Osaka Institute of Technology
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Faculty of Engineering Department of Electronics and Information Systems Engineering

table of contents

What’s New Department of Electronics and Information Systems Engineering Latest News

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Congratulations to all 1,887 graduates!
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Special website for the e-TechFusion scheme has been launched!
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Tsuruyama, a second-year master's student in the Nanomaterials Laboratory, received the Student Outstanding Presentation Award at the Semiconductor Electronics Division Workshop of the Materials Society of Japan

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Mr. Kuwayama, a second-year master's student in the Nanomaterials Laboratory, won the Outstanding Presentation Award at the 34th Japan Society of Infrared Research Presentation Conference.
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International PBL held for the Department of Department of Electronics and Information Systems Engineering and the Department of Electrical and Electronic Systems Engineering
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Department of Department of Electronics and Information Systems Engineering
Click here for a list of new information

Message from the Dean

Dean of the Faculty of Engineering of Department of Electronics and Information Systems Engineering

Kazuo Kumamoto

Modern society is constantly changing due to advancements in IoT and AI. Everything from smartphones and home appliances to automobiles and even social infrastructure is connected through communication networks, making our lives more convenient and comfortable.
For example, safe transportation through autonomous driving technology, smart homes that allow you to control home appliances from outside, and smooth online communication—all the systems that will support future society are built on advanced electronic information systems.
This department aims to cultivate engineers who will support this "super smart society." Based on electronics engineering, students will learn a wide range of communication and information technologies, and acquire the ability to combine them to create actual systems.
Our program goes beyond simply acquiring knowledge; it fosters the ability to think about and implement ways to make society safer and more convenient. Students will acquire practical skills that will enable them to excel in a wide range of fields in the future, including IT, robotics, automobiles, telecommunications, and infrastructure.

Key Technology Five key technologies to realize a "super smart society"

01 Smart House

We will utilize information and communication technology and sensing technology to network energy devices and home appliances in the home. We will provide a safe and secure life by introducing life support robots.

Learning in the Department

  • 1. Wireless Communication
    Technology that connects everyday home appliances and mobile terminal devices via secure wireless communication

    • Related subjects

      • Communication Method I, II
      • Wireless Communication Engineering
      • Information and Communication Basics
      • Network Engineering

    • Related laboratories

      • Information and Communication Research Lab
      • Communication Systems Laboratory
      • Electromagnetic Compatibility Laboratory

  • 2. Remote Control
    Technology that collects information about your home and remotely controls home appliances while you're away from home

    • Related subjects

      • Network Engineering
      • Computer Systems
      • Systems Engineering
      • Control Engineering
      • Information and Communication Systems Fundamentals

    • Related laboratories

      • Communication Systems Laboratory
      • System Control Laboratory
      • Super Bio-Robotics Laboratory

  • 3. Signal Processing
    Technology for analyzing huge amounts of data obtained from sensors installed in various devices

    • Related subjects

      • Transmission Theory
      • Digital Signal Processing
      • Information theory

    • Related laboratories

      • Software Systems Laboratory
      • System Control Laboratory
      • Information and Communication Research Lab
      • Electromagnetic Compatibility Laboratory
      • AI Physics and Engineering Laboratory

  • 4. Abnormality diagnosis

    • Related subjects

      • Digital Signal Processing
      • Sensor Engineering
      • Systems Engineering

    • Related laboratories

      • Super Bio-Robotics Laboratory
      • Software Systems Laboratory
      • Communication Systems Laboratory

  • 5.Environmental Sensing
    Highly sensitive sensing technology for pollen, house dust, and other substances that affect the human body in living spaces

    • Related subjects

      • Computer Systems
      • Optical Electronics
      • Semiconductor Device Engineering
      • Analog Electronic Circuits

    • Related laboratories

      • Nanomaterials Laboratory
      • Communication Systems Laboratory
      • Laser Information Laboratory
      • Nanosystems Application Laboratory
      • Information Photonics Laboratory

02 Autonomous Driving and Mobility Services

Monitoring the inside and surroundings of the vehicle and processing signals. Realizing autonomous driving through communication technology and artificial intelligence.

Learning in the Department

  • 1. Satellite communications
    Technology to check surrounding conditions and facilitate vehicle-to-vehicle and road-to-vehicle communication

    • Related subjects

      • Wireless Communication Engineering
      • Communication Method I, II
      • Information and Communication Systems Fundamentals
      • Laser Engineering
      • Systems Engineering

    • Related laboratories

      • Communication Systems Laboratory
      • Laser Information Laboratory
      • Information and Communication Research Lab
      • Electromagnetic Compatibility Laboratory

  • 2. Image Processing
    Technology that captures the movements of pedestrians and obstacles around the vehicle

    • Related subjects

      • Digital Signal Processing
      • Sensor Engineering
      • Programming and related exercises

    • Related laboratories

      • Multimedia Information Laboratory
      • System Control Laboratory

  • 3. Automatic control
    Technology to steer and stop vehicles safely

    • Related subjects

      • Digital Signal Processing
      • Control Engineering
      • Systems Engineering
      • Computer Systems
      • Analog Electronic Circuits

    • Related laboratories

      • System Control Laboratory
      • Software Systems Laboratory
      • Super Bio-Robotics Laboratory

  • 4. Artificial Intelligence (AI)
    Technology that enables accident-free driving through decisions based on big data

    • Related subjects

      • Systems Engineering
      • Sensor Engineering
      • Computer Systems
      • Computer Architecture
      • Programming and related exercises

    • Related laboratories

      • AI Physics and Engineering Laboratory
      • Software Systems Laboratory
      • Multimedia Information Laboratory
      • Information Photonics Laboratory

03 Smart Grid and Smart Infrastructure

We will reconstruct the existing power grid and use IT technology to grasp real-time energy demand and transmit electricity efficiently. We will also utilize renewable energy.

Learning in the Department

  • 1.Energy monitoring
    Technology for accurately monitoring power supply and consumption

    • Related subjects

      • Wireless Communication Engineering
      • Sensor Engineering
      • Systems Engineering
      • Electronic Circuit Design
      • Digital Electronic Circuits

    • Related laboratories

      • Communication Systems Laboratory
      • Nanomaterials Laboratory

  • 2. Systems Engineering
    Technology that considers the balance and realizes the optimal electricity supply and demand relationship

    • Related subjects

      • Systems Engineering
      • Computer Systems
      • Transmission Theory
      • Control Engineering
      • Analog Electronic Circuits

    • Related laboratories

      • Software Systems Laboratory
      • Information and Communication Research Lab
      • Electromagnetic Compatibility Laboratory
      • Super Bio-Robotics Laboratory

  • 3. Wireless Power Supply
    Technology for wirelessly transmitting and supplying power

    • Related subjects

      • Communication Method I, II
      • Wireless Communication Engineering
      • Laser Engineering
      • Electromagnetism II, III

    • Related laboratories

      • Information and Communication Research Lab
      • Laser Information Laboratory
      • Electromagnetic Compatibility Laboratory

  • 4. Solar power generation
    Materials and device development to enable highly efficient power generation

    • Related subjects

      • Semiconductor Device Engineering
      • Semiconductor Device Fundamentals
      • Digital Electronic Circuits
      • Analog Electronic Circuits
      • Optical Electronics

    • Related laboratories

      • Nanomaterials Laboratory
      • Information Photonics Laboratory
      • Nanosystems Application Laboratory

04 Smart Medical Care and Healthcare

We will promote health promotion and disease prevention through information collection by wearable sensors and diagnosis based on big data analysis. We will also realize more efficient medical care through the sharing of health management and medical information.

Learning in the Department

  • 1. Biosensors
    Technology to constantly measure health conditions using wearable sensors

    • Related subjects

      • Semiconductor Device Fundamentals
      • Semiconductor Device Engineering
      • Electronic Circuit Design
      • Digital Electronic Circuits
      • Analog Electronic Circuits

    • Related laboratories

      • Nanomaterials Laboratory
      • Laser Information Laboratory
      • Nanosystems Application Laboratory
      • Information Photonics Laboratory

  • 2.Anomaly detection and diagnosis
    Technology that detects abnormalities from observed data, infers their causes, and notifies users as soon as possible

    • Related subjects

      • Sensor Engineering
      • Digital Signal Processing
      • Systems Engineering
      • Laser Engineering

    • Related laboratories

      • System Control Laboratory
      • Software Systems Laboratory
      • Super Bio-Robotics Laboratory
      • Laser Information Laboratory
      • Information Photonics Laboratory

  • 3. Network
    Technology that connects sensors, computers, robots, and the cloud

    • Related subjects

      • Network Engineering
      • Computer Systems
      • Information and Communication Systems Fundamentals
      • Optical Electronics

    • Related laboratories

      • Communication Systems Laboratory
      • Software Systems Laboratory
      • Laser Information Laboratory
      • Multimedia Information Laboratory
      • Electromagnetic Compatibility Laboratory

  • 4. Robotics
    Technology to assist and reduce the burden of medical procedures, such as remote surgery and rehabilitation support by master slaves

    • Related subjects

      • Systems Engineering
      • Control Engineering
      • Semiconductor Device Engineering
      • Digital Electronic Circuits
      • Electronic Circuit Design

    • Related laboratories

      • Super Bio-Robotics Laboratory
      • System Control Laboratory
      • Nanomaterials Laboratory
      • Multimedia Information Laboratory

05 Smart Disaster Prevention

It monitors surrounding information in real time and predicts disasters using signal processing and artificial intelligence. It also shares disaster and safety information.

Learning in the Department

  • 1. Satellite communications
    Technology to accurately collect information on abnormal weather, natural disasters, etc.

    • Related subjects

      • Wireless Communication Engineering
      • Communication Method I, II
      • Information and Communication Systems Fundamentals
      • Laser Engineering
      • Systems Engineering
      • Signals and Systems

    • Related laboratories

      • Communication Systems Laboratory
      • Laser Information Laboratory
      • Information and Communication Research Lab
      • Electromagnetic Compatibility Laboratory

  • 2. Wireless communication
    Technology for efficiently collecting and disseminating disaster and disaster prevention information

    • Related subjects

      • Communication Method I, II
      • Wireless Communication Engineering
      • Information and Communication Systems Fundamentals
      • Network Engineering
      • Signals and Systems

    • Related laboratories

      • Information and Communication Research Lab
      • Communication Systems Laboratory
      • Electromagnetic Compatibility Laboratory

  • 3. Network
    Technology that connects sensors, computers, robots, and the cloud

    • Related subjects

      • Network Engineering
      • Computer Systems
      • Information and Communication Systems Fundamentals
      • Optical Electronics

    • Related laboratories

      • Communication Systems Laboratory
      • Software Systems Laboratory
      • Laser Information Laboratory
      • Multimedia Information Laboratory
      • Electromagnetic Compatibility Laboratory

  • 4. Artificial Intelligence (AI)
    Technology to prevent disasters before they occur by making decisions based on big data

    • Related subjects

      • Systems Engineering
      • Sensor Engineering
      • Computer Systems
      • Computer Architecture
      • Programming and related exercises
      • 4. Data Analysis
      • AI and Machine Learning

    • Related laboratories

      • AI Physics and Engineering Laboratory
      • Software Systems Laboratory
      • Multimedia Information Laboratory
      • Information Photonics Laboratory

FeatureFeatures

This department focuses on electronic engineering, and allows students to systematically learn elemental technologies in the specialized fields of communication and information, as well as systems engineering to organically integrate these to build systems. We aim to train engineers who can create advanced systems to realize a comfortable, safe and secure "ultra-smart society."

  1. Improving the quality of education through various initiatives

    Active learning and PBL are actively incorporated into classes to improve the quality of education. We provide grade distribution graphs, publish class objectives and grade comments, and hold classes taught by alumni, and offer classes to broaden students' perspectives not only to professional knowledge but also to careers and the industrial world. All students are provided with microcontrollers and sensors, so they can program and design their own IoT systems and create them.

  2. Active academic and research activities

    We conduct a variety of research, including the creation of functional materials using large-scale high-tech equipment, research into the development of IoT devices, and research into creating hardware and intelligently controlling it with software. Many of our projects have been selected for national project budgets, and large-scale research is thriving. With a wide range of graduation research themes that combine hardware and software, it is possible to conduct high-level graduation research with the aim of continuing on to university.

  3. Outstanding employment rate

    This department maintains a high employment rate, with over 70% of students finding employment at medium-sized and large companies. In the third and fourth years, students can choose from four courses to study cutting-edge curricula and improve their expertise.
    Graduates go on to find employment in a wide range of fields, including major electronics and automobile manufacturers, major general contractors involved in electrical equipment construction, and software-related companies.

ContentsList of each department's contents

Three Policies of the Department of Electronics and Information Systems Engineering

FacilityFacility Introduction

  • An intelligent campus towering over Omiya.

    Equipped with the latest high-tech equipment, our intelligent campus is home to nine departments. In an environment where students can focus on cutting-edge research, each student acquires the skills and knowledge to create something from scratch.

    View the Omiya Campus
    Images from the Omiya campus

ContactInquiries and Access

Images from the Omiya campus

Faculty of Engineering of Department of Electronics and Information Systems Engineering Office , Omiya Campus, Building 4, 4th floor

Tel:06-6954-4286
Fax:06-6957-2136

Reception hours: Weekdays 9:00-17:00
Please note that it may take some time to respond to inquiries during the summer and winter holidays.

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Department of Electronics and Information Systems Engineering SNS

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