Abstract
Arguably, automation is fast transforming many enterprise business processes, transforming operational jobs into monitoring tasks. Consequently, the ability to sustain attention during extended periods of monitoring is becoming a critical skill. This manuscript presents a Brain-Computer Interface (BCI) prototype which seeks to combat decrements in sustained attention during monitoring tasks within an enterprise system. A brain-computer interface is a system which uses physiological signals output by the user as an input. The goal is to better understand human responses while performing tasks involving decision and monitoring cycles, finding ways to improve performance and decrease on-task error. Decision readiness and the ability to synthesize complex and abundant information in a brief period during critical events has never been more important. Closed-loop control and motivational control theory were synthesized to provide the basis from which a framework for a prototype was developed to demonstrate the feasibility and value of a BCI in critical enterprise activities. In this pilot study, the BCI was implemented and evaluated through laboratory experimentation using an ecologically valid task. The results show that the technological artifact allowed users to regulate sustained attention positively while performing the task. Levels of sustained attention were shown to be higher in the conditions assisted by the BCI. Furthermore, this increased cognitive response seems to be related to increased on-task action and a small reduction in on-task errors. The research concludes with a discussion of the future research directions and their application in the enterprise.
Highlights
The role of human labor in the workplace is being transformed profoundly by rapid improvements in technology and automation (Autor 2015)
To determine if a significant difference exists between the conditions, we performed a one-way analysis of variance (ANOVA)
This paper presents the development of a passive brain-computer interface (pBCI) prototype directed to support IT tasks requiring sustained attention (SA) in an enterprise context
Summary
The role of human labor in the workplace is being transformed profoundly by rapid improvements in technology and automation (Autor 2015). Demazure et al.: Enhancing Sustained Attention, Bus Inf Syst Eng type of task, task structure, and the information available required to perform those tasks (Lee and Seppelt 2009) Adaptions such as these will require humans to better manage cognitive-energetic resources in terms of motivation, fatigue, cognitive load, and sustained attention (SA) while monitoring automated systems to avert or respond to system failures. Neurophysiological studies have identified other negative factors that affect an operator’s SA, such as drowsiness, motivation, stress, and habituation (Oken et al 2006) This accumulation of information concerning sustained attention and automated systems highlights a need for systems that either adapt to low levels of operator SA or promote higher levels of SA within the operator. Current literature in IS and adaptive systems focus on physiological sensors such as electrocardiography (Hillege et al 2020; Astor et al 2013), photoplethysmography (Rouast et al 2017), or electrodermal activity (Snyder et al 2015)
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