About VT-Camera Smart Vision Sensing
Voyager ISL focuses on smart assisted driving and smart cockpit. We develop and manufacture high-performance, automotive-grade visual perception cameras with in-house perception algorithms to meet functional safety and diverse driving scenario needs.
Camera Product Features
High performance, high reliability, high stability, and low cost.
Supports a full suite of applications including APA, AVP, AEB, ACC, BSD, LCA, RCTA, CMS, DMS, IMS, and other use cases.
Compatible with a wide range of vehicle models, and can be customized per customer-specific application scenarios or specifications, covering product design, perception algorithm R&D, and mass production.
Technology
● A standard optical environment laboratory enables effective and objective tuning of optical performance.
● Our in-house ISP tuning team, combined with back-end algorithms, optimizes image quality performance.
● Next-generation intrinsic parameter calibration technology ensures consistency of mass-produced finished products, thereby improving the recognition accuracy of back-end product algorithms.
● By integrating our proprietary image algorithm technology into the latest ISP, we effectively enhance low-light performance and other key metrics.
Process
● The fully automated 6-axis focusing production line ensures pixel decentration within 5 pixels, with a PPM (Parts Per Million) defect rate below 100.
● With comprehensive laser welding capabilities, the product meets IP69K ingress protection rating, with a minimum body size of 22.5×22.5mm.
● COB (Chip on Board) technology further improves product performance while optimizing costs.
Cycle
● Platform-based design enables fast-track SOP (Start of Production) in as little as 6 months.
Cost
● Platform-based design
● Domestic chip sourcing
● Adoption of COB (Chip on Board) technology for further cost optimization
VT-Camera Product Applications
RVC camera
Designed for reverse maneuvers, the rear-view camera delivers real-time images of the vehicle's rear area, supporting both static and dynamic guidelines to enable easier, more accurate parking.
AVM/APA camera
Four super-wide-angle fisheye lenses capture surrounding images to generate a 360° panoramic view around the vehicle, providing valuable assistance for vehicle parking and low-speed driving scenarios, as well as core Advanced Driver Assistance Systems (ADAS) functions.
FVC camera
Engineered to detect vehicles, pedestrians, measure distances, and identify road markings ahead, the front-view camera helps the vehicle maintain a safe and legal speed, stay within the lane, keep a secure following distance from the preceding vehicle, and respond to emergency situations.
SVC/CMS camera
Designed for surround view and blind spot monitoring via CMS, it helps drivers clearly see obstacles and pedestrians on both sides of the vehicle, creating a safer driving environment.
DMS camera
The DMS (Driver Monitoring System) camera enhances driving safety by detecting the driver's facial expressions, gaze direction, body gestures and other behaviors, alongside monitoring driving time, steering wheel control status and other factors.
OMS camera
The OMS (Occupant Monitoring System) camera monitors the status of passengers in the vehicle, including but not limited to their position, number, and emotional state.