Evaluating Cognitive Enrichment for Zoo-Housed Gorillas Using Facial Recognition

Otto Z Brookes*, Stuart Gray, Peter D Bennett, Katy V Burgess, Fay E Clark, Elisabeth Roberts, Tilo Burghardt

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

5 Citations (Scopus)
80 Downloads (Pure)

Abstract

The use of computer technology within zoos is becoming increasingly popular to help achieve high animal welfare standards. However, despite its various positive applications to wildlife in recent years, there has been little uptake of machine learning in zoo animal care. In this paper, we describe how a facial recognition system, developed using machine learning, was embedded within a cognitive enrichment device (a vertical, modular finger maze) for a troop of seven Western lowland gorillas (Gorilla gorilla gorilla) at Bristol Zoo Gardens, UK. We explored whether machine learning could automatically identify individual gorillas through facial recognition, and automate the collection of device-use data including the order, frequency and duration of use by the troop. Concurrent traditional video recording and behavioral coding by eye was undertaken for comparison. The facial recognition system was very effective at identifying individual gorillas (97% mean average precision) and could automate specific downstream tasks (for example, duration of engagement). However, its development was a heavy investment, requiring specialized hardware and interdisciplinary expertise. Therefore, we suggest a system like this is only appropriate for long-term projects. Additionally, researcher input was still required to visually identify which maze modules were being used by gorillas and how. This highlights the need for additional technology, such as infrared sensors, to fully automate cognitive enrichment evaluation. To end, we describe a future system that combines machine learning and sensor technology which could automate the collection of data in real-time for use by researchers and animal care staff.
Original languageEnglish
Article number886720
Pages (from-to)1-15
JournalFrontiers in Veterinary Science
Volume9
DOIs
Publication statusPublished - 18 May 2022

Bibliographical note

Funding Information:
The Gorilla Game Lab project (2018-2021) was collaboratively established in 2018 by the Bristol Zoological Society and the University of Bristol. It was funded by the University of Bristol Brigstow Institute. We wish to thank the animal care team at Bristol Zoo Gardens for their involvement in the planning and implementation of Gorilla Game Lab. Particular thanks go to Sarah Gedman, Shanika Ratnayake, Zoe Grose, Lynsey Bugg, Sam Matthews, Alan Toyne, and Ryan Walker. Kirsten Cater provided the project management advice. At the time of data collection, FC was employed by Bristol Zoological Society.

Funding Information:
This research was funded by the University of Bristol's Brigstow Institute, an initiative set up to support new collaborations between departments within the University of Bristol, and other academics working in Bristol and beyond. OB was supported by the UKRI Centre for Doctoral Training in Interactive Artificial Intelligence under grant EP/S022937/1.

Funding Information:
The Gorilla Game Lab project (2018-2021) was collaboratively established in 2018 by the Bristol Zoological Society and the University of Bristol. It was funded by the University of Bristol Brigstow Institute. We wish to thank the animal care team at Bristol Zoo Gardens for their involvement in the planning and implementation of Gorilla Game Lab. Particular thanks go to Sarah Gedman, Shanika Ratnayake, Zoe Grose, Lynsey Bugg, Sam Matthews, Alan Toyne, and Ryan Walker. Kirsten Cater provided the project management advice. At the time of data collection, FC was employed by Bristol Zoological Society.

Publisher Copyright:
Copyright © 2022 Brookes, Gray, Bennett, Burgess, Clark, Roberts and Burghardt.

Research Groups and Themes

  • Bristol Interaction Group

Keywords

  • facial recognition
  • gorillas
  • animal welfare
  • machine learning
  • zoology
  • cognitive enrichment

Fingerprint

Dive into the research topics of 'Evaluating Cognitive Enrichment for Zoo-Housed Gorillas Using Facial Recognition'. Together they form a unique fingerprint.

Cite this