The combination of industrial all-in-one machines and IoT technology enables medical personnel to monitor patient ventilator data in real time, including respiratory rate, oxygen concentration, and airway pressure. Through a wireless connection, this data is transmitted to the monitoring system, allowing doctors and researchers to remotely access and analyze the patient's condition in depth. The use of this technology helps to improve the speed at which the medical team can monitor and respond to the patient, ensuring that the patient receives the best possible respiratory support during the process.Industry Introduction:
With the full lifting of lockdown in the country, the healthcare system is gradually returning to normal, with a steady increase in outpatient and surgical volumes. At the same time, the implementation of the hierarchical diagnosis and treatment policy has had a positive impact on the demand of medical institutions. As of the first quarter of 2023, outpatient volumes have recovered to more than 90% of the same period in 2019. And the investment in the medical equipment industry is increasing, aiming to improve the overall level of medical equipment.
In addition, it also actively encourages more enterprises to enter this field and promote the healthy development of the industry. At present, medical ventilators widely used in medical clinics are usually wired devices, which have the problems of lack of flexibility and convenience. When multiple wired devices need to be used at the same time, the layout of network cables in the ward will be chaotic, and it is difficult to achieve centralized remote management.
Manually provisioning equipment not only increases the workload of the personnel involved, but also leads to errors. Both the appearance and the actual user experience need to be further improved. By connecting medical ventilators with industrial all-in-one machines, it is expected that wireless Internet of Things will be realized. By combining with industrial all-in-one machines, it will promote the development of the medical industry towards a more intelligent, efficient and safe future. This will improve the patient's experience, reduce the workload of medical staff, and improve the quality of medical services.
Aikong industrial control scheme:
Based on the needs of customers, Aikong provides customers with APC-3A12 industrial all-in-one computer front-screen series products, which have the following advantages:
The industrial all-in-one computer supports the onboard Intel 11th generation low-power CPU, and users can choose different configurations such as i3 i5 i7 to meet the computing needs of a large number of detection data, so as to ensure that the control system of the machine is stable and can run quickly, providing powerful computing power support for work.
The industrial all-in-one has a rich number of I.O. interfaces, including 2 USB 20 Type A, 2 x USB 30 Type A, 2 x RS-232 422 485 DB9 COM12 (BIOS selection), 4 x RS-232 DB9 COM36, and optional 8 GPIO (shared COM6 position). In terms of expansion interfaces, the industrial all-in-one machine supports internal audio output and microphone, 2 5pin Dupont seats, optional 2 1W speakers, 1 Mini-PCLE half-card, supports WiFi Bluetooth, and 1 Mini-PCLE full-length card, supports 3G 4G module, and fully supports the connection of external monitoring equipment, providing an efficient and convenient monitoring environment for staff.
In terms of network, the industrial all-in-one machine has a Gigabit Ethernet port, supports 2 Gigabit LAN RJ-45 interface, and is equipped with Intel i219 and i210 chips to ensure network stability. Stable network data transmission performance greatly reduces the possibility of data loss during transmission.
In addition, the all-in-one machine supports continuous operation, operating in the temperature range of 0 50 °C when using an HDD, and 7*24 hours of continuous and stable operation in the temperature range of -20 60 °C when using an SSD, ensuring that the equipment can maintain efficient work under different environmental conditions.
Future outlook: Medical ventilators are expected to be connected to the Internet for remote monitoring and diagnosis. With real-time access to patients' respiratory data, healthcare professionals are able to intervene in a timely manner to effectively reduce medical risks. By making full use of the Internet of Things data analysis, the medical ventilator can tailor a personalized plan for each patient, and adjust the parameters according to the patient's needs and conditions to improve the overall effect.