North Carolina State University researchers have developed a suite of technologies that can be used to enhance communication between dogs and humans, which has applications in everything from search and rescue to service dogs to training a pet.
"We've developed a platform for computer-mediated communication between humans and dogs that opens the door to new avenues for interpreting dogs' behavioral signals and sending them clear and unambiguous cues in return," says David Roberts, an assistant professor of computer science at NC State and co-lead author of "Towards Cyber-Enhanced Working Dogs for Search and Rescue," a paper on the work published in IEEE Intelligent Systems. "We have a fully functional prototype, but we'll be refining the design as we explore more and more applications for the platform."
The platform itself is a harness that fits comfortably onto a dog, and which is equipped with a variety of technologies.
"There are two types of communication technologies," says Alper Bozkurt, an assistant professor of electrical and computer engineering at NC State and co-lead author of a paper on the work. "One that allows us to communicate with the dogs, and one that allows them to communicate with us."
"Dogs communicate primarily through body language, and one of our challenges was to develop sensors that tell us about their behavior by observing their posture remotely," Roberts says. "So we can determine when they're sitting, standing, running, et cetera, even when they're out of sight — a harness-mounted computer the size of a deck of cards transmits those data wirelessly.
"At the same time, we've incorporated speakers and vibrating motors, called haptics, into the harness, which enable us to communicate with the dogs," Roberts adds.
"We developed software to collect, interpret and communicate those data, and to translate human requests into signals on the harness," says Rita Brugarolas, an NC State Ph.D. student and co-author of the paper.
The technology also includes physiological sensors that monitor things like heart rate and body temperature. The sensors not only track a dog's physical well-being, but can offer information on a dog's emotional state, such as whether it is excited or stressed.
These technologies form the core of the platform, but it can be customized with additional devices depending on the specific application.
"For example, for search and rescue, we've added environmental sensors that can detect hazards such as gas leaks, as well as a camera and microphone for collecting additional information," Bozkurt says.
"We're also very interested in addressing stress in working dogs, such as guide dogs for the blind," says Sean Mealin, an NC State Ph.D. student and co-author of the paper. "We're reliant on the physiological and behavioral sensors to give us a picture of the dog's mental and emotional state.
"This can help handlers identify and mitigate stress for the dogs, improving the length and quality of a dog's life," Mealin says. "It's an important issue. Particularly because guide dogs are bred and trained not to display signs of stress in their behavior."
In addition to disaster response research, the research team has already done work that uses the platform to assist in dog training. They are now in the early stages of miniaturizing the technologies and improving the physiological sensors for use in animal shelters and hospitals.
"This platform is an amazing tool, and we're excited about using it to improve the bond between dogs and their humans," says Barbara Sherman, a clinical professor of animal behavior at the NC State College of Veterinary Medicine and co-author of the paper.
The IEEE Intelligent Systems paper was co-authored by NC State Ph.D. students John Majikes and Robert Loftin, and by former NC State Ph.D. student Pu Yang. The work was supported by the U.S. National Science Foundation under a Cyber Physical System Program grant.
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