Anthology Series and Monographs
The AES’s renowned series of collected papers of archival quality were reproduced exactly as they appeared in the Journal and other authoritative sources. These books measured 8 1/4 inches (209.6 mm) by 11 1/2 inches (285.8 mm), were bound in durable paper covers, and shrink-wrapped for safe shipment.
Anthology Series
Disk Recording Vol. 1: Groove Geometry and the Recording Process, edited by Stephen F. Temmer. Seventy-three papers describing the major contributions to the art of disk recording in the areas of groove geometry, cutter heads and lathes, styli and lacquers, pressings, and high-density disk technology.
Disk Recording Vol. 2: Disk Playback and Testing, edited by Stephen F. Temmer. Eighty-nine papers by experts in the audio field on the subjects of disk playback, disk pickups, tone arms and turntables, and quality control. 550 pages.
Loudspeakers Vol. 1, edited by Raymond E. Cooke. Sixty-one papers, covering the years 1953 to 1977, written by the world’s leading transducer experts and inventors on the design, construction, and operation of loudspeakers. 448 pages.
Loudspeakers Vol. 2, edited by Raymond E. Cooke. Forty-nine papers from 1978 to 1983 by experts in loudspeaker technology, extending the work initiated in Vol. 1. 464 pages.
Loudspeakers Vol. 3: Systems and Crossover Networks, edited by Mark R. Gander. Forty-two papers with comments and corrections published on this specific area of loudspeaker technology from 1984 to 1991. With a companion volume on transducers, measurement and evaluation, this publication extends the work of the first two volumes. An extensive list of related reading is included. 456 pages.
Loudspeakers Vol. 4: Transducers, Measurement and Evaluation, edited by Mark R. Gander. Thirty-eight papers with comments and corrections covering this specific subcategory from 1984 through 1991. A bibliography of related reading lists essential titles in this field. 496 pages.
Sound Reinforcement, edited by David L. Klepper. Seventy-three papers dealing with the significant aspects of the development of sound-reinforcement technology and its practical application to sound system design and installation. 339 pages.
Sound Reinforcement Vol. 2, edited by David L. Klepper. Forty-eight papers with associated comments and corrections originally published between 1967 and 1996. In addition to extending the work of the first anthology, Vol. 2 adds earlier papers now considered seminal. 496 pages.
Spatial Sound Techniques Part 1: Virtual and Binaural Audio Technologies, edited by Durand R. Begault. The twenty-eight papers in this volume serve both as basic references and as a story of the evolution of binaural sound research into present-day 3-D sound techniques. 531 pages.
Spatial Sound Techniques Part 2: Multichannel Audio Technologies, edited by Francis Rumsey. This anthology, in three sections—historical reviews, systems and technology, perceptual and quality evaluation—is Part 2 of an AES series on spatial sound techniques. Part 1, published in 2004, deals with binaural approaches. Part 2 concentrates on the fundamental principles of loudspeaker-based multichannel spatial audio systems, including approaches to the creation of a spatial sound field, the generation of appropriate perceptual cues, reproduction, and quality evaluation. 510 pages.
Microphones, edited by Louis A. Abbagnaro. Sixty-three papers covering calibration and testing, general purpose microphones, directional microphones, miniature types, and associated electronic circuits. 392 pages.
Stereophonic Techniques, edited by John M. Eargle. Sixty-seven articles and documents on the history, development, and applications of stereophonic techniques for studio technology, broadcasting, and consumer use. 390 pages.
Time Delay Spectrometry, edited by John R. Prohs. Thirty-two articles of the works of Richard C. Heyser on measurement, analysis, and perception. Reprinted from the pages of the Journal of the Audio Engineering Society and other publications in the field, including Audio magazine and IREE Australia. The anthology serves as a memorial to the author’s work and as fundamental material for future developments in audio. 280 pages.
Monographs
An AES monograph is a work of writing upon a single audio-related subject and is usually written by a single author.
Wave Field Synthesis, by Diemer de Vries. In December 1988, Delft University professor Guus Berkhout published his article in the AES Journal in which he proposed the concept of Wave Field Synthesis (WFS) as a format for spatial sound reproduction without “sweet spot” limitations. More than twenty years later, Diemer de Vries presents a 93-page monograph on the theme. The principles of WFS are explained in a digestible summary of the underlying mathematics. It also describes how the concept was adapted from theory (things are infinitely large or small, having ideal properties) to real-world applications, making effective use of the characteristics of human hearing. A survey of dedicated recording techniques is given, with focus on the European CARROUSO project, in which ten institutes collaborated on WFS-oriented research and development. Due to the results of this project, WFS is now known and recognized worldwide.The monograph also includes an illustrated overview of known WFS systems around the world, with applications ranging from advanced audio research and multimedia education to nightclub entertainment. It concludes with a look toward the future.
Binaural Techniology, by Rozen Nicol.
Nicol investigated spatial audio technology at Orange Labs for more than ten years. In this monograph, Nicol promotes a clear understanding of how binaural technology works. Although headphone-based binaural reproduction is technically straightforward, it can produce a convincing three-dimensional sound scene because it mimics the spatial cues people use to localize sound in everyday life.
The monograph begins with practical questions about what sound recording and reproduction mean in a binaural context, then progresses into underlying theory. The diffraction of acoustic waves by the listener’s body, especially the head and ears, is central to binaural technology. These effects are represented by Head Related Transfer Functions (HRTFs) which form the foundation of binaural spatialization. Nicol explains how spatial information is conveyed through HRTFs by examining both the physical phenomena that shape sound at the listener’s ears and the auditory mechanisms involved in localization.
Special attention is given to binaural synthesis, which simulates the left and right signals that would be captured by microphones placed in a listener’s ears. This is one of the best-known applications of binaural technology, allowing controlled virtual auditory spaces to be created for psychoacoustic experiments, virtual reality, and related uses through filtering.As spatialization is dependent on each listener’s morphology, the spatial encoding of a sound scene is theoretically valid for individuals. The monograph ends with an overview of approaches for adapting binaural spatialization to individual variability.