CODE 106729 ACADEMIC YEAR 2023/2024 CREDITS 6 cfu anno 1 BIOENGINEERING 11159 (LM-21) - GENOVA 6 cfu anno 2 BIOENGINEERING 11159 (LM-21) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ING-INF/06 LANGUAGE English TEACHING LOCATION GENOVA SEMESTER 2° Semester TEACHING MATERIALS AULAWEB OVERVIEW The course provides the essential physiological background and knowledge of experimental methods and computational tools for understanding human movements and their neural control. AIMS AND CONTENT LEARNING OUTCOMES The course covers the technologies, the analytical methods, the modeling approaches used for the analysis and quantification of human movement and its neural correlates. Specific topics include three-dimensional analysis of movements, muscle and body mechanics, physiology and physiological signals in motor control, computational motor control. AIMS AND LEARNING OUTCOMES By the end of the course the students will be able to record and analyse human movements (kinematics, kinetics, muscle activity) and to describe the underlying control, using the appropriate devices and analytical and modeling tools. PREREQUISITES There are no formal prerequisites, but students are expected to know mechanics, geometry, calculus and signal analysis. TEACHING METHODS The course combines lectures, guided experimental sessions, and analysis of movement data. SYLLABUS/CONTENT Part I: movement A. Human movement (wk 1). Levels of description of movement: kinematic, kinetic, muscle mechanics. Terminology for describing human movements (limb movements, hand movements). Manipulation. Skeletal anatomy. B. Movement kinematics (wk 2). Rigid body kinematics. Link-segment model. Kinematic chains. Reference frames and their parameterization. Quaternions as representations of 3d spatial geometry. C. Motion capture technologies (wk 3-4). Introduction to projective geometry. Stereophotogrammetry.Inertial measurement units. Markerless systems. Analysis of movement kinematics. Signal processing of kinematic data (low-pass filters, derivative filters) D. Movement dynamics (wk 5-7). Reminder of muscle physiology. Fiber types: intrafusal, extrafusal. Hill’s model of muscle force generation. Muscles and contraction types. Measures of muscle strength. Rigid body mechanics: Newton-Euler and Lagrange Methods. Multi-joint movement statics. The redundancy problem. Dynamics: equations of motion of kinematic chains. Mechanical impedance and its measure. Dynamometry. Case study: locomotion. Gait kinematics and kinetics. Running, cycling, swimming. Part II: neural control of movement E. Movement neurophysiology (wk 8-10) . Neuroanatomy of the sensorimotor system. Cortico-spinal tract. Extrapyramidal system: cerebellum, basal ganglia. Somatosensory cortex, frontal cortex. Neuromuscular conrrol and size principle. Electromyography. Surface vs intramuscular. Analysis of EMG signals. F. Computational motor control (wk10-12). Historical overview. The reflex arc. Central pattern generators. The reafference principle. Bernstein’s physiology of activity: motor equivalence. Marr’scomputational framework. Movement psychophysics: movement time, spatio-temporal invariances. Multi-sensory and sensorimotor integration. Taking decisions and taking actions. Optimality in motor control. Motor learning. Sensorimotor adaptation. Implicit vs explicit learning. Savings. Joint Action. Optimality in joint action: game theory and Nash equilibria. Theory of mind. Learning in joint action. RECOMMENDED READING/BIBLIOGRAPHY Uchida TK, Delp SL (2021) Biomechanics of Movement. MIT Press. TEACHERS AND EXAM BOARD VITTORIO SANGUINETI Ricevimento: VITTORIO SANGUINETI. Appointment: Tel. 0103356487 or vittorio.sanguineti@unige.it Exam Board VITTORIO SANGUINETI (President) CECILIA DE VICARIIS SILVIO PAOLO SABATINI (President Substitute) LESSONS LESSONS START https://corsi.unige.it/11159/p/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION Written exam (weight 60%) Lab Activities (weight 40%) ASSESSMENT METHODS The written exam will consist of questions and problems on lecture topics. There will be four lab activities which will be carried out as teams. Each activity will involve recording a specific movement, analyzing the recorded data and preparing and submitting a technical report. Exam schedule Data appello Orario Luogo Degree type Note 15/01/2024 09:30 GENOVA Scritto Purple room, Buliding E 3rd floor 15/01/2024 09:30 GENOVA Scritto Purple room, Buliding E 3rd floor 05/02/2024 09:30 GENOVA Scritto 05/02/2024 09:30 GENOVA Scritto 13/06/2024 09:30 GENOVA Scritto 13/06/2024 09:30 GENOVA Scritto Jun 13 room G2A Jul 8 room E3 08/07/2024 09:30 GENOVA Scritto 08/07/2024 09:30 GENOVA Scritto Jun 13 room G2A Jul 8 room E3 09/09/2024 09:30 GENOVA Scritto Exam on 9/9/2024 will take place in room INFAL1, Building G at 930 09/09/2024 09:30 GENOVA Scritto Exam on 9/9/2024 will take place in room INFAL1, Building G at 930 Agenda 2030 - Sustainable Development Goals Good health and well being