PLATFORMS AND TOOLS
ROBOTS AND STEM KITS
NEXTLAB.TECH ADAPTIVE LEARNING PLATFORM
ANY TEACHER CAN DELIVER STEM LESSONS
NEXTLAB.TECH is a modern educational platform that integrates a text-to-speech virtual assistant, offering personalized support for both students and teachers. The platform enables the creation of communities and study groups, facilitating collaboration between teachers and students. Additionally, it provides the ability to generate learning reports, allowing for quick assessment of the results obtained from completing lessons.
INNOVATIVE EDUCATIONAL RESOURCES
The lessons are structured in clearly defined steps, each concluding with a question to verify knowledge and attention. With the help of educational resources such as 3D explanatory videos, learning becomes an interactive and enjoyable experience.
- Access to up-to-date educational resources and interactive materials.
- Support and guidance from the NEXTLAB.TECH team.
- Ability to monitor and evaluate progress through detailed reports.
TESTRAX ADVANCED TESTING MODULE
USE AI TO IMPROVE TEST RESULTS AND TO DELIVER TESTS
TESTTRAX is an advanced testing software that leverages artificial intelligence to enhance and automatically grade online test results. The platform is capable of analyzing and evaluating any type of test, including those with natural language responses, providing an efficient solution for grading large volumes of tests, thus saving valuable time for teachers and evaluators.
FAST AND ACCURATE GRADING
TESTTRAX enables automatic adjustment of evaluations, reducing subjectivity and ensuring quick and accurate grading. The system offers detailed performance and progress reports for each student, making it easier to understand the results.
- Access to fast, automated assessments for any type of test.
- Advanced performance tracking and personalized reports.
- Capability to grade large-scale tests with high precision, thanks to artificial intelligence.
FLOWGEN RAPID AUTHORING INSTRUMENT
EFFORTLESSLY TRANSFORM PDF AND PPT FILES INS SCORM AND JSON LESSONS
The platform automatically converts these files into structured lessons, making the process of creating educational content much more efficient and easier to manage. With FLOWGEN, course materials can be organized into simple, clear steps, facilitating interactive and accessible learning for users.
TIME-SAVING CONTENT CREATION
FLOWGEN quickly transforms static content into dynamic formats, eliminating the need for manual work in the conversion process. The system provides fast and accurate solutions for creating interactive lessons, saving time for course creators. Additionally, the platform allows for efficient monitoring and management of created content.
- Access to fast, automatic conversion of PDF and PPT files into SCORM and JSON.
- Simple step-by-step creation of interactive lessons.
- Ability to transform static content into dynamic, user-friendly educational resources.
ENTRY LEVEL KITS
ENTRY I, II AND III - A GREAT AND INEXPENSIVE WAY TO START LEARNING
KIT ENTRY I/II/III is an accessible and efficient method for introducing students to the fields of robotics and programming, offered by NEXTLAB.TECH. These kits are designed for students aged 8 to 23 and are tailored for different skill levels, from beginners to intermediates. Each kit includes a programmable board and various electronic components (such as sensors, LEDs, cables, breadboards) that allow for hands-on projects in both online and offline interactive lessons.
IDEAL FOR BEGINNING STUDIES
- Affordability: KIT ENTRY is a cost-effective and comprehensive solution for starting studies in robotics and programming, with prices starting from 149 RON for the basic KIT ENTRY I.
- Interactive Online Lessons: The kit requires access to a dedicated educational platform where students learn to build circuits and program Arduino-compatible boards using languages such as C/C++, Python, and diagrammatic languages.
- Progressive Levels: KIT ENTRY I is ideal for beginners with simple exercises, while KIT ENTRY II and KIT ENTRY III offer more advanced challenges, utilizing sensors for humidity, obstacles, or temperature, and more complex programming languages.
- Practical and Educational: Students gain essential skills in electronics and programming by applying theoretical knowledge to real projects.
LINE-FOLLOWER ROBOTS
MIRO & TECHNICUS - ORGANIZE ELECTRIFYING HACKATHONS FOR STUDENTS
MIRO and TECNICUS are robots designed for line-following competitions, frequently held during engaging hackathons for students. These robots are used to follow a predetermined path using sensors and programming algorithms. MIRO is utilized in Line-Follower Basic challenges, ideal for beginners, while TECNICUS is used in Line-Follower Advanced challenges, aimed at those with more advanced knowledge in robotics.
ENGAGING ROBOTIC HACKATHONS
- Hands-On Learning: MIRO and TECNICUS offer students the chance to learn through practice by participating in competitions and robot hackathons organized by educational platforms like NEXTLAB.TECH.
- Standardized Tracks: The robots are integrated with standardized tracks, such as ROBODROM 20, a PVC track used in national robotics competitions.
- Quick Access to Educational Hackathons: Participants can quickly access educational hackathons where they test their robotics skills.
- Interactive Lessons and Hands-On Projects: Interactive lessons and hands-on projects help develop skills in programming and electronics.
- Competitive and Captivating Environment: Students can compete and learn in a stimulating and competitive environment using robots like MIRO and TECNICUS.
AI ROBOTS
TURINO & DEEPRACER - UNLEASH THE POWER OF AI
DEEPRACER is an innovative platform based on artificial intelligence, designed to explore reinforcement learning. It allows users to develop and test advanced AI algorithms through autonomous racing on predefined tracks. The robot is equipped with stereo cameras and a LIDAR sensor, providing precise navigation capabilities and real-time obstacle detection. It is ideal for developing advanced AI solutions and racing competitions, offering a comprehensive platform to learn and apply machine learning concepts in robotics.
TURINO is built on NVIDIA Jetson Nano, offering a powerful platform for AI project development. It allows students and enthusiasts to experiment with computer vision, object recognition, and autonomous navigation. Both products are designed to encourage creativity and develop skills in robotics and artificial intelligence.
AUTONOMOUS ROBOT RACING
- Practical AI Development: Both platforms offer hands-on opportunities for users to learn and apply advanced artificial intelligence (AI) and machine learning concepts. DEEPRACER explores reinforcement learning, while TURINO provides experiments with computer vision and object recognition.
- Enhanced Programming and Robotics Skills: These products are ideal for developing programming skills, AI algorithms, and robotics. DEEPRACER's autonomous races simulate real-world scenarios, while TURINO enables the development of complex AI projects.
- Precise Navigation and Detection: DEEPRACER includes advanced technologies such as stereo cameras and a LIDAR sensor, offering precise navigation and real-time obstacle detection, enhancing AI algorithm performance in autonomous racing scenarios.
- Competitiveness and Learning Through Competitions: Participants can engage in racing competitions, combining theory with practice in AI and robotics in an engaging and interactive way.
ROBOTIC ARMS
PERFECTLY INTEGRATED ATTRACTIVE PROJECTS
Advanced Educational Robots with AI Technology to facilitate hands-on learning. This robotic arm, based on an open-source platform, uses AI to recognize and manipulate objects through a First-Person View (FPV) system and image processing algorithms. It is ideal for robotics and STEM education projects, capable of learning complex movements and performing autonomous tasks.
AI-DRIVEN OBJECT ROCOGNITION
- Hands-On STEM Learning: Robotic arms integrated with AI technology provide an excellent opportunity for students and enthusiasts to learn advanced concepts in robotics, automation, and artificial intelligence. Practical projects help develop essential skills in STEM (Science, Technology, Engineering, Mathematics).
- Programming Skill Development: Using open-source platforms, robotic arms allow users to program and customize their functions, leading to a deeper understanding of programming and algorithms.
- Versatile Applications: Robotic arms can be used in a wide range of educational and research projects, from object manipulation to learning complex movements, offering students practical insight into automation and AI processes.
- Real-Time Operating Experience: Integrating an FPV system and image processing algorithms enables users to interact with their environment in real-time, providing an engaging and realistic learning experience.
GREEN ROBOTS
FARMBOT, ENSPIRO, GREEN AND AEROPHONIC TOWERS - EDUCATION FOR CLIMATE CHANGE
ENSPIRO is designed for students who want to learn about robotics through interactive projects, such as programming a robot to water plants. The kit includes various components, such as a programmable microcontroller, sensors, and a water pumping system. It can be used to assemble an eco-friendly robot and is compatible with educational platforms like Open Roberta and Arduino IDE. ENSPIRO is suitable for both practical robotics activities and participation in "green" competitions hosted by NEXTLAB.TECH. GREEN is aimed at more advanced students, focusing on sustainability and ESG (Environment, Social, Governance). It can be used for projects involving the assembly and programming of eco-friendly robots, making it ideal for green robotics competitions.
ADVANCED AUTONOMOUS ROBOTS
AEROPHONIC TOWER: This advanced vertical hydroponic system is specifically designed to support plant cultivation in an efficient and eco-friendly manner. The tower allows for soil-free plant growth, using air and nutrient-rich water to ensure optimal development. Equipped with an integrated water pump, it is perfect for small spaces or for growers who want to maximize yield sustainably. Ideal for home, educational, or commercial use, it offers an easy-to-use solution for vertical farming.
FARMBOT: This Cartesian agricultural robot is designed to automate gardening and plant cultivation. Operating on a Cartesian coordinate system similar to 3D printers, it can plant, water, and monitor plant growth in a fully automated manner. FarmBot enables users to control every aspect of their garden through an online interface, allowing for individual plant management. Ideal for small gardens or urban farms, this system promotes sustainable and efficient agriculture by optimizing resource use and minimizing physical labor.
CYBERSECURITY EDUCATION
This educational module is specially designed for cybersecurity labs and specialized universities, offering a platform that teaches how to prevent cyberattacks. Using a SIEM (Security Information and Event Management) system and Raspberry Pi boards, the product simulates real-world attack scenarios and provides interactive lessons on detecting and responding to cyber threats.
Integration of SIEM for Analysis and Monitoring: The SIEM system allows for the real-time collection and analysis of data from multiple sources, aiding in the detection of suspicious activities and cyberattacks. Lessons offer a practical understanding of how SIEM works to prevent and respond to attacks.
Using Raspberry Pi for Realistic Simulations: Raspberry Pi boards are employed to simulate real infrastructures, providing a hands-on experience for students. They learn how to implement cybersecurity solutions at both hardware and software levels.
ADVANCED SOLUTIONS FOR SPECIALIZED LABS
Education-Adapted Content: The product includes well-structured lessons covering all aspects of cybersecurity, from identifying vulnerabilities to implementing effective protection measures. It is ideal for university labs and cybersecurity courses.
Real-Time Attack Simulations and Responses: Students can practice detecting and neutralizing threats by simulating cyberattacks, reinforcing theoretical knowledge with practical exercises.
Benefits:
- Practical Preparation for Careers in Cybersecurity: Students gain hands-on experience that is directly applicable to careers in the field.
- Cost-Effective Simulations Using Raspberry Pi: Raspberry Pi technology enables low-cost and accessible simulations.
- Comprehensive Learning of SIEM Systems: Students learn about SIEM systems and their application in real-world environments.
- Ideal for University Labs and Cybersecurity Research: The module is perfectly suited for academic labs and research in cybersecurity.