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Computers in music have gone from being a niche subject to becoming a ubiquitous presence that all music students are bound to encounter in their professional lives. Meant to serve as a general reference for music technology courses, Essentials of Music Technology provides an overview of musical acoustics, psychoacoustics, MIDI, digital audio, and sound recording.
Topics covered include:
* The Internet
* MIDI software
* The nature of digital audio storage
* Filters
* Effects
* Room acoustics
* Sampling and synthesis techniques
- Sales Rank: #1110130 in Books
- Published on: 2015-04-15
- Original language: English
- Number of items: 1
- Dimensions: 8.00" h x .60" w x 10.20" l, .0 pounds
- Binding: Paperback
- 256 pages
From the Back Cover
Within the span of the last decade, computers in music have gone from being a niche subject to becoming a ubiquitous presence that all music students are bound to encounter in their professional lives. Meant to serve as a general reference for music technology courses, Essentials of Music Technology provides an overview of musical acoustics, psychoacoustics, MIDI, digital audio, and sound recording.
Among the topics covered in this book are:- The Internet
- MIDI software
- The nature of digital audio storage
- Filters
- Effects
- Microphone types
- Room acoustics
- Sampling and synthesis techniques
The author has a background in theater arts, music composition, and multi-media production. He studied music technology at New York University and McGill University. He is assistant professor of Music Technology at the Pennsylvania State University.
About the Author
Mark Ballora has a background in theater arts, music composition, and multimedia production. He studied music technology at New York University and McGill University. He is Associate Professor of Music Technology at Pennsylvania State University.
Excerpt. © Reprinted by permission. All rights reserved.
What Is Music Technology?
This newly defined component of music education means many things to many people. Music technology, a broad subject, has meanings that may differ for music educators, composers, performers, audio producers, electrical engineers, computer programmers, or perceptual psychologists. All of the music activities in these fields intersect in the personal computer. Within the span of the last decade or so, computers in music have gone from being a niche subject to becoming a ubiquitous presence that all music students are bound to encounter in their professional lives. Furthermore, the new and varied role of the computer in music making brings about surprising overlaps with all of these fields.
Prior to the 1980s, "music technology" (if the term was used at all) would most likely have referred to audio engineering, the conversion (transduction) of musical material into electricity for purposes of amplification, broadcasting, or recording. The first step in the process was the microphone, which performed the acoustic-to-electronic conversion. Once the musical material existed in the form of electrical current, it could be sent to an amplifier that would drive a set of speakers, thus relaying the material over a public address system. Alternatively, the electromagnetic radiation that resulted from the electrical current could be broadcast from an antenna for television or radio reception. Or, if the signal were to be recorded, the musicians were likely to be assembled in a recording studio, with a number of microphones strategically placed for optimal sound capture. The signals from the various microphones were combined in a mixer, which allowed a technician to adjust the relative volumes and stereo positions of each microphone's signal. With a mixer, it was also possible to send the signal to processing devices to adjust the character of the sound, making it, for example, sound as though it were occurring in a large room. Following effects processing, the mixed signals could be sent to tape for storage.
Other possible meanings for "music technology" might have included the use of synthesizers for composing electronic music, an activity attractive to musicians who had a penchant for electrical assembly or who had the means to employ technicians to create and maintain the machinery. Perhaps least known to the general public were those who worked in high-end research institutions who had access to computers, sharing time on these mysterious machines with engineers and rocket scientists and programming them to emit sounds and music.
The personal computer has generalized and expanded these models and affected every area of education. Music technology, implying "the use of computers as an aid to music making" is now a subject that all music educators must address in some way. Small desktop computers may now be part of every step of the musical production process just described, acting as performer, mixer, processor, and storage medium. This development has implications for all practitioners of music, regardless of their specialty. Whether they find themselves working at a school, a recording studio, or concert hall, musicians can count on finding computers at work in the production of musical activity. Performers are often expected to send CDs of their performances as part of applications for jobs. Educators are expected to employ the resources of the Internet and multimedia technology to teach students about music rudiments. Composers are expected to provide performers with laser-printed scores and parts. Thus, knowledge of music technology is becoming a core skill of musical training, along with history, figured bass, and Roman numeral notation. Purpose of This Book
Things should be made as simple as possible, but no simpler.
— Albert Einstein
With any learning endeavor, it is typically the basics that are most difficult to master. This book is meant to provide an overview of essential elements of acoustics, MIDI, digital audio, and sound recording so that students may understand what musical elements may be stored in a computer and what type of manipulations and representations of musical information are possible. It is written in an attempt to find a balance between simple and straightforward presentations and descriptions that are thorough enough to explain the material without "dumbing it down."
The book is not meant to be a substitute for a qualified instructor. A performer cannot master an instrument without the help of an experienced musician, just as an athlete cannot excel at a sport without the guidance of a coach. But even experienced performers and athletes find it useful to consult a fingering chart or a rule book as a reference. This book is intended to play a similar role for a student learning some aspect of music technology. Different sections will be relevant for different types of projects or different levels of learning. It is broken into short sections in order to allow an instructor to assign reading selectively to focus on areas that are important for a given group of students.
The only assumptions are that students are familiar with a computer operating system and fundamentals of music. Certain concepts are best presented with equations, but no advanced mathematical training is necessary to understand the main points. Computers deal with information in the form of numbers, and different programs may require information to be entered differently. A given program may ask for frequency values or musical pitches, for loudness in decibels or in arbitrary units. Mathematics is not presented for its own sake, but rather to give students alternative views of how to understand and work with music in a computer environment. The cognitive psychologist Marvin Minsky has stated that a thing or idea seems meaningful only when we have a variety of different ways to represent it, providing different perspectives and different associations. Viewing music through the lenses of acoustics, physics, or computer science has the potential to yield rich rewards in the form of new perspectives and associations that they bring to the meaning of music.
Most helpful customer reviews
6 of 6 people found the following review helpful.
Very good text, but has a few mistakes/problems
By S. Miller
I have used sections of this book to teach electroacoustic music courses. Overall, it is very good, well organized, and detailed in its treatment. There are, however, a few factual errors, and at least one misconception in the text. Following are the problems I've encountered so far:
Ch. 5 - Representing Numbers
p. 50 - No definition of 'word' as 16, 24, 32, or 64 bit sequence, dependent on design of processor or software system.
p. 51 - The explanation of hexadecimal makes several references to "hexadecimal bits" which should be "hexadecimal digits." The term 'bit' is defined as a 'binary digit', and so is not appropriate in reference to hexadecimal.
p. 52 - Equations at the top of the page are mixed up. Should be:
6(base10) = 01102
-6(base10) = 10012 + 1 = 10102
p. 52 - Sentence that begins, "Numbers that include a decimal point..." is not accurate. There are fixed-point decimal representations as well as floating-point. In fact, the following explanation of floating-point seems rather to be explaining fixed-point decimal representation by focusing on the need to use a certain number of digits (relegating the exponent to 1 byte, for example), rather than explaining how floating-point representation moves (and keeps track of) the decimal point as needed. Also, this discussion leaves the impression that decimal representations are inherently less accurate than integer representation, which is not true.
Ch. 9 - Digital Audio
p. 106 - The sentence which continues after the aliasing equation, "where the minus sign..." should read, "...the frequency is phase inverted."
0 of 0 people found the following review helpful.
Extremely valuable for the technically oriented.
By A Customer
This book is an excellent resource, particularly for those with technical orientations in math and science. It requires a basic understanding of physics and calculus, and an understanding of some recording principles. Mark Ballora comes from a very strong background - New York University and McGill University are the top schools in North America for Music Technology - and the information is presented in a logical, straight-forward and easy-to-undertand format. I am currently using the text as a resource for my physics research project, and would recommend it to any music technology student with an understanding of physics and calculus.
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