Add to ORKGThe articles in this special issue are placed in the context of the literature of general systems theory. The focus is on the complexity (or requisite variety) of complex work domains and the implications for control. Following the insights of Ashby’s law of requisite variety, it is concluded that classical hierarchical or servomechanism-type control systems are inadequate as a basis for dealing with the unanticipated variability endemic to complex work domains. Alternative types of control (e.g., self-organizing systems) and alternative images of cognition are suggested as a theoretical context for modeling performance in complex work domains
This paper draws on one of the most powerful idea in cybernetics - Ashby's law of Requisite Variety ...
Complexity has been coped with in many disciplines and has been described in many ways. In organizat...
The Law of Requisite Variety is a mathematical theorem relating the number of control states of a sy...
The articles in this special issue are placed in the context of the literature of general systems th...
Abstract The articles in this special issue are placed in the context of the literature of general s...
Managing the Complex is an ambitious title - and it would be an audacious one if we were not to begi...
Systems thinking has evolved over the millennia as people have looked for ways to articulate the fea...
Complex systems are systems that display unique properties such as emergence and self-organization. ...
In this introductory note, we describe the motivation for this special issue on complex systems. We ...
This contribution summarizes some typical features of complex systems such as non-linear interaction...
In the past decade, complexity-based thinking has exerted an increasing, yet somewhat controversial ...
In this introductory note, we describe the motivation for this special issue on complex systems. We ...
Complexity science has emerged across different research fields in recent years. In business managem...
A system is loosely defined as complex if it is composed of a large number of elements, interacting ...
The term complexity is used in many different ways in the systems domain. The different uses of this...
This paper draws on one of the most powerful idea in cybernetics - Ashby's law of Requisite Variety ...
Complexity has been coped with in many disciplines and has been described in many ways. In organizat...
The Law of Requisite Variety is a mathematical theorem relating the number of control states of a sy...
The articles in this special issue are placed in the context of the literature of general systems th...
Abstract The articles in this special issue are placed in the context of the literature of general s...
Managing the Complex is an ambitious title - and it would be an audacious one if we were not to begi...
Systems thinking has evolved over the millennia as people have looked for ways to articulate the fea...
Complex systems are systems that display unique properties such as emergence and self-organization. ...
In this introductory note, we describe the motivation for this special issue on complex systems. We ...
This contribution summarizes some typical features of complex systems such as non-linear interaction...
In the past decade, complexity-based thinking has exerted an increasing, yet somewhat controversial ...
In this introductory note, we describe the motivation for this special issue on complex systems. We ...
Complexity science has emerged across different research fields in recent years. In business managem...
A system is loosely defined as complex if it is composed of a large number of elements, interacting ...
The term complexity is used in many different ways in the systems domain. The different uses of this...
This paper draws on one of the most powerful idea in cybernetics - Ashby's law of Requisite Variety ...
Complexity has been coped with in many disciplines and has been described in many ways. In organizat...
The Law of Requisite Variety is a mathematical theorem relating the number of control states of a sy...