Abstract
Understanding animal emotions is a key to unlocking methods for improving animal welfare. Currently there are no ‘benchmarks’ or any scientific assessments available for measuring and quantifying the emotional responses of farm animals. Using sensors to collect biometric data as a means of measuring animal emotions is a topic of growing interest in agricultural technology. Here we reviewed several aspects of the use of sensor-based approaches in monitoring animal emotions, beginning with an introduction on animal emotions. Then we reviewed some of the available technological systems for analyzing animal emotions. These systems include a variety of sensors, the algorithms used to process biometric data taken from these sensors, facial expression, and sound analysis. We conclude that a single emotional expression measurement based on either the facial feature of animals or the physiological functions cannot show accurately the farm animal’s emotional changes, and hence compound expression recognition measurement is required. We propose some novel ways to combine sensor technologies through sensor fusion into efficient systems for monitoring and measuring the animals’ compound expression of emotions. Finally, we explore future perspectives in the field, including challenges and opportunities.
Highlights
There are numerous benefits to studying animal emotions
When emotional states of animals are set as these divisions through correlation with physiological functions, a support vector machine (SVM) algorithm has the potential to provide a nuanced classification of animal emotional states
This review demonstrates that current research shows tremendous potential in sensor technology for analyzing the emotions of farm animals (Figure 2)
Summary
There are numerous benefits to studying animal emotions. Because we ourselves are animals, studying animal emotions can give us greater insight into our own psyche and how our emotions manifest not just physiologically and behaviorally and cognitively. Smaller farms mostly disappeared and instead agriculture has grown massive in scale These massive farms have heightened the challenges of identifying, monitoring, and caring for large groups of animals. There is tremendous potential in technological sensors for monitoring the emotional conditions of animals, allowing farmers to study behavioral changes, detect diseases [3,4], and make adjustments in care to promote the welfare of their animals and increase the yield on their products. This review first briefly covers the important aspects of emotion and how these are applicable to animals, details different sensing technologies and analytical algorithms for monitoring animal emotions In closing, it identifies future perspectives within this field, including challenges and unanswered questions
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