05274nam 2200649 a 450 991079039060332120210617161506.01-280-85134-197866137117000-12-391412-4(CKB)2670000000193855(EBL)945450(OCoLC)802069674(SSID)ssj0000695562(PQKBManifestationID)12276936(PQKBTitleCode)TC0000695562(PQKBWorkID)10675541(PQKB)10955493(Au-PeEL)EBL945450(CaPaEBR)ebr10575746(CaONFJC)MIL371170(OCoLC)796936824(MiAaPQ)EBC945450(EXLCZ)99267000000019385520120714d2012 uy 0engur|n|---|||||txtccrFundamentals of motor control[electronic resource] /Mark L. Latash1st ed.Amsterdam ;Boston Elsevier/Academic Press20121 online resource (365 p.)Description based upon print version of record.0-12-415956-7 Includes bibliographical references and index.Front Cover; Fundamentals of Motor Control; Copyright; Contents; Preface; Chapter 1A philosophical introduction; 1.1Adequate language; 1.2Specific features of biological objects; Chapter 2Elements of history; 2.1From Ancient Greece to the early twentieth century; 2.2Classical biomechanics and neurophysiology of the twentieth century; 2.3Nikolai Bernstein and the levels of movement construction; Self-test questions; Essential references and recommended further readings; Chapter 3Features of the system for movement production; 3.1The muscle; 3.2Neurons and neural pathways; 3.3Sensory receptors3.4Reflexes3.5Motor redundancy; 3.6Motor variability; Self-test questions; Essential references and recommended further readings; Chapter 4Instructive examples; 4.1Do stars and planets measure the distances to each other?; 4.2Posture-movement paradox; 4.3Opening a door with a mug of coffee in one's hand; 4.4Tonic stretch reflex and voluntary movements; 4.5Equifinality and its violations; 4.6Effects of deafferentation on voluntary movements; Self-test questions; Essential references and recommended further readings; Chapter 5Control with forces and torques; 5.1Force control5.2Are interaction torques special? The leading-joint hypothesis5.3Generalized motor programs; Self-test questions; Essential references and recommended further readings; Chapter 6Control with muscle activations; 6.1Introduction; 6.2Dual-strategy hypothesis; 6.3Pulse-step model; 6.4Control of multi-muscle systems: muscle synergies; Self-test questions; Essential references and recommended further readings; Chapter 7Control theory approaches; 7.1The basic notions; 7.2Servo-control and Merton's servo-hypothesis; 7.3Optimal control; Self-test questionsEssential references and recommended further readingsChapter 8Physical approaches; 8.1Mass-spring models; 8.2Threshold control; 8.3The equilibrium-point hypothesis; 8.4Control with referent configurations; Self-test questions; Essential references and recommended further readings; Chapter 9Coordination; 9.1Introduction; 9.2Optimization; 9.3Dynamical systems approach; 9.4Synergy; 9.5Perception-action interactions; 9.6Perception-action coupling; Self-test questions; Essential references and recommended further readings; Chapter 10Neurophysiological structures; 10.1The spinal cord10.2Central pattern generators10.3The brain: A general overview; 10.4Cortex of the large hemispheres; 10.5Loops through the basal ganglia; 10.6Loops involving the cerebellum; Self-test questions; Essential references and recommended further readings; Chapter 11Exemplary behaviors; 11.1Posture; 11.2Locomotion; 11.3Reaching; 11.4Prehension; Self-test questions; Essential references and recommended further readings; Chapter 12Effects of practice and adaptation; 12.1Introduction; 12.2Learning to be quick and accurate: Speed-accuracy and speed-difficulty trade-offs; 12.3 Learning motor synergies12.4Stages in motor learningMotor control is a relatively young field of research exploring how the nervous system produces purposeful, coordinated movements in its interaction with the body and the environment through conscious and unsconscious thought. Many books purporting to cover motor control have veered off course to examine biomechanics and physiology rather than actual control, leaving a gap in the literature. This book covers all the major perspectives in motor control, with a balanced approach. There are chapters explicitly dedicated to control theory, to dynamical systems, to biomechanics, to different behMotor abilityMotor learningMotor ability.Motor learning.152.3Latash Mark L.1953-1519526MiAaPQMiAaPQMiAaPQBOOK9910790390603321Fundamentals of motor control3848497UNINA01531nam0 22003973i 450 VAN027823720240619084842.454N978303096973820240619d2022 |0itac50 baengCH|||| |||||Turnpike Phenomenon and Symmetric Optimization ProblemsAlexander J. ZaslavskiChamSpringer2022xi, 336 p.ill.24 cm001VAN00671972001 Springer optimization and its applications210 Berlin [etc.]Springer2006-190Infinite dimensional controlKW:KInfinite dimensional spaceKW:KLyapunov functionsKW:KOptimal ControlKW:KOptimization in crystallographyKW:KParametric optimizationKW:KSymmetric optimizationKW:KSymmetric variational problemsKW:KTurnpike phenomenonKW:KTurnpike propertiesKW:KVariational controlKW:KCHChamVANL001889ZaslavskiAlexander J.VANV080282721713Springer <editore>VANV108073650ITSOL20240621RICAhttps://doi.org/10.1007/978-3-030-96973-8E-book – Accesso al full-text attraverso riconoscimento IP di Ateneo, proxy e/o ShibbolethNVAN0278237Turnpike Phenomenon and Symmetric Optimization Problems2832657UNICAMPANIA03866nam 22006734a 450 991101990230332120200520144314.09786610238415978128023841312802384109780470021392047002139X97804700213850470021381(CKB)1000000000357242(EBL)239006(SSID)ssj0000161677(PQKBManifestationID)11170862(PQKBTitleCode)TC0000161677(PQKBWorkID)10200724(PQKB)10393010(MiAaPQ)EBC239006(OCoLC)85821034(Perlego)2768420(EXLCZ)99100000000035724220050317d2005 uy 0engur|n|---|||||txtccrGenetics of autoimmunity /[editors: Gregory Bock and Jamie Goode]Chichester, UK ;Hoboken, NJ, USA Wiley20051 online resource (261 p.)Novartis Foundation symposium ;267"Symposium on Genomics of Autoimmunity, held at the Novartis Foundation, London, 22-24 June 2004."9780470021378 0470021373 Includes bibliographical references and index.GENETICS OF AUTOIMMUNITY; Contents; Participants; Chair's introduction; Patterns of genetic variation in humans and mice; Discussion; Haplotype tagging in pharmacogenetics; Discussion; Multiple sclerosis: a haplotype association study; Discussion; Mapping genes for asthma and psoriasis; Discussion; Natural genetic variants influencing type 1 diabetes in humans and in the NOD mouse; Discussion; The importance of epistatic interactions in the development of autoimmunity; Discussion; Mapping autoimmune disease genes in humans: lessons from IBD and SLE; DiscussionA combined genetics and genomics approach to unravelling molecular pathways in coeliac diseaseDiscussion; Progress towards understanding the genetic pathogenesis of systemic lupus erythematosus; Discussion; A molecular dissection of lymphocyte unresponsiveness induced by sustained calcium signalling; Discussion; Genetic lesions in thymic T cell clonal deletion and thresholds for autoimmunity; Discussion; An autoimmune disease-associated CTLA4 splice variant lacking the B7 binding domain signals negatively in T cells; Discussion; Large-scale screens for cDNAs with in vivo activity; DiscussionGenomic mining of new genes and pathways in innate and adaptive immunityDiscussion; Index of contributors; Subject indexThis title provides an extremely helpful analysis of genes that may be associated with autoimmunity, and answers questions such as how these genes can be identified, and how the functions of the gene products can be elucidated.Incorporating data on disease-associated chromosomal loci that has been accumulated from inbred mice, the title:* describes how some susceptibility loci may be common to many diseases, whereas others are relatively disease specific* discusses the importance of developing criteria for establishing the significance of these different categories of disease-asNovartis Foundation symposium ;267.AutoimmunityCongressesAutoimmunityGenetic aspectsCongressesAutoimmunityAutoimmunityGenetic aspects616.97/8Bock Gregory322650Goode Jamie283336Symposium on Genetics of Autoimmunity(2004 :London, England)MiAaPQMiAaPQMiAaPQBOOK9911019902303321Genetics of autoimmunity4422701UNINA