SDM e-Learning システム

慶應義塾大学大学院 システムデザイン・マネジメント研究科
2015年度秋学期 授業シラバス
KEIO UNIVERSITY GRADUATE SCHOOL OF SYSTEM DESIGN AND MANAGEMENT
Syllabus for Fall semester 2015


システムデザイン・マネジメント実習 (英) / PRACTICE OF SYSTEM DESIGN AND MANAGEMENT

担当教員
Instructor
神武 直彦、平松 崇、白坂 成功、山浦 秀作、戸梶 歩
開講日程
Date and Slot
-


前提科目・関連科目
Prerequisite or Related Course
    SDM Introduction, Project Management
履修条件
Course Requirements
    none
開講場所
Class Room
    (未定)
授業形態
Type of Class
    lectures, exercises, and group works
キーワード
Keyword
    strategic systems engineering, hand-on experience, group works, concept of operations, requirement design
授業に関する連絡先
Contact Address for Inquiry Regarding the Course
    kohtake@sdm.keio.ac.jp
科目概要(詳細)
Course Description
    This course covers fundamentals of modern strategic systems engineering(SE). Starting from the context analysis to identify interaction among customers/users, stakeholders and natural/social environment, the course includes salient features of the Systems Engineering such as requirement analysis, functional/physical analysis, evaluation procedures and trade-off, work breakdown structures (WBS), and risk/life-cycle analysis. This also covers history of the Systems Engineering and Systems Engineering Professional (CSEP) conducted by International Council on Systems Engineering (INCOSE).

    The target system in this lecture is CanSat is a simulation of a real satellite, integrated within the volume and shape of a regular soft drink can.








主題と目標/授業の手法など
Objective and Method of the Course
    First two lectures, based on the textbook, fundamental concept, approaches and methodologies are explained. The lectures will place emphasis on concept of operations (CONOPS), requirement analysis and its verification planning with exercises and group discussions. The remaining will be devoted to group work practice to develop a robot-cleaner maneuvering system to be operated remotely with help of a ICT-based control system. The objective of this course is to cover fundamentals of modern strategic systems engineering(SE). Starting from the context analysis to identify interaction among customers/users, stakeholders and natural/social environment, the course includes salient features of the Systems Engineering such as requirement analysis, functional/physical analysis, evaluation procedures and trade-off, work breakdown structures (WBS), and risk/life-cycle analysis.
教材・参考文献
Textbooks and References
    Textbook:
    1)Forsberg et al, Visualizing Project Management, 2006
    2)INCOSE Systems Engineering Handbook, Ver. 3.2a, 2010
    References
提出課題・試験・成績評価の方法など
Assignment, Exam and Grading Details
    Reports and attendance, and participation to group works
履修上の注意
Notification for the Students
    The goal of this course is to provide the students with systems engineering methods proposed by INCOSE, one of the major organizations in the field.
e-learning開講の有無
Availability on e-learning System
    e-learningを開講しない
授業計画
Course Schedule

    No.1 2015/09/26 09:00-10:30 Orientation@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Explanation of course syllabus and overview of systems engineering. Proposals concerning the implementation method of the CanSat system are handed in.

    No.2 2015/09/28 19:00-20:30 Introduction to CANSAT@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Professor Nakasuka explains CANSAT overview to help students understand CANSAT system.

    No.3 2015/10/05 16:30-18:00 Introduction to Systems Engineering@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Professor Kohtake explains systems engineering and help students understand CANSAT system from systems engineering point of view.

    No.4 2015/10/12 16:30-18:00 Introductory Project - No.1@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#1)

    No.5 2015/10/19 16:30-18:00 Introductory Project - No.2@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#2)

    No.6 2015/10/26 16:30-18:00 Introductory Project - No.3@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#3)

    No.7 2015/11/02 16:30-18:00 Introductory Project - No.4@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#4)

    No.8 2015/11/09 16:30-18:00 Introductory Project - No.5@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#5)

    No.9 2015/11/24 16:30-18:00 Introductory Project - No.6@C3S10「実務家」 (By N.Kohtake, S.Shirasaka)
    Before staring CANSAT development project, we will give students 6 lectures and hands-on classes to introduce basic knowledge of electrical parts and mbed micro-controller. (#6)



    [Support Material]

    Supplemental Video (Intro to SE)

    Supplemental Video (Requirement Analysis)

    ( login ; sdm / password : management )

    No.10 2015/11/30 19:00-20:30 Mission Definition Review (MDR)@C3N14 (By N.Kohtake, S.Shirasaka)
    The MDR examines the proposed requirements, the mission architecture, and the flow down to all functional elements of the mission to ensure that the overall concept is complete, feasible, and consistent with available resources. (NASA systems engineering handbook)



    [Support Material]

    Supplemental Video (Architecture Design)

    ( login ; sdm / password : management )

    No.11 2015/12/07 16:30-18:00 Pre-Preliminary Design Review (PDR)@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Unofficial and interim review meeting for official PDR.

    No.12 2015/12/14 19:00-20:30 Preliminary Design Review (PDR)@C3N14 (By N.Kohtake, S.Shirasaka)
    The PDR demonstrates that the preliminary design meets all system requirements with acceptable risk and within the cost and schedule constraints and establishes the basis for proceeding with detailed design. (NASA systems engineering handbook)

    No.13 2015/12/21 16:30-18:00 Pre-Critical Design Review (CDR)@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    Unofficial and interim review meeting for official CDR.

    No.14 2016/01/04 19:00-20:30 Critical Design Review (CDR)@C3N14 [No Archive] (By N.Kohtake, S.Shirasaka)
    The purpose of the CDR is to demonstrate that the maturity of the design is appropriate to support proceeding with full scale fabrication, assembly, integration, and test, and that the technical effort is on track to complete the flight and ground system development and mission operations to meet mission performance requirements within the identified cost and schedule constraints. (NASA systems engineering handbook)

    No.15 2016/01/18 16:30-18:00 Launch Readiness Review(LRR)@C3N14「実務家」 (By N.Kohtake, S.Shirasaka)
    The LRR examines tests, demonstrations, analyses, and audits that determine the system’s readiness for a safe and successful flight or launch and for subsequent flight operations. It also ensures that all flight and ground hardware, software, personnel, and procedures are operationally ready. (NASA systems engineering handbook)

    No.16 2016/02/01 16:30-18:00 Final Flight Test Data Review@C3N14「実務家」
    Data taken during the flight test are analyzed and presented. Lessons learned also should be included.



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