Products

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Donec ornare non eros in pretium. Etiam malesuada purus non lectus hendrerit facilisis.

Cloud-connected Drone Solution

IOX - Internet of Drones

IOX is an internet of Drones [loD] variant of the Internet of Things (IoT) enterprise drone automation theory that provides drone agnostic software solutions to implement at scale with fully automated and cloud-connected drone technology. IOX is a modular drone concept that is simple to assemble, control, and repair in the event of a malfunction. The system is based on cloud infrastructure, and the drones are constantly connected to the cloud server via LTE protocols, and they are also familiar with the machine interfaces used in the workplace. The entire system consists of the following

  • Drones that are tailored to specific use cases.
  • Servers that are hosted in the cloud.
  • Users have access to a custom dashboard that provides information about the system and its various operations.
  • Based on user requirements, custom system integration with other IoT hardware and various other devices.
video showcase
01
Robust and easy to repair
02
Fully autonomous mission execution
03
Endurance of 50 minutes flight time on a single charge
04
Around 30 km of operational range
05
Modes including Auto, Manual, follow me, and many more
06
Modular design easily reducing the time for storage and travel
An AI Platform for Drones

Cognixa Al engine

Cognixa AI Engine is a cloud-based Al engine that provides on-demand Al as a Service. It enables us to perform video analytics on data sent to a cloud server by IoT devices or drones in the deployment site. Machine Learning (ML) tools and algorithms are used by Cognita to assist companies in developing Al-driven products and solutions. The engine/platform allows us to run real-time machine learning, computer vision, image processing, and even audio processing models on the data and send the results back to the on-site device, which can then act based on the results of the processing algorithm. The presence of such a system allows for the following

  • Data is sent to a cloud service to be processed instead of being processed on-device.
  • This expands the scope of more complicated models that can be deployed, as the complexity limitation imposed by IoT devices' low processing power is now removed.
video showcase
01
Machine learning tools
02
Deep learning & Data Visualization
03
Advanced Analytics
04
Around 30 km of operational range
05
Modes including Auto, Manual, follow me, and many more
06
Modular design easily reducing the time for storage and travel
ROS based modular Robotic systems

Aiotize Robotics

The Robot Operating System (ROS) is a software development framework for robots. It's a set of tools, libraries, and conventions aimed at making the task of programming complex and reliable robot behavior on a variety of robotic platforms easier. For better customized and efficient system performance, Aiotize uses the ROS framework natively throughout its Robotic devices. ROS also aids in the integration of robotic systems with Al-powered interfaces, as well as the extraction of the most cutting-edge technology. ROS services include

  • Robotic Manipulators- Industry-specific robots that perform several tasks such as picking and placing objects like a fully-functioning human arm.
  • Autonomous Underwater Vehicle (AUV)- a self-propelled, untethered underwater vehicle capable of carrying out simple tasks with little or no human supervision.
  • Unmanned Ground Vehicle (UGV)- remotely operated ground robotic platform used for logistic operations, terrain mapping, patrol monitoring, and detection, investigation, exploration, and inspection at tunnels, buildings, etc.
  • Unmanned Aerial Vehicle (UAV)- UAVs can be remote-controlled aircraft that can fly autonomously based on pre-programmed flight plans or more complex dynamic automation systems.
video showcase
01
Multiple robots can be controlled by the same master node
02
Multiple robot monitoring, logging, analytics, and maintenance tasks are simple
03
Supports real-time operations, making it ideal for time-sensitive applications
04
Management and interaction of multiple robots/fleets
05
Package management on robots in the field
06
AOS can be replaced with ROS