Zero Trust Architecture Patterns for Cyber-Physical Systems
World Transmissions for the 1990 Truck Market
Will the Real Solution Please Stand Up
What is System Engineering? Its Utility in Innovation Processes
Virtual Verification of Wrecker Tow Requirements
Verification and Validation of Physical Plant Models
Vehicle Level Validation Test Procedures for V2V Safety Communications
Vehicle Electronic Systems Integration
Vehicle Brake Performance Assessment Using Subsystem Testing and Modeling
Validating Heavy-Duty Vehicle Models Using a Platooning Scenario
Using Vehicle Specifications to Gain Insights into Different Automotive Market Requirements
Using SCADE System for the Design and Integration of Critical Systems
Using Model-Based Security Engineering in the Development of Complex Aircraft Cabin Systems
Using Model-Based Design to Accelerate FPGA Development for Automotive Applications
Use of Simulation on a J-1850 Network
Unmanned Systems (UxS) Control Segment (UCS) Architecture: Rhapsody Version of UCS ICD Model
Unmanned Systems (UxS) Control Segment (UCS) Architecture: Architecture Description
Unmanned Systems (UxS) Control Segment (UCS) Architecture: Architecture Description
Tolerating Arbitrary Node Failures in the Time-Triggered Architecture
Three Zone Permanent Magnetic Structures and Their Applications
The Use of Human Modeling of EVA Tasks as a Systems Engineering Tool
The Use and Understanding of System Engineering by Management
The Tower of Babel:Language and Meaning in System Engineering
The Systems Approach to Space Facilities Management
The Systems Approach to Product Failure Prevention
The State of Systems Engineering Adoption in the Automotive Industry
The Semantic Web and Space Operations
The Role of Safety Critical Architecture in an Evolving Ecosystem
The Road to Developing a World Class Automotive Systems Engineering Capability
Thermophysical Characteristics of Working Fluids and Heat Transfer Fluids
THERMOPHYSICAL CHARACTERISTICS OF WORKING FLUIDS AND HEAT TRANSFER FLUIDS
Thermal Analysis of a Powertrain Control Module
The Reverse Engineering of a Turbocharged Diesel Engine through a Unified Systems Approach
The Phases of Systems Engineering at INPE
The Optimization of the Light-Duty Automotive Fleet for Cost Effective Fuel Efficiency
The New Product Development Paradigm Led by Simulation and Testing
The Need for Systems Engineering Within the Heavy Duty Vehicle Industry