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Overview of Multiple Input Power Steering
Software Engineering CSE 435Michigan State University
Fall 2014
Team members:Project Manager: Gregory Andrew RichardFacilitator: Weilong LiCustomer Liason: John Hayes AdamsConfiguration Manager: Timothy David SlonczSafety Engineer: Evan Michael Swinehart
Customer: Mr. Anthony TorreInstructor: Dr. Betty H.C. Cheng*
*Please direct all inquiries to the instructor.
• System provides the ability of Autonomous Steering with an override capability to allow Normal Control of the vehicle.
• Motivation for project– Proximity Sensors, Torque Sensors,
Interpolation Table, and various system checks.
– Traffic Jam Assist, Park Assist, Lane Correction Assist, and Emergency Object Avoidance Assist.
Project Overview
• Ramp down Autonomous Control upon the driver applying torque.
• Override Autonomous Control.
• Ability to update software.
• Secure data transfer through CAN bus.
• Alert user up upon failure.
Overview of Features
• Investigated CAN bus and power steering controller
• Needed to apply domain knowledge on ECU communications and how a power steering system operates
• Project Constraints– Safety override– System security– Communication Speed
Domain Research
Part II: Model-based View of System
Part II: Secenario
UI Prototype: Sensor Failure
Part II: Scenario 2
UI Prototype: Autonomous Torque
Part II: Scenario 3
UI Prototype: Driver Override
• We gratefully acknowledge and appreciate the participation of our customer, Mr. Anthony Torre from Chrysler.
Acknowledgements