Hi3616 Hi3519 AI module for UAV gimbal camera Artificial intelligence module automatically tracks and locks on moving targets in the video
Table of Contents
Introduction
- Our newly launched AI module is based on HiSilicon Hi3519DV500 main control, an ultra-high-definition smart SoC for the visual industry.
- The chip supports up to four sensor inputs, supports ISP image processing capabilities up to 4K@30fps, supports 2F WDR, multi-level noise reduction, six-axis anti-shake, panoramic stitching, multi-spectral fusion, and other traditional image enhancement and processing algorithms, supports real-time noise reduction of input images through AI algorithms, and provides users with excellent image processing capabilities.
- Supports access and processing of thermal infrared, structured light, and ToF sensors.
- Suitable for drone pods, industrial cameras, security monitoring, industrial barcode readers, integrated industrial cameras, high-definition network cameras, and other related application scenarios.
Feature
- Dual-core ARM Cortex A55
- 2.5Tops INT8 NN acceleration engine
- Support 4K30fps video encoding and decoding
- Image processing AI ISP processing
- USB3.0 peripheral interface
- Support Linux system OS
- Support multi-channel video input
Specification
| SOC | Hi3519DV500 |
| Computing power | 2.5Tops NN |
| size | 42mmx42mm |
| resolution | 8032×6088 |
| Video codec | H264 4K@30fps/H265 4K@30fps |
| Video input interface | MIPI/LVDS/Sub-LVDS/HiSPi/ BT.601/BT.656/BT.1120 |
| Power supply | DC12V |
| Storage capacity (NAND Flash). | 4Gbit (can be customized according to needs) |
| Storage capacity (EMMC). | 2TB (can be customized according to needs). |
| Cache capacity (LPDD4X). | 2GB 512Mbx 32-bit (can be customized according to needs) |
| Network interfaces | Gigabit Ethernet interface (RGMII, RMII) |
| Programming mode | Serial/USB/RJ45 network port |
| Operating temperature | -25℃ +85℃ |
| weight | |
| size | 42mmx42mm |
Dimension
Camera Specification
| Items | Parameter |
| Sensor | IMX586 |
| Lens Size | 1/2.0 |
| Most Effective Pixels | 8032×6088 |
| Data Format | 10bit_RGB_RAW |
| Pixel Size | 0.8um*0.8um |
| Dynamic Range | HDR |
| Lens | FOV: D= 92.6 |
| Optical length: 20.91MM | |
| Lens Construction: 2G5P | |
| M12*P0.5mm | |
| focusing | Fixed focus |
| Frame rate | High Frame Rate 30fps@Full resolution |
| Auto Control | Saturation, Contrast, Acutance, White balance, Exposure. |
| Audio | None |
| Voltage | 2.8V/1.8V/1.1V |
| Working Current | MAX 960mA |
| Connector | MIPI_4Line |
| Storage Temperature | -10°C to +60°C |
| Working Temperature | 0°C to +50°C |
| System Compatibility | / |
Camera Dimension
| Lens Size | 2G5P + IR | Chip Type | IMX586 |
| EFL | 3.94mm±5% | Array Size | 8032×6088 |
| F.No | 2.2mm±5% | Pixel Size | 0.8umx0.8um |
| View Angle | D=92.6° H=79.4° V=62.7° | DVDD | 1.1V±0.1V |
| Distortion | <-1.54% | AVDD | 2. 8V±0.1V |
| Focus | Fixed focus | DOVDD | 1.8V±0. IV |
| M.O.D | 0.5M | Connector | |
| Resolution | 12Mega pixel | I2c address | 0x34 |
I need to drive fpv autonomously on the image identify and lock. It is used for drone images to identify and lock the running object, like a car or person.
We provide this core AI module to other gimbal camera factories. We can offer you this AI module only or a complete gimbal camera with the AI module inside. We supply the AI module to the camera factory, the camera factory makes the complete AI gimbal camera for the client (end-user).
Made for Video Tracker Board, it is designed for target tracking using image processing algorithms. It enables real-time tracking of moving objects and is compatible with various video formats, including SDI. The system utilizes advanced algorithms to maintain stability and accuracy in dynamic environments.
For tracking targets on aerial platforms, there is a need for two SDI inputs or one SDI input plus one PAL input and one SDI output. To build a PTZ gimbal with 30x optical zoom cameras for a small uav., Maybe you need the tracking board.
Most of the 30X zoom cameras have an Ethernet port or USB. Our current AI module has a MIPI, Ethernet port, and USB 3.0 port without an SDI input-output connector. We just made a board for a gimbal camera factory, and he didn’t ask for an SDI input port. For a trial sample, we can use the adapter. After passing the sample verification, we can add SDI input to the board for future mass-produced orders.
The tracking board is after the slip ring, and it is not possible to transfer LVDS or MIPI from the slip ring. The camera used is the Sony EVB9520L with an adopter, which is sometimes used alone and at other times with an uncooled thermal detector. SDI is the most convenient, just one cable, which is rarely used nowadays. In some special case applications, SDI is used by default and almost everywhere. We rarely make SDI interfaces now, so we need to re-make SDI input-output if you really need it.
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