The safety of patients and the quality of medical care provided to them are vital for their wellbeing.This study establishes a set of RFID(Radio Fre-quency Identification)-based systems of patient care based on physiol...The safety of patients and the quality of medical care provided to them are vital for their wellbeing.This study establishes a set of RFID(Radio Fre-quency Identification)-based systems of patient care based on physiological sig-nals in the pursuit of a remote medical care system.The RFID-based positioning system allows medical staff to continuously observe the patient's health and location.The staff can thus respond to medical emergencies in time and appropriately care for the patient.When the COVID-19 pandemic broke out,the proposed system was used to provide timely information on the location and body temperature of patients who had been screened for the disease.The results of experiments and comparative analyses show that the proposed system is superior to competing systems in use.The use of remote monitoring technology makes user interface easier to provide high-quality medical services to remote areas with sparse populations,and enables better care of the elderly and patients with mobility issues.It can be found from the experiments of this research that the accuracy of the position sensor and the ability of package delivery are the best among the other related studies.The presentation of the graphical interface is also the most cordial among human-computer interaction and the operation is simple and clear.展开更多
With technological and social development in recent decades,people have begun pursuing more comfortable lives that frequently feature household pets that are treated like members of the family.On average,one out of ev...With technological and social development in recent decades,people have begun pursuing more comfortable lives that frequently feature household pets that are treated like members of the family.On average,one out of every three households has a pet.This has also led to the creation and growth of many businesses in the pet industry.A few companies have developed a system that allows busy office workers to remotely care for pets at home based on the Internet of Things and an intelligent adjustment function.As owners of two dogs,the authors of this study observed their pets’living habits and recorded environmental conditions that appear suitable for them.These data were then used to develop an automatic control system to care for pets.The observational data on the pets’habits and environment were written in a program in Arduino by using the ESP8266 Wi-Fi module.The module and booster module control is the switch and setting of various household appliances.According to the loop setting of the program,the system does not need to manually switch or adjust the electrical settings of the environment.Instead,the pet's living environment is assessed by using various sensors.The use of Arduino programs helps develop a system that can automatically adjust the environment to one that is most suitable for the pet's comfort.展开更多
文摘The safety of patients and the quality of medical care provided to them are vital for their wellbeing.This study establishes a set of RFID(Radio Fre-quency Identification)-based systems of patient care based on physiological sig-nals in the pursuit of a remote medical care system.The RFID-based positioning system allows medical staff to continuously observe the patient's health and location.The staff can thus respond to medical emergencies in time and appropriately care for the patient.When the COVID-19 pandemic broke out,the proposed system was used to provide timely information on the location and body temperature of patients who had been screened for the disease.The results of experiments and comparative analyses show that the proposed system is superior to competing systems in use.The use of remote monitoring technology makes user interface easier to provide high-quality medical services to remote areas with sparse populations,and enables better care of the elderly and patients with mobility issues.It can be found from the experiments of this research that the accuracy of the position sensor and the ability of package delivery are the best among the other related studies.The presentation of the graphical interface is also the most cordial among human-computer interaction and the operation is simple and clear.
文摘With technological and social development in recent decades,people have begun pursuing more comfortable lives that frequently feature household pets that are treated like members of the family.On average,one out of every three households has a pet.This has also led to the creation and growth of many businesses in the pet industry.A few companies have developed a system that allows busy office workers to remotely care for pets at home based on the Internet of Things and an intelligent adjustment function.As owners of two dogs,the authors of this study observed their pets’living habits and recorded environmental conditions that appear suitable for them.These data were then used to develop an automatic control system to care for pets.The observational data on the pets’habits and environment were written in a program in Arduino by using the ESP8266 Wi-Fi module.The module and booster module control is the switch and setting of various household appliances.According to the loop setting of the program,the system does not need to manually switch or adjust the electrical settings of the environment.Instead,the pet's living environment is assessed by using various sensors.The use of Arduino programs helps develop a system that can automatically adjust the environment to one that is most suitable for the pet's comfort.
