Interactions Between Intelligent Animals and Electronic Technology: Current State and Future Prospects
10.16476/j.pibb.2023.0246
- VernacularTitle:智慧动物与电子科技交互:现状与展望
- Author:
Jin-Jing ZHAO
1
;
Yang-Fan ZHOU
1
;
Bing-Ao ZHANG
1
;
Ming YI
2
;
Hong JIANG
2
;
Sheng-Yong XU
1
Author Information
1. School of Electronics, Peking University, Beijing 100871, China
2. Institute of Neuroscience, Peking University, Beijing 100191, China
- Publication Type:Journal Article
- Keywords:
animal-technology interaction;
animal-machine integration;
implantable devices;
non-implantable devices;
wearable devices;
intelligent animal augmentation system
- From:
Progress in Biochemistry and Biophysics
2024;51(4):890-911
- CountryChina
- Language:Chinese
-
Abstract:
Human-animal interaction has a long-standing tradition dating back to ancient times. With the rapid advancements in intelligent chips, wearable devices, and machine algorithms, the intelligent interaction between animals and electronic technology, facilitated by electronic devices and systems for communication, perception, and control, has become a reality. These electronic devices aim to implement an animal-centric working mode to enhance human understanding of animals and promote the development of animal intelligence and creativity. This article takes medium-sized and large animals as research objects, with the goal of developing their ability enhancement, and introduces the concept of “intelligent animal augmentation system (IAAS)”. This concept is used to describe the characteristics of such devices and provides a comprehensive overview of existing animal and computer interface solutions. In general, IAAS can be divided into implantable and non-implantable types, each composed of interface platforms, perception and interpretation, control and instruction components. Through various levels of enhancement systems and architectural patterns, intelligent interaction between humans and animals can be realized. Although existing IAAS still lack a complete independent interaction system architecture, they hold great promise and development space in the future. Not only can they be applied as substitutes for cutting-edge devices and transportation equipment, but they are also expected to achieve cross-species information interaction through intelligent interconnection. Additionally, IAAS can promote bidirectional interaction between humans and animals, playing a significant role in advancing animal ethics and ecological protection. Furthermore, the development of interaction models based on animal subjects can provide insightful research experiences for the design of human-computer interaction systems, thereby contributing to the more efficient realization of the ambitious goal of human-machine integration.