**Meet the editor**

Ganesh R. Naik received B.E. degree in Electronics and Communication Engineering from the University of Mysore, India, in 1997. M.E. degree in Communication and Information Engineering from Griffith University, Brisbane, Australia, in 2002, and a PhD degree in the area of Electronics Engineering from RMIT University, Melbourne, Australia, in 2009. He is currently an academician

and researcher at RMIT University. As an early career researcher, he has edited 6 books, authored more than 75 papers in peer reviewed journals, conferences, and book chapters over the last five years. He was a recipient of the Baden–Württemberg Scholarship from the University of Berufsakademie, Stuttgart, Germany (2006–2007). In 2010, Dr. Naik was awarded with ISSI overseas fellowship from skilled Institute Victoria, Australia.

Contents

**Preface IX** 

Javier Rodriguez-Falces, Javier Navallas and Armando Malanda

Penka A. Atanassova, Nedka T. Chalakova and Borislav D. Dimitrov

**and Strength During Isometric Ramp Contractions 53** 

Begoña Gavilanes-Miranda, Juan J. Goiriena De Gandarias

**Contraction and Relaxation Phases on EMG Signal Processing and Analysis During Cyclic Exercise 97** 

Chapter 2 **Modelling of Transcranial Magnetic Stimulation in One-Year Follow-Up Study of Patients** 

Chapter 3 **Relationships Between Surface Electromyography** 

Chapter 5 **Influence of Different Strategies of Treatment Muscle** 

Leandro Ricardo Altimari, José Luiz Dantas, Marcelo Bigliassi, Thiago Ferreira Dias Kanthack, Antonio Carlos de Moraes and Taufik Abrão

Chapter 6 **Nonlinear Analysis of Surface EMG Signals 119** 

Chapter 7 **Normalization of EMG Signals: To Normalize or Not to Normalize and What to Normalize to? 175** 

**with Minor Ischaemic Stroke 37** 

Runer Augusto Marson

and Gonzalo A. Garcia

**Section 2 EMG Analysis and Applications 117** 

Min Lei and Guang Meng

Mark Halaki and Karen Ginn

Chapter 4 **Comparison by EMG of Running Barefoot and Running Shod 65** 

**Section 1 EMG Modelling 1** 

Chapter 1 **EMG Modeling 3** 
