Objective:To design a wireless regulation system based on STM 32 single chip microcomputer for three-dimension(3D)water tank,so as to improve the efficiency of physical verification for radiation.Methods:The wireless regulation system of 3D water tank was designed on the basis of STM32F103 single chip microcomputer and ZigBee technique through combined with regulation and control system for conventional 3D water tank,and the indicators of testing performance was also evaluated.Results:The wireless regulation system for 3D water tank can realize remote control to drive the operation of motor.The accuracy error of the detector was less than 0.2 mm along the x axis,y axis and z axis of the water tank.The repetitive error of the designated position was less than 0.1 mm after the detector repetitively reached the specified location along each axis.The vertical error of motion was less than 0.5 mm when the itinerary was less and equal to 200 mm,and this error was less than 1.0 mm when it was greater than 200 mm.Conclusion:The wireless regulation system of 3D water tank based on STM 32 can improve the information and intelligence levels that are measured and verified by ray beam,which is more in line with the requirement of radiation physics for measurement,and it can provide better technical support for the metrological verification of the equipment of nuclear medicine.

Objective:To design a wireless regulation system based on STM 32 single chip microcomputer for three-dimension(3D)water tank,so as to improve the efficiency of physical verification for radiation.Methods:The wireless regulation system of 3D water tank was designed on the basis of STM32F103 single chip microcomputer and ZigBee technique through combined with regulation and control system for conventional 3D water tank,and the indicators of testing performance was also evaluated.Results:The wireless regulation system for 3D water tank can realize remote control to drive the operation of motor.The accuracy error of the detector was less than 0.2 mm along the x axis,y axis and z axis of the water tank.The repetitive error of the designated position was less than 0.1 mm after the detector repetitively reached the specified location along each axis.The vertical error of motion was less than 0.5 mm when the itinerary was less and equal to 200 mm,and this error was less than 1.0 mm when it was greater than 200 mm.Conclusion:The wireless regulation system of 3D water tank based on STM 32 can improve the information and intelligence levels that are measured and verified by ray beam,which is more in line with the requirement of radiation physics for measurement,and it can provide better technical support for the metrological verification of the equipment of nuclear medicine.

Objective:To design a visual allocation system of emergency medical equipment based on the Internet of Things technology,and to realize the coordinated allocation of emergency medical equipment in hospitals.Methods:The client and server(C/S)architecture was adopted,and the design of emergency medical equipment visual allocation system was mainly based on Bluetooth 5.1 technology,with automatic acquisition and automatic analysis of Bluetooth positioning tag,low power consumption sensor and signal communication of Bluetooth Internet of Things base station.The sample data of 150 pieces of equipment managed by the traditional allocation center mode of The 900th Hospital of People's Liberation Army Joint Logistics Support Force from January to December 2021 were selected,and the sample data of 150 pieces of equipment allocation during the application of the visual allocation system from June 2022 to June 2023 were randomly selected,and the allocation response time and the allocation warehousing in and out time were compared.A total of 40 ventilator devices were randomly selected during the traditional allocation center mode and the visual allocation period,with 20 ventilators in each mode,the start-up rate,utilization rate and profitability of medical equipment during the service period were compared.Results:The visual allocation system can realize the functions of automatic equipment positioning,emergency deployment,ledger management,remote repair report and benefit analysis.The allocation response time,allocation outbound time and allocation inbound time of the visual allocation system were(19.61±3.119)min,(11.73±2.104)min,(10.21±2.165)min,respectively,which were shorter than(54.98±3.999)min,(21.54±2.811)min,(16.80±2.000)min of the traditional allocation center mode,the difference was statistically significant(t=85.407,34.229,27.395,P<0.05).The start-up rate,utilization rate and profitability of ventilator equipment using visual allocation mode were 78.24%,51.23%and 82.76%,respectively,which were higher than 43.52%,36.26%and 47.83%of the traditional allocation center mode,the difference was statistically significant(x2=8.792,7.813,12.216,P<0.05).Conclusion:The visual allocation system of emergency medical equipment based on the Internet of Things technology can realize the functions of emergency medical equipment allocation and storage,equipment positioning and use status analysis,provide a theoretical basis for the allocation of hospital emergency medical equipment,and maximize the role of emergency medical equipment.