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Turning sensing into meanigful intellegence

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About Us

Turning sensing into meanigful intellegence


Our journey began with a shared vision: to create advanced, world-class technologies tailored for real-world needs. By combining our strong understanding of global requirements, quality standards, safety, and security with cutting-edge AI/ML capabilities, we design products that are smart, reliable, and built for high performance.

Made in India. Built for the World:

We are proud to announce our upcoming pure “Made in India” camera modules, engineered from the ground up to serve automotive, industrial, and domestic applications. Designed for robustness, intelligence, and precision, our camera solutions aim to redefine performance and reliability across multiple use cases.

Expert Team of Engineering & Consultants:

We are a team of passionate engineers driven by innovation, excellence, and precision in design, development, and system architecture. With extensive experience working across global markets, we bring together diverse perspectives and deep technical expertise to build solutions that truly matter.


As we move forward, our mission remains clear: to revolutionize the industry with intelligent imaging solutions that empower the future.

Stay tuned—innovation is just getting started.

Happy Clients

Projects

Systems Deployed

Expert Team

Products

Next-Gen Vision Products

Camera

Next-generation automotive camera enabling intelligent surveillance and proactive vehicle protection.

Where AI, vision, and edge computing converge.

A smart AI camera platform delivers intelligent vision capabilities across multiple industries through a unified solution. It combines advanced computer vision, machine learning, and real-time analytics to interpret visual data accurately and efficiently.

In the automotive sector, the platform supports driver assistance, collision avoidance, and autonomous navigation technologies. Within railway operations, it helps monitor tracks, detect obstacles, and improve passenger safety through continuous visual inspection. The system is scalable, allowing deployment from small edge devices to large enterprise-level infrastructure with real-time alerts and actionable insights.

Its modular architecture allows easy customization based on industry requirements. Integration with cloud and edge computing ensures high performance with minimal latency. Overall, the platform improves operational efficiency, reduces human intervention, and enhances safety standards across applications.

AI Applications Curated by Experts for Real-World Impact

Deep Learning based Crack Detection

Deep learning–based crack detection uses advanced neural networks to automatically identify cracks in structures like roads, bridges, and buildings. By training on large sets of images, these models learn to recognize crack patterns with high accuracy, even under varying lighting and surface conditions.

  • Infrastructure Monitoring: Automated crack detection in roads, bridges, tunnels, and buildings for early maintenance.
  • Industrial Inspection: Identifies cracks in pipelines, turbines, and equipment to prevent failures and downtime..
  • Transportation Safety: Detects damage on rail tracks, runways, and highways to improve operational safety.
  • Post-Disaster Assessment: Rapid structural damage analysis after earthquakes, floods, or fires.

Detection & Alerting Unstructured Traffic

AI-Based Driver Alert System for Unstructured Traffic Using Video Analytics

  • Bus
  • Car
  • Bikes
  • Cycle
  • Pedestrian
  • Auto
  • Animals
  • Trucks

Vision Inspection Systems

Vision Inspection Systems use cameras and image-processing software to automatically inspect products for defects or irregularities. They improve quality control by detecting errors that are difficult or impossible to spot with the human eye. These systems ensure consistent accuracy, speed, and reliability in manufacturing processes. Vision Inspection Systems help reduce waste, rework, and production costs. They are widely used in industries such as electronics, automotive, pharmaceuticals, and food processing.

Indoor Drone Navigation

Indoor Drone Navigation enables drones to move accurately within enclosed environments without relying on GPS. It uses sensors, cameras, and advanced algorithms to detect obstacles and map surroundings in real time. This technology allows drones to perform tasks safely in warehouses, factories, and large buildings. Indoor Drone Navigation improves efficiency in inspection, monitoring, and inventory management. It plays a key role in automation by enabling precise and reliable drone operations indoors.

Plant Leaf Disease Detection

Plant leaf disease detection uses artificial intelligence and image processing to identify diseases from photos of plant leaves. AI models examine variations in color, texture, shape, and spots to detect infections at an early stage. Early detection helps farmers take timely action and prevent the spread of diseases to healthy plants. Explainable AI (XAI) techniques show how the model makes decisions, improving transparency and user trust. Tools like heatmaps and feature visualization highlight the specific leaf regions that influenced the prediction. After identifying the disease, the system suggests mitigation measures such as pesticide selection, organic treatments, or soil and nutrient management. This intelligent approach enhances crop protection, supports precision agriculture, and reduces overall yield loss

Deep learning based Fruit grading

Deep learning–based fruit grading uses a multi-model, multi-stage approach to ensure accurate quality assessment. The system first detects fruits in images using advanced object detection techniques. It then performs classification to distinguish fresh vs. rotten fruits. A secondary classification stage identifies the specific fruit type. Grading is done using multiple parameters such as size, color, texture, and defects. Based on fruit quality, the system recommends suitable recipes and usage options. It also provides retail pricing (HOPCOM rates) and suggests nearby markets or fruit shops for purchase

Hands on Steering Wheel Detection

The Hands on the Wheel Detection App is developed to monitor whether a driver’s hands are on the steering wheel. It uses infrared (IR) images captured from both front and top camera views. The front-view images are analyzed using a histogram-based image processing method. This approach helps in detecting hand presence based on pixel intensity distribution. For the top view, the system uses a YOLO deep learning model for object detection. The combination of traditional image analysis and deep learning improves detection accuracy. The multi-view setup ensures reliable performance under different lighting and driving conditions. The system is designed to be adaptive and robust in real-time scenarios. A user-friendly interface allows easy visualization of detection results. This application enhances driver monitoring and supports vehicle safety systems

Contact

Connect with our experts for AI, vision, and automation solutions.

Address

No.19, 4th C Cross, Koramangala Industrial Area 5th Block,
Bangalore -560095

Call Us

+91 9886223370

Email Us

sales@motioniq.in