36312 - Match Performance Analysis

Learning outcomes

The students will have the opportunity to:

1) Know the methods of performance analysis and investigation, with the aim to construct the performance model of different sports disciplines. The physical performance and the movement of athletes during competitions will be assessed using notational and biomechanical analysis.

2) Use sports performance analysis devices available at the Record laboratories.

3) Know the organization of technical staffs and the role of the match analyzer and of the scout man, focusing on technical aspects of these professions

Course contents

Talent identification and performance analysis

· Aims and research methods for talent identification and development

· Gender differences and development in sports performance

What is the performance analysis

· The feedback and training process

- The study methodology of sport performance Models:

• Performance Analysis
• Match Analysis and technical staff
• Notational Analysis 
• Time & Motion Analysis differences among: Event recording, Time sampling, Interval recording, Duration recording
• Video Analysis position and feature of cameras
• Data Analysis and software
• Data Base

- Research method and statistics applied to performance analysis

- Validity and Reliability intra-observer and inter-observer

· Review of the literature

Performance monitoring: times and fractions of competition

·Secular trends of Records

- Partial times related to total time and effort distribution

· Working and pause time in intermittent sports

· Real time monitoring on field and a-posteriori video recording

Monitoring the performance mechanical indices

· Frequency and amplitude of cyclic movements, using a step- counter and pedaling-monitor

· Average speeds and peak, accelerations, using radar, GPS systems and accelerometers

· Using contact-mat and Optojump or accelerometer for estimation of competition performance

· Using strength sensors on of competition tool (bike, oar, paddle etc.)

Biomechanical Performance studied with optoelectronic instruments

· Patterns in individual and team sports

· Athletics (runs, jumps and throws) running as a performance model

· Rhythmic and Artistic Gymnastics and Figures skating

· Tennis and racket sports

· Karate

· Volleyball, Basket, Soccer etc.

Monitoring of interne load during competition and simulation

· Checking and recording heart-rate, VO2 and lactate

· Competition performance evaluation and simulation related to intensity, work & pauses lenght.

- Evaluation during competition simulation and relationship with incremental tests performance with portable gas analyzer.

- Energy cost and efficiency determination in different sports.

Determining factors: Biomechanical, physiological, metabolic. ecc.

Advancement resistence in water & air, front section & Cx

Readings/Bibliography

Notational Analysis of Sport

M. Hughes and I.M. Franks

Routledge London 2004

 

Routledge handbook of Sport Performance Analysis

T. McGarry e P. O'Donoghue

Routledge London 2013

 

Essentials of Performance Analysis in Sport: Third edition

M. Hughes, I.M. Franks, H. Dancs

Routledge London 2019

Papers and reviews provided by the lecturer

Teaching methods

Frontal lectures

Seminars with experts

Specific Project Work presentations

Assessment methods

Final oral test

Practical trials during the laboratory experiences

Teaching tools

Frontal lectures

Seminars with experts

Laboratory and field instruments to analyze the Performance:

· Filming with cameras and qualitatively and quantitatively video-analysis.

· Stop-watch and electronic instruments to calculate the time.

· Frequency and amplitude evaluation of cyclic movements, using step- counters and pedaling-monitor and accelerometers

· Evaluating Speed and acceleration of athletes and competition tools with GPS, accelerometers and radar systems

· Dynamic valuation with strength sensors applied on competition tools and contact-mats

· Optoelectronic systems to evaluate the biomechanics performance

· Using heart-rate monitors, lactate analyzers, gas analyzers evaluate performance in competition and simulation.

• Statistical processing applied to performance analysis: Descriptive statistics, frequency distributions, double entry tables, Correlations, inferential statistics for hypothesis testing.

Office hours

See the website of Franco Merni