Medical 4.0 include cloud computing and big data. Not only can it be used to collect and analyze data and prevention plans, more and more medical instrument requires high-speed data acquisition, analysis, and processing. As electronic medical record applications become more popular, once electronic medical records are leaked or tampered with, it will bring severe legal disputes between doctors and patients to the hospital. Therefore, network platform safety has become a key focus for hospitals.
Importing a WLAN wireless system in the hospital building will allow doctors to view various information of the patient by the sick bed in real-time simply with a tablet. If an abnormal situations occur, wireless methods can be used to notify the doctor immediately so that the doctor can make appropriate adjustments. The use of WLAN will reduce maximum wait time for patients, increase the satisfaction level of the patients, and also increase the doctor’s work efficiency for making rounds. Applying IoT to medical treatment means connecting closer with big data.
In terms of roadside assistance, changes in traffic conditions are extremely complicated; the use of wireless communication between the ambulance staff and medical staff at the hospital must be smooth and uninterrupted in order to achieve an effective rescue. Telemedicine can be expected in the future where surveillance systems will be used to perform remote healthcare in order to reduce the cost of care, and it will promote continual growth of remote surveillance applications in the future.
In the telemedicine integration solution released by AIV-HM76V1FL is used for smart ambulances that can be used for fleet management to remote data processing applications. It uses a fan-less design and is equipped with Intel’s third generation Core i ULV and the HM76 chipset, processor, and 2 DDR3 SO-DIMM memory totaling up to 16GB. It also supports CAN 2.0A/2.0B protocol and i-Button for driver ID. also equipped several wireless communication modules to increase the transmission capabilities between the rescue data, management center, and hospital. In addition, an in-vehicle connector is designed that can be used to equip the Acrosser In-Vehicle Touch monitor in order to simplify the installation of a touch monitor and satisfy fleet needs., ultra-thin 35mm
Standard functions of AIV-HM76V1FL include: controlling the temperature during vehicle operation, 3G, 2.5” HDD bracket, and the delay time range that can be set for power on/off in the BIOS is between 0 seconds ~ 60 minutes. These are all-important elements for smart ambulance management.