PRACTICAL ENGINEERS ARE BORN HERE, AND YOU CAN SEE WHY.
Discover a practical engineering education at NIT, where rigorous academic theory meets practical engineering application from day one. Our Basic Engineering Education curriculum is meticulously crafted to build your expertise progressively, ensuring that by the time you don cap and gown, you're not just graduating—you're industry-ready. Join us and turn your engineering aspirations into a formidable reality.
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Dual System
Deepen your understanding with concurrent practical training and lectures.
NIT's unique dual system is a style of learning that combines technology and theory by arranging experience-based learning such as experiments, practical training, and drafting from the fist year of university. By learning both technology and theory from an practical manufacturing skills. Challenges and questions faced in manufacturing help deepen students' understanding of theory. NIT emphasizes learning through personal experience while repeatedly taking on challenges and working through trial and error.
Unleash Your Passion, Unlock Your Potential
Imagine stepping into a world where your passion meets practicality, where every workshop is a gateway to exploring your unique interests in depth. This program is your ticket to a journey of discovery, where you can dive into the heart of manufacturing, from the initial planning stages to the final execution. With 13 workshops at your disposal, you're not just learning; you're crafting your future.
Picture yourself as a budding innovator, drawn to the intersection of technology and sustainability. This program is your canvas, offering workshops that let you design and manufacture cutting-edge, eco-friendly products. It's not just about the skills you acquire; it's about the community you become a part of, where like-minded individuals and faculty members collaborate to push the boundaries of what's possible.
Guided by Experts, Empowered by Knowledge
This program isn't just about the workshops; it's about the journey. With faculty members ready to lend their expertise and guidance, you're not navigating this path alone. Whether you're working on a project to revolutionize renewable energy systems or designing the next big thing in sustainable manufacturing, you'll have a mentor by your side, providing invaluable insights and feedback.
Imagine embarking on a project to design a new type of renewable energy system. With the support of your faculty advisor, you're not just getting feedback; you're gaining access to a wealth of knowledge, the latest research, and a network of peers and professionals who are as passionate about sustainability as you are. This personalized support ensures that your project isn't just a learning experience; it's a stepping stone to making a real impact.
From Student to Leader, One Step at a Time
This program is more than just an academic experience; it's a launchpad for personal growth and unlocking your full potential. Structured to foster step-by-step progression, you're not just learning new skills; you're developing a resilient mindset, the ability to work collaboratively, and the confidence to tackle complex challenges head-on.
Starting as a student with a basic understanding of manufacturing, you're transformed into a confident, skilled professional by the end of your third year. This transformation isn't just academic; it's personal. You've grown from someone who was curious about manufacturing to someone who is ready to lead and innovate in the field. This program is your blueprint for a future where you're not just contributing to society; you're shaping it.
College Meister Program
"Meister" means an outstanding engineer, craftsperson, or master. This program is characterized by enabling students to participate based on their own interests and learn thoroughly from their first through third years of university while receiving specialized support from faculty. Students experience personal growth through this program designed to enable step-by-step progression.
13 workshops to acquire practical skills. A program that provides real experience in manufacturing useful to people and society, from planning to design, production, and execution.
Basic Engineering Education
Acquire the academic skills and knowledge necessary for engineering from the basics.
In order to become an engineering pro, it is important to acquire basic academic skills and knowledge. That is why NIT offers basic engineering education that combines science, mathematics, and language courses to learn manufacturing skills, with practical training in basic manufacturing, and language courses fundamentals through experience. Our basic mathematics, and language courses are start with subjects that match the academic skills of each student based on the results of a placement test at the time of admission. The quarterly courses are divided into four periods over a year, and enable students to steadily acquire basic academic skills with incremental learning in classes held twice a week. In addition, with our basic manufacturing practical training, students learn the basic technologies that support manufacturing so they can safely and suitably tackle the more advanced exercises and practical training arranged for the later years of university.
Programs
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Basic Engineering Education
Acquire the academic skills and knowledge necessary for engineering from the basics.
In order to become an engineering pro, it is important to acquire basic academic skills and knowledge. That is why NIT offers basic engineering education that combines science, mathematics, and language courses to learn manufacturing skills, with practical training in basic manufacturing, and language courses fundamentals through experience. Our basic mathematics, and language courses are start with subjects that match the academic skills of each student based on the results of a placement test at the time of admission. The quarterly courses are divided into four periods over a year, and enable students to steadily acquire basic academic skills with incremental learning in classes held twice a week. In addition, with our basic manufacturing practical training, students learn the basic technologies that support manufacturing so they can safely and suitably tackle the more advanced exercises and practical training arranged for the later years of university.
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College Meister Program
13 workshops to acquire practical skills. A program that provides real experience in manufacturing useful to people and society, from planning to design, production, and execution.
Wooden Architecture Workshop
Plan, design, and construct small-scale buildings like outdoor rest areas and mobile shops. Collaborate with NPO organizations and others to implement construction projects tailored to local community and user needs. Work in teams to present design proposals, then converge on a single design to bring to life. Gain practical knowledge and skills in small-scale building design, construction, and teamwork.
Wooden Archtecture Workshop
“This program involves planning, designing, and constructing small-scale buildings such as outdoor rest areas and mobile shops. Collaborating with NPO organizations and others, it implements construction projects tailored to the needs of the local community and users. Participants work in teams, presenting their design proposals initially and then converging on a single design to realize the construction. Through this course, students gain practical knowledge and skills related to small-scale building design, construction, and teamwork.
Formula Workshop
Students create a Formula-style racing car with their own hands, experiencing the entire process of planning, design, analysis, fabrication, evaluation, and teamwork. They also acquire relevant technical skills and abilities. Furthermore, they compete in the Japan Student Formula Competition, where approximately 100 universities from both domestic and international backgrounds participate, showcasing their comprehensive engineering capabilities.
Physical Sensation Workshop
Through the process of ‘making things,’ you will experientially learn about ‘physics.’ You can freely choose your own theme regardless of the field, such as machinery, electronics, or woodworking. While enjoying science, you will materialize your creations as works. This workshop allows you to acquire knowledge and skills that go beyond theoretical learning.
Craftmanship by bridging old and new
Industrial products bring happiness to people. Weapons and similar items are exceptions, but what about the things around you now? This class aims to ‘warm the old and learn the new.’ Craftsmanship involves the knowledge, feelings, and efforts of individuals. Let’s learn from our predecessors and master the art of creating things that shape your future together.
SDGs for Engineers
The SDGs (Sustainable Development Goals) are a global action plan for humanity until 2030. Various activities related to the SDGs are being carried out, and there are numerous ways in which engineering and technology play a crucial role in achieving them. Let’s engage in practical manufacturing that contributes to SDGs and experience engineering technologies that contribute to a sustainable society.
Robot Volunteer
We engage in activities to propose and develop welfare equipment for users such as students, staff, and facility users in special needs schools, elderly care facilities, and other contexts. Additionally, we plan and organize science workshops for students while developing teaching materials, aiming to enhance interest in science. Let’s consider the needs of our users and contribute to society through creative robotics technology!
Machine Workshop
A program for creating a mini lathe for manufacturing. By reading design blueprints, creating parts, assembling, adjusting, and going through a series of machining processes, you can complete the mini lathe. This program provides consistent learning from design to production, allowing you to acquire advanced machining skills.
Product Design Workshop
We learn practical product design. The entire production process, from planning and idea generation to design and prototyping for industrial products, is covered. Additionally, we gain firsthand experience in presentation and promotion. We actively participate in design contests as well."
Intelligent Mobility
We will create a robot that autonomously travels to its destination and conduct experiments in a real city environment where ordinary people are present. Through robot fabrication, you will learn various skills across disciplines, including electronics, machine processing, and AI. Experience the excitement of advanced engineering and the joy of working in a team.
Science Grit
"The goal is straightforward: presentation and winning at the Science In College . In fields such as chemistry, biology, and botany, students independently develop research themes, conduct experiments, and deliver presentations. Their curiosity about natural science knows no bounds. So, let’s embrace the Science Challenge!"
Humanoid Robot Research
We will develop a one-of-a-kind original humanoid robot as a team. From computer-based design to creating mechanical components using machining equipment, constructing control systems with cameras and sensors, and programming walking behavior, you can acquire a wide range of knowledge and skills necessary for humanoid robot development. Moreover, you’ll experience the joy of collaborative creation within a team.
Robot Fabrication Project
With the goal of winning a robot contest, we will plan, design, and develop various types of robots. By actually participating in the contest, you can learn not only how to build robots but also project management skills and teamwork.
Phisical Computing Workshop
We will create works that respond to human movement, shape, and voice by combining video, audio, CG technology, and sensors that detect light and gravity. These works will incorporate elements such as CG (Computer Graphics), and we will also participate in external contests. This workshop is open to students who have experience in programming and are enthusiastic about computer-based creation.
Wooden Architecture Workshop
Plan, design, and construct small-scale buildings like outdoor rest areas and mobile shops. Collaborate with NPO organizations and others to implement construction projects tailored to local community and user needs. Work in teams to present design proposals, then converge on a single design to bring to life. Gain practical knowledge and skills in small-scale building design, construction, and teamwork.
Formula Workshop
Create a Formula-style racing car from scratch, experiencing planning, design, analysis, fabrication, evaluation, and teamwork. Acquire relevant technical skills and abilities. Compete in the Japan Student Formula Competition against approximately 100 universities, both domestic and international, showcasing comprehensive engineering capabilities.
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Physical Sensation Workshop
Learn about ‘physics’ through hands-on ‘making things.’ Choose your own theme freely, whether it’s machinery, electronics, or woodworking. Enjoy science while turning your ideas into tangible creations. Acquire knowledge and skills that go beyond theoretical learning in this workshop.
Craftmanship by bridging old and new
Industrial products bring happiness to people, with the exception of weapons and similar items. Look at the things around you now. This class aims to ‘warm the old and learn the new.’ Craftsmanship embodies the knowledge, feelings, and efforts of individuals. Learn from our predecessors and master the art of creating things that shape your future together.
SDGs for Engineers
The SDGs (Sustainable Development Goals) are a global action plan for humanity until 2030. Various activities related to the SDGs are being carried out, and there are numerous ways in which engineering and technology play a crucial role in achieving them. Let’s engage in practical manufacturing that contributes to SDGs and experience engineering technologies that contribute to a sustainable society.
Robot Volunteer
Propose and develop welfare equipment for students, staff, and facility users in special needs schools, elderly care facilities, and other contexts. Plan and organize science workshops for students while developing teaching materials to enhance interest in science. Consider the needs of our users and contribute to society through creative robotics technology.
Machine Workshop
Create a mini lathe for manufacturing by reading design blueprints, creating parts, assembling, adjusting, and completing a series of machining processes. This program offers consistent learning from design to production, helping you acquire advanced machining skills.
Product Design Workshop
Learn practical product design through the entire production process, from planning and idea generation to design and prototyping for industrial products. Gain firsthand experience in presentation and promotion. Actively participate in design contests.
4o
Intelligent Mobility
Create a robot that autonomously travels to its destination and conduct experiments in a real city environment with ordinary people. Learn various skills across disciplines, including electronics, machine processing, and AI, through robot fabrication. Experience the excitement of advanced engineering and the joy of teamwork.
Science Grit
The goal is straightforward: present and win at the Science In College. In fields like chemistry, biology, and botany, students independently develop research themes, conduct experiments, and deliver presentations. Their curiosity about natural science knows no bounds. Embrace the Science Challenge!
Humanoid Robot Research
Develop a one-of-a-kind humanoid robot as a team. Engage in computer-based design, create mechanical components using machining equipment, construct control systems with cameras and sensors, and program walking behavior. Acquire a wide range of knowledge and skills necessary for humanoid robot development. Experience the joy of collaborative creation within a team.
Robot Fabrication Project
Plan, design, and develop various types of robots with the goal of winning a robot contest. By participating in the contest, you will learn how to build robots as well as project management skills and teamwork.
Physical Computing Workshop
Create works that respond to human movement, shape, and voice by combining video, audio, CG technology, and sensors that detect light and gravity. Incorporate elements such as Computer Graphics (CG) and participate in external contests. This workshop is open to students with programming experience who are enthusiastic about computer-based creation.