Video Context Understanding AI Agent
Analyzes video in real time to detect risks and predict behavior, enabling proactive responses.
Video Context Understanding AI Agent
Analyzes video in real time to detect risks and predict behavior, enabling proactive responses.
Video Context Understanding AI Agent
Analyzes video in real time to detect risks and predict behavior, enabling proactive responses.
AI That Understands Context, Not Just Objects
Our Vision-Language model–based AI agent interprets real-time changes in video to anticipate risks and predict behavior. By integrating visual and linguistic information, it goes beyond simple object recognition to understand complex context and nuance..
AI That Understands Context, Not Just Objects
Our Vision-Language model–based AI agent interprets real-time changes in video to anticipate risks and predict behavior. By integrating visual and linguistic information, it goes beyond simple object recognition to understand complex context and nuance..
AI That Understands Context, Not Just Objects
Our Vision-Language model–based AI agent interprets real-time changes in video to anticipate risks and predict behavior. By integrating visual and linguistic information, it goes beyond simple object recognition to understand complex context and nuance..
Proactive response and prediction
Regardless of video length, it analyzes content quickly. Thanks to efficient memory management and consistent compute load, it achieves fast, accurate event detection—even in long footage
Proactive response and prediction
Regardless of video length, it analyzes content quickly. Thanks to efficient memory management and consistent compute load, it achieves fast, accurate event detection—even in long footage
Proactive response and prediction
Regardless of video length, it analyzes content quickly. Thanks to efficient memory management and consistent compute load, it achieves fast, accurate event detection—even in long footage
Robust performance in complex environments
In dense or intricate scenes, it delivers high accuracy and reliability—understanding what's happening with precision and confidence.
Robust performance in complex environments
In dense or intricate scenes, it delivers high accuracy and reliability—understanding what's happening with precision and confidence.
Robust performance in complex environments
In dense or intricate scenes, it delivers high accuracy and reliability—understanding what's happening with precision and confidence.
Fast and consistent speed across varying video lengths
Optimized to maintain fast, precise analysis throughout videos of any duration by managing memory efficiently and balancing compute load.
Fast and consistent speed across varying video lengths
Optimized to maintain fast, precise analysis throughout videos of any duration by managing memory efficiently and balancing compute load.
Fast and consistent speed across varying video lengths
Optimized to maintain fast, precise analysis throughout videos of any duration by managing memory efficiently and balancing compute load.
Case Study : On-Device VAD Technology
Reducing Costs by Over 99% in Hazardous Cargo Vehicle Trials with the Korea Transportation Safety Authority
By replacing traditional sensor-based detection with on-device VAD (Video Accident Detection), we dramatically cut communication costs and manpower needs validated through real-world performance in hazardous cargo transport trials.
Case Study : On-Device VAD Technology
Reducing Costs by Over 99% in Hazardous Cargo Vehicle Trials with the Korea Transportation Safety Authority
By replacing traditional sensor-based detection with on-device VAD (Video Accident Detection), we dramatically cut communication costs and manpower needs validated through real-world performance in hazardous cargo transport trials.
Case Study : On-Device VAD Technology
Reducing Costs by Over 99% in Hazardous Cargo Vehicle Trials with the Korea Transportation Safety Authority
By replacing traditional sensor-based detection with on-device VAD (Video Accident Detection), we dramatically cut communication costs and manpower needs validated through real-world performance in hazardous cargo transport trials.
Communication Costs
Reduced by 98.8%
Communication Costs
Reduced by 98.8%
Monthly transmission volumes shrank
from 18GB per vehicle to just 18MB—
a significant reduction in data usage.
Monthly transmission volumes shrank from 18GB per vehicle to just 18MB—a significant reduction in data usage.
Labor Costs Reduced by 99.9%
Labor Costs Reduced by 99.9%
Fewer on-site personnel are needed
for accident response, cutting labor expenses
from 842,208 KRW/month to just 750 KRW/month.
Fewer on-site personnel are needed for accident response, cutting labor expenses from 842,208 KRW/month to just 750 KRW/month.
Acident Response Time
Reduced by 99%
Accidents can be detected and assessed
remotely without on-site checks, reducing average
response time from 26,950 seconds/month
to just 4 seconds/month.
Accidents can be detected and assessed remotely without on-site checks, reducing average
response time from 26,950 seconds/month to just 4 seconds/month.
Simulation based on standards from the Korea Transportation Safety Authority’s pilot project (Jan–Jun 2023), applied across 12,000 vehicles.
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Your smarter future starts here.
Your smarter future starts here.
