This text fills an important gap in literature by condensing the subject of measurements into a single volume and hence acts as a reference material for students, practicing academics, and professionals wishing to take a systemic view of their subject domain.
-Dr Titus Kehinde Olaniyi, Afe Babalola University, Ado-Ekiti, Nigeria
Badiru (Air Force Institute of Technology) and Racz (RAF Lakenheath, UK) have gathered the efforts of a wide array of scientists, engineers, academics, and professionals in this excellently curated collection. Beyond the basics of physical measurements and general statistical analysis, this book features well-chosen, cross-disciplinary chapters focusing on many different types of study. From investigating human factors and health to risk assessment and forecasting, economics, and science, chapter contributors address the most common devices, tests, limitations, and issues affecting their area of expertise. While many sections include some higher-level math and statistical techniques, these are usually contextualized in a way that is open to those simply getting started in the field. Lower-level readers may especially appreciate the history of and basic introduction to discipline-specific techniques, as well as an excellent appendix of definitions and illustrations of statistical concepts. As more fields and universities feature data-driven programs and research, more scholars are looking for materials that will introduce them to study techniques and methods. The Handbook of Measurements works well as both a quick reference and a more in-depth look into the issues affecting research in a wide variety of fields.
-CHOICE, July 2016 Issue
Handbook of Measurements fills an important gap in measurement references, and I strongly recommend it to a wide audience of engineering educators, students, and practicing engineers in industry who are interested in the subject of measurements.
-IEEE Industrial Electronics, September 2016
This text fills an important gap in literature by condensing the subject of measurements into a single volume and hence acts as a reference material for students, practicing academics, and professionals wishing to take a systemic view of their subject domain.
-Dr Titus Kehinde Olaniyi, Afe Babalola University, Ado-Ekiti, Nigeria
Badiru (Air Force Institute of Technology) and Racz (RAF Lakenheath, UK) have gathered the efforts of a wide array of scientists, engineers, academics, and professionals in this excellently curated collection. Beyond the basics of physical measurements and general statistical analysis, this book features well-chosen, cross-disciplinary chapters focusing on many different types of study. From investigating human factors and health to risk assessment and forecasting, economics, and science, chapter contributors address the most common devices, tests, limitations, and issues affecting their area of expertise. While many sections include some higher-level math and statistical techniques, these are usually contextualized in a way that is open to those simply getting started in the field. Lower-level readers may especially appreciate the history of and basic introduction to discipline-specific techniques, as well as an excellent appendix of definitions and illustrations of statistical concepts. As more fields and universities feature data-driven programs and research, more scholars are looking for materials that will introduce them to study techniques and methods. The Handbook of Measurements works well as both a quick reference and a more in-depth look into the issues affecting research in a wide variety of fields.
-CHOICE, July 2016 Issue
Handbook of Measurements fills an important gap in measurement references, and I strongly recommend it to a wide audience of engineering educators, students, and practicing engineers in industry who are interested in the subject of measurements.
-IEEE Industrial Electronics, September 2016