Department of Systems, Control and Information Engineering

Training engineers with broad knowledge

The Department of Systems, Control and Information Engineering integrates various elements (parts) generated by mechanical and electrical technologies, such as robots, that are advancing every day as a system using computer technology and controls them as desired. The purpose is to develop engineers who can do it. Students learn a wide range of disciplines of mechanical engineering, electrical engineering, and information engineering for 5 years with the keyword "making computer-centric systems".

The content of learning programming knowledge, skills, and skills is carried out in many areas of specialized subjects, from hands-on workshops to manufacturing in the computer world, hands, feet, fingertips, Students will learn through hands-on training and experiments how to make use of all of their brains.

Educational goals and curriculum composition policy

Schedule and syllabus

Graduation research list

The Department of Systems, Control and Information Engineering will study the fundamentals of the three fields of computer science, mechanical engineering, and electrical and electronic engineering ahead of the era without narrowing down the specialty, and will fuse these. We worked on the foundation of technology, and in the graduation research in the fifth grade, we proceeded with graduation research in 2017 under the following themes.

  • Development of communication system for cylinder expansion/contraction detector using CAN
  • Cylinder expansion/contraction detector control system
  • Trial production of microcomputer car for teaching materials
  • Proposal of next-generation visual support system using smart glasses
  • High crystallization of vertically aligned CNTs by optimizing growth conditions
  • Trial fabrication of CNT-Si solar cell using FeMo as catalyst
  • Establishment of conditions for nanographene formation catalyzed by Fe/Al2O3 composite
  • Structural Change of Spheroidal Graphite Cast Iron by Thickness, Region and Composition
  • Development and evaluation of U-shaped eddy current test probe
  • Production of a cyclic tensile and compressive strain imparting test device for stainless steel tubes
  • Development of Image Measurement System for Estimating Displacement and Strain of Tensile Specimen
  • Realization of attitude control of multicopter using single board computer
  • Multicopter operation support system using wireless LAN
  • Breakthrough in Energy-Saving Drive of Flexible Manipulator
  • FF/FB Integrated Control Strategy for Positioning Control of Smart Structures
  • Proposal of a challenging control method for uncontrollability of swiveling cranes
  • Intelligent Control Method of Free Joint Robot Arm
  • A Trial of Information Technology Introduction Education for Elementary and Junior High School Students-U-16 Asahikawa Programming Contest-
  • Agricultural meteorological observation system using wireless communication microcomputer
  • Inverse Kinematics Calculation of Super Redundant Robot-B3M Servo Arm and Control of Super Redundant Robot-
  • Evaluation of accuracy of finite element analysis free software dynamic analysis
  • Effective operation of LMS and development of statistical plugin for smart devices
  • Development of timetable application with class subject confirmation function using Xamarin
  • Development of Internal Defect Discriminator Using Near-Infrared Transmission Spectrum Analysis
  • Production of radio control system using TWE-Lite
  • Manufacturing of autonomous electric mower
  • Development of Humanoid Robot Control System Utilizing VR Technology
  • Multi-surveillance camera system using Raspberry Pi
  • Development of data glove with haptic feedback function
  • Realizing Pepper's Autonomous Movement with SLAM

Department in charge: Department of System Control and Information Engineering

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