![]() The mean cat/ dog allergen levels from pet shops were 15.7 and 3.2 µg/g, respectively. ![]() Four workers had sensitivity to animal allergens. Thirteen (25%) workers reported work-related symptoms. Fifty-one workers from 20 pet shops were included in the study. Dust samples were also obtained from the houses of 7 workers and 12 control subjects. Skin tests were performed with common allergens. ![]() Dust samples for allergen detection were collected from pet shops using a vacuum cleaner. Pet shop workers underwent interviews with a questionnaire adapted from the European Community Respiratory Health Survey. To investigate rates of sensitivity to cats and dogs among pet shop workers, to assess the relationship between sensitivity, allergen levels and symptoms and to investigate whether passive transport from pet shops to homes is possible. However, data from pet shops are limited. Sensitivity and symptoms related to animal proteins have been investigated in various occupational groups. Yilmaz, I Oner Erkekol, F Secil, D Misirligil, Z Mungan, D However, level of attachment does not explain the decrease in loneliness associated with AAT conducted with either a living or robotic dog.Ĭat and dog sensitization in pet shop workers. We conclude that interactive robotic dogs can reduce loneliness in residents of LTCF and that residents become attached to these robots. Subscale analysis showed that the AIBO group scored lower than the living dog on "animal rights/animal welfare" but not on "general attachment" or "people substituting." However, MLAPS measures did not correlate with changes in loneliness, showing that attachment was not the mechanism by which AAT decreases loneliness. As measured by a modified Lexington Attachment to Pets Scale (MLAPS), residents showed high levels of attachment to both the dog and AIBO. In comparison with a control group not receiving AAT, both the Dog and AIBO groups had statistically significant improvements in their levels of loneliness. Here, we compared the ability of a living dog ( Dog) and a robotic dog (AIBO) to treat loneliness in elderly patients living in LTCF. Loneliness is a common problem in long-term care facilities (LTCF) and previous work has shown that animal-assisted therapy (AAT) can to some degree reverse loneliness. Furthermore, effectivity and a practicality of the method are evaluated by experiments.Īnimal-assisted therapy and loneliness in nursing homes: use of robotic versus living dogs.īanks, Marian R Willoughby, Lisa M Banks, William A ![]() Additionally, the mechanism enables to reduce matching costs or size of database and it enables to follow a change of owners. The oblivion mechanism is deleting features of owners in the database of the pet robots. The real-time matching means that a matching and a data acquisition are processed simultaneously. In the concrete, the method provides a real-time matching algorithm and an oblivion mechanism. In this paper, taking account of implementation into pet robots, a real-time owner distinction method is proposed. We, also, have investigated a method of an owner distinction for pet robot, to emphasize a healing effect of pet robots. Therefore, the study to apply pet robots to Animal Assisted Therapy instead of an animal pet has begun to be investigated. Also, it is known that an animal pet has a healing effect. The pet robot is based on an animal pet, such as a dog or a cat. One of the most typical robots is a pet robot. In recent years, a robotics technology is extremely progressive, and robots are widely applied in many fields. Nambo, Hidetaka Kimura, Haruhiko Hirose, Sadaki Implement of the Owner Distinction Function for Healing-Type Pet Robots From the practical test, we can see that the implemented pet robot dog can do some emotional interaction with the human. A behavior system is built on the implemented pet robot so that it is able to choose a suitable behavior for different environmental situation. The designed robot with 20 DOF (degrees of freedom) is able to accomplish the walking motion. One camera, one power detector, four touch sensors, and one temperature detector are used to obtain the information of the environment. Three processors (Inter® Pentium® M 1.0 GHz, an 8-bit processer 8051, and embedded soft-core processer NIOS) are used to control the robot. Motion and Emotional Behavior Design for Pet Robot DogĬheng, Chi-Tai Yang, Yu-Ting Miao, Shih-Heng Wong, Ching-ChangĪ pet robot dog with two ears, one mouth, one facial expression plane, and one vision system is designed and implemented so that it can do some emotional behaviors.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |