircraft stabilization and navigation will find this book invaluable. Starting with his recognized accomplishments gained while a member of the Apollo 11 lunar landing mission team where he was tasked with determining if radar performance over the Moon might differ from that over the Earth, Schetzen theorized that in guidance and control applications, the actual shape of the Doppler spectrum was not necessary; that only its center frequency and bandwidth were required. Following Apollo, he continued to expand his theory in order to make it more useful - developing equations from which the center frequency and bandwidth could be obtained without first determining the actual Doppler spectrum. Uncertainty Principle which states there is a lower limit of the product of position uncertainty and velocity uncertainty. The book begins with a basic discussion of the Doppler effect and its various applications and how Doppler radar can be used for the stabilization and navigation of aircraft. A quasi-static approximation of the Doppler spectrum is presented along with illustrations and discussion to help the reader gain an intuitive understanding of the approximation and its limitations. A summary of the mathematical concepts required for development of an exact theory is then presented using the case of a narrow beam antenna. This is followed by the development of the exact theory for the general case which is graphically illustrated and compared with the quasi-static approximation. General conditions for which the quasi-static approximation error would be excessive - specifically as applied to laser Doppler radars and low-flying aircraft - are presented. used to determine the Doppler spectrum parameters for any antenna pattern and any terrain backscattering, is included. The text develops concepts and theories in a manner that can be readily followed and is supported by graphic illustrations that assist the reader in understanding the theoretical predictions. Where appropriate, examples are presented to illustrate the theory. Final results are summarized for readers who choose not to follow the development of the theory itself.Progress in astronautics and aeronautics ;v. 215.Doppler radarRadar in aeronauticsDoppler radar.Radar in aeronautics.621.38485Schetzen Martin41263MiAaPQMiAaPQMiAaPQBOOK9910973985703321Airborne doppler radar4481340UNINA