佐藤 未来子

Sato Mikiko

  • 准教授
  • 学位:博士(工学)

基本情報

所属

  • Undergraduate School of Information and Telecommunication Engineering / Department of Information and Telecommunication Engineering
  • Undergraduate School of Information and Telecommunication Engineering / Department of Embedded Technology
  • Graduate School of Information and Telecommunication Engineering / Course of Information and Telecommunication Engineering

詳細情報

論文

Implementation of a Fine-Grained Logging System for ROS2 Applications

Using Dominated Solutions at Edges to the Diversity and the Uniformity of Non-dominated Solution Distributions in NSGA-II

Layer Modeling and Its Code Generation based on Context-oriented Programming.

Inconstant Update of Reference Point Value for Parallel and Distributed MOEA/D.

Parallel and Distributed MOEA/D with Exclusively Evaluated Mating and Migration.

Prototype of FPGA Dynamic Reconfiguration Based-on Context-Oriented Programming.

Design and Development of Networked Multiple FPGA Components for Autonomous Tiny Robot Car.

Distributed NSGA-II Sharing Extreme Non-dominated Solutions for Improving Accuracy and Achieving Speed-up.

Assessment Map for Multidisciplinary Abilities for IoT System Development Education based on a Robot Contest

Evaluation of Simultaneously Optimizing Multiple Models in Vehicle Design using Distributed NSGA-II Sharing Extreme Non-dominated Solutions

Distributed NSGA-II Sharing Extreme Non-dominated Solutions for Constrained Knapsack Problems

Effects of Duplication Operator in Evolutionary Simultaneous Design Optimization of Multiple Cars.

Multidisciplinary skill assessment for embedded software development education via a robot contest.

Compulsory Game based Robot Contest for Embedded System Development Education.

Distributed NSGA-II sharing extreme non-dominated solutions.

Distributed NSGA-II using the Divide-and-Conquer Method and Migration for Compensation on Many-core Processors

Distributed NSGA-II with migration using compensation on many-core processors for improving performance and accuracy.

Low-power distributed NoSQL database for IoT middleware

An Operating System Guided Fine-Grained Power Gating Control Based on Runtime Characteristics of Applications.

A Fine-Grained Power Gating Control on Linux Monitoring Power Consumption of Processor Functional Units.

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