- Description
-
We can neither confirm nor deny
- Number of employees
- 2 - 10 employees
- Year established
- 2020
- Company website
- https://armadadefencecorp.ca/
- Categories
- Market research Security (cybersecurity and IT security) Machine learning Artificial intelligence Hardware
- Industries
- Defense & security
Socials
Recent projects
Agriculture Drone Efficiency Study
The main goal for the project is to study the effect of using drones for agriculture, including the cost saving, operation costs, and increase in efficiency when compared to traditional methods. The company, Armada Defence Corp, is interested in understanding the potential benefits of implementing drone technology in agricultural practices. This will involve several different steps for the students, including: - Researching the current methods and costs associated with traditional agriculture practices. - Analyzing the potential cost savings and operational efficiencies that can be achieved by using drones for agriculture. - Conducting field tests and collecting data to compare the efficiency and effectiveness of drone usage versus traditional methods. - Developing a comprehensive report outlining the findings and recommendations based on the research and analysis.
Cyber security IT Compliance
The main goal of these projects is to have students bring it info structure up to compliance or cmmc 2.0 or nist 800-171 and YXMNW-V7XHR-RQ2DX-8C7RD-8K96W.
Armada design
The main goal of this project is to create and design a website including content .
Product Design & Prototype Armada
The goal of this project is to design and build an autonomous drone with an ice engine that is capable of lifting 35kg. The drone must be safe, reliable, and able to achieve the desired flight performance metrics. This will be achieved through further refinement of the rough design ideas and incorporation the selected ice engine and electronic components. The research on thermal insulation materials will be utilized to ensure that the drone is capable of safe and reliable operation. A functional prototype will be assembled, tested, and adjusted as necessary. A comprehensive report will be produced detailing the design process, research findings, and final prototype specifications. Research: The research for this project has already been conducted on ice engines, electronic components, and thermal management techniques. The team has also researched safety protocols and regulations for flying drones in various environments. The research on thermal insulation materials will be utilized to ensure that the drone is capable of safe and reliable operation. Design: The drone's components and mechanical structure will be designed to incorporate the selected ice engine and electronic components. The team will use the rough design ideas, refine them, and create detailed specifications for the drone's components and mechanical structure. The design will be focused on safety, reliability, and performance, and will include the necessary sensors and systems to ensure autonomous flight. Prototype: A functional prototype of the drone will be assembled, tested, and adjusted as necessary to ensure that it is capable of autonomous flight and lifting 35kg. The prototype will be built to meet the design specifications and performance metrics and will incorporate the selected ice engine, electronic components, and thermal insulation materials.