The book won the 1986 award for the Most Outstanding Book in the Social and Behavioral Sciences by the American Association of Publishers and NY Times notable paperback in 1989.
In this book Beniger argues that:
... society is currently experiencing a revolutionary transformation on a global scale. Unlike most of the other writers, however, I do not conclude that the crest of change is either recent, current, or imminent. Instead, I trace the causes of change back to the middle and late nineteenth century, to a set of problems - in effect a crisis of control - generated by the industrial revolution in manufacturing and transportation. The response to this crisis, at least in the technological innovation and restructuring of the economy, occurred most rapidly around the turn of the century and amounted to nothing less, I argue, than a revolution in societal control. ~ p. 6
So part of his argument is that a control revolution hit us around the turn of the 19th century (1870 to 1930) with the development of a host control technologies like telegraphs, railroads, bureaucracy, primitive computing, electricity, etc... The revolution however is by no means over - it is neither "recent, current, or imminent" - which I take to mean it is ongoing - it keeps (r)evolving. When Beniger wrote the book sometime before 1986, control technologies associated with new computing and networking hardware/software (aka "information technology") was becoming pervasive and was causing another "revolutionary transformation on a global scale".
One industry where the evolution of control technologies is having a profound effect is agriculture. Many current developments in control technologies are discussed in the recent book Precision Agriculture Technology For Crop Farming (2016) edited by Qin Zhang.
In the first chapter, "A History of Precision Agriculture", David Franzen and David Mulla itemize some of the innovations that had to happen before we could get to the stage of commercially available precision agriculture. These innovations include the development of a Global Satellite Positioning (GPS) network, advances in computing power for mapping, variable rate spreaders to control how much nutrient is provided in a specific area, robotics so that tractors can drive themselves, drones so that mapping can be combined with ariel sensing, developments in sensing technology for all agriculturally important soil characteristics, and the list goes on. There are no signs that precision agriculture will be a fad and there is evidence that it is being adopted faster in some areas like tractor driving before other areas like nutrient management.
It seems that Beniger's book is a good lens for understanding our current state of technological innovation and what might be expected in the future. Alot of innovation is associated with improving control, distributing control, localizing control, centralizing control, and sharing control so the control perspective might be used to evaluate the potential impact of new innovations on society (economically, environmentally, socially).
Recent advances in Artificial Intelligence (AI) are spawning a new revolution in societal control. To understand these issues the control perspective that Beniger offers is useful.