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Applied Systems Engineering for Logisticians Training

Applied Systems Engineering for Logisticians Training

Applied Systems Engineering for Logisticians Training:

Applied Systems Engineering for Logisticians Course – Hands-on

Applied Systems Engineering for Logisticians training will present the fundamentals of a systems engineering approach to solving complex problems. Applied Systems Engineering for Logisticians training covers the underlying attitudes as well as the process definitions that makeup systems engineering. The model presented will be a research-proven combination of the best existing standards. Stay current and build your systems engineering expertise with our Applied Systems Engineering for Logisticians.

Applied Systems Engineering (SE) for Logisticians covers a methodical and disciplined approach to the specification, design, development, realization, technical management, operations, and retirement of a system. A system is an aggregation of system elements and enabling system elements to achieve a given purpose or provide a needed capability. The enabling system elements provide the means for delivering a capability into service, keeping it in service, or ending its service, and may include those processes or products necessary for developing, producing, testing, deploying, and sustaining the system.

Logisticians analyze and coordinate an organization’s supply chain. Applied Systems Engineering (SE) for logisticians identifies the role of logisticians in the engineering discipline to integrate all the key elements of a system into one overall system and manage it throughout its lifecycle from cradle to grave. Systems engineering focuses on the overall development process of a system that is based on established processes, documented needs, and traceable communications or interactions among the customers, users, engineers, and other stakeholders.

Learn About:

  • Systems engineering practices
  • Terms and methods
  • System life cycles used by INCOSE, DoD, and NASA
  • Requirements generation
  • Trade studies
  • Architectural practices
  • Functional allocation
  • Verification/validation methods
  • Requirements Determination
  • Risk management
  • Evaluating specialty engineering contributions
  • Importance of integrated product and process teams
  • Aerospace systems engineering training is delivered in the form of hands-on training that includes labs, group activities, real-world case studies, and hands-on workshops.

Your Registration Includes

  • 3 days of Applied Systems Engineering for Logisticians Training with an expert instructor
  • Applied Systems Engineering for Logisticians Electronic Course Guide
  • 100% Satisfaction Guarantee
  • Certificate of Completion

Resources:

Related Courses

Customize It:

  • If you are familiar with some aspects of Applied Systems Engineering for Logisticians Training, we can omit or shorten their discussion.
  • We can adjust the emphasis placed on the various topics or build the Applied Systems Engineering for Logisticians Training course around the mix of technologies of interest to you (including technologies other than those included in this outline).
  • If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Applied Systems Engineering for Logisticians Training course in a manner understandable to lay audiences.

Audience / Target Group:

The target audience for this Applied Systems Engineering for Logisticians Training course:

  • Personnel working in any sort of system development, project leaders and In-Service representatives, key technical members in a product development team, personnel needing familiarity with practical and currently applicable SE methods to facilitate Government oversight: Acquisition Logisticians and Logisticians providing design interface product support, RAM, and Configuration Management.

Objectives:

Upon completing this Applied Systems Engineering for Logisticians Training course, learners will be able to meet these objectives:

  • Explore a wide range of modern systems engineering principles and development methodologies
  • Address applied requirements engineering, systems definition, design and analysis, preferred system alternative, implementation, operation, technical management, and leadership to logistics
  • Model Systems engineering processes provide a model for successfully managing complex logistics systems
  • Learn to apply management and development techniques used for successful logistics programs
  • Learning applied logistics techniques for modeling and simulation focuses on problem formulation, conceptual modeling, simulation methodologies, verification and validation, DOE, simulation execution, and output analysis
  • Learn about tools and process of converting information about needs and requirements into a complete specification
  • Application of working knowledge of systems engineering techniques applied to a “case study” in an application domain.
  • Understand system-engineering trades in designing logistics systems and systems of systems
  • Explore logistics Information principles and Systems Preliminary Design
  • Explain Human Systems Integration Analysis and Synthesis including human-related technical issues and solutions during system definition, design, development, and implementation
  • Explore Complex Logistics System Lifecycle and Integration
  • Apply methods and techniques taught throughout the program to conduct complex logistics system Conceptual Design based on requirements

Course Syllabus:

Definition of Systems Engineering (SE)

  • Requirements Development, Management, and Control (ICD, CDD, JCIDS Process, KPP, CONOPS)
  • Develop Systems Engineering Plan
  • Develop and Establish SE Tools and Resources (Modeling & Simulation)
  • Verification and Validation
  • Technical Planning
  • Configuration Management
  • Configuration Baselines
  • Life-Cycle Integration
  • Functional and Physical Architectures
  • Milestone & Program Reviews (Milestones, Milestone Requirements Matrix, Major Reviews, SRR, SVR)
  • Interface Management
  • Risk Management
  • System Safety Engineering
  • Trade Studies
  • Quality Assurance
  • Communication with Program Management
  • Systems Engineering Process

Why Logisticians Shall Know about Systems Engineering?

  • Value of Systems Engineering
  • DoD Policy
  • What is Systems Engineering
  • Few Definitions and Key Principles
  • Technical Processes
  • Feasibility Study/Concept Exploration
  • Concept of Operations
  • System Requirements
  • System Design
  • Software/Hardware Development and Testing
  • Integration and Verification
  • Initial Deployment
  • System Validation
  • Operations and Maintenance
  • Systems Engineering Metrics for Logisticians
  • Overview of System Reliability, Availability, and Maintenance
  • Retirement/Replacement

Overview of Integrated Product Support (IPS)

  • Product Support Management
  • Tools to Plan, manage, and fund weapon system product support across all Integrated
  • Product Support (IPS) Element
  • Design Interface
  • Sustaining Engineering
  • Maintenance Planning & Management
  • Manpower and Personnel
  • Supply Support
  • Support Equipment
  • Technical Data
  • Training and Training Support
  • Computer Resources Support
  • Facilities and Infrastructure

Systems Engineering Project Purpose and Scope

  • Concept of Operations (ConOps) and Analysis
  • Procurement
  • Master Spec Document
  • User-Oriented Operational Description
  • How Does the Existing System Work?
  • Existing Architecture and Infrastructure
  • Limitations of the Existing System
  • System Improvement
  • Traceability Matrix (System Requirements)
  • Verification Plans
  • Validation Plans
  • Operational Needs
  • Monitoring and Control
  • Performance Reporting
  • Performance Measurement
  • System Operation
  • Maintenance
  • Logistics

Applied Systems Engineering for Logisticians

  • Project Management Processes
  • Project Planning
  • Project Monitoring and Control
  • Risk Management
  • Configuration Management
  • Applying Systems Engineering
  • The Traditional Project Life Cycle and Systems Engineering
  • Applying Systems Engineering in Your Project
  • DoD and NASA Systems Engineering References
  • Operations
  • Cost & Schedule
  • Performance
  • Training & Support
  • Test
  • Manufacturing
  • Disposal
  • Program, Project, and System Views
  • Statement of Objectives
  • Roles and Responsibilities
  • Procurement Plan
  • Request For Information (RFI)
  • Industry Review of Requirements
  • Request For Qualifications (RFQ)
  • Request For Proposals (RFP)
  • Low-Bid
  • Market Research Approach
  • Procurement and Verification References
  • Sole Source Procurement
  • Systems, System of Systems (SoS) and Systems Engineering Principles
  • Modern Systems Engineering Principles
  • Verification and Validation Plans
  • Systems Thinking Principals
  • Systems Engineering Models
  • A System Case Study
  • Systems Engineering Process for Logisticians
  • Requirements Engineering Applied
  • Logistics & Supply Management Integrated Product Support (IPS)
  • Where Do Requirements Come From?
  • Systems Analysis and Design
  • Ensuring System Quality
  • Analysis and Synthesis
  • IPS Analysis and Synthesis
  • IPS Systems of Systems and Architectures
  • IPS Lifecycle and Integration

Wrap-up – Applied Systems Engineering for Logisticians Training

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