In emergency medical rescuing applications, the efficiency ambulance of  dispatch is related to the patients’ lives and effective utilization for medical sources. However, the traditional ambulance dispatch system is facing the challenges for sudden accidents, complex traffics, limited resources, and limitation of human decisions-making. It caused the response latency, low efficiency of resource, it affects the service quality. Thus, the intelligent ambulance dispatch system which combining with big data, AI, and optimal algorithm

The integration by information technology of the intelligent ambulance dispatch system, it is a reformation for the traditional dispatch process, It utilizes intelligent in-vehicle computers for control, integrates various intelligent sensors and cameras, and combines advanced technologies such as 5G communication, high-precision positioning and navigation, artificial intelligence, and big data to achieve functions such as remote monitoring of ambulances by hospitals, sharing of patient vital sign monitoring data and audio-video information. This significantly reduces the hospital's response time to patients, ensuring that patients can receive timely, efficient, and technologically comprehensive medical assistance even when they are in a rapidly moving ambulance.

The ambulance dispatch system supports to share the functions such as remote surveillance, patient vital sign monitoring date, and audio and video date, etc. It requires high-performance, multi-scalability intelligent-in-vehicle central control support. In response to this, Qiyang recommend RK3588 SOM module, it adopts 64-bit Octa-core processor, it is featured with abundant interfaces, it meets the requirements for data computing, multi-functioning and stability ,etc.

The SOM adopts 4* Cortex-A76+4* Cortex-A55 processor, the frequency is up to 2.4Ghz, it provide sufficient and flexible computing capability ,it is able to process the complex dispatch algorithm, data analysis and decisions.

The SOM supports various display connectors , such as MIPI_DSI,HDMI,eDP, it is available to achieve four screens with different images, it could display the dispatch information , in-car medical data, map and navigation ,etc.

Inbuilt with a NPU with 6 Tops, it supports INT4/INT8/INT16/FP16 hybrid operation, it achieves the real-time analysis for the traffic flow data, congestion status prediction, optimal route scheduling, congestion route avoiding to shorten the duration of impacting.

Onboard with a Gigabit Ethernet, it could connect to an external 4G/5G, WIFI module. It could achieve the real-time communication between the dispatch center, hospital, and other ambulances.

The SOM is featuring with abundant interfaces, such as USB, I2C,MIPI-CSI, UART, etc. it could connect to various devices, and sensors flexibly, easy for system integration and scalability , it can construct and deploy the required applications quickly.