Will “Fuel-Efficient Automobile Designer” be Replaced By Robots? 🤔

Job Description

Develop new or improved designs for vehicle structural members, engines, transmissions, or other vehicle systems, using computer-assisted design technology. Direct building, modification, or testing of vehicle or components.

Job Details

• The SOC (Standard Occupational Classification) code is 17-2141.02

☝️ Information based on the reference occupation “Automotive Engineers”.

Also Known As…

• Automotive Engineers
• Technical Specialist
• Technical Services Manager
• Senior Project Engineer
• Senior Engineering Team Leader
• Product Engineer
• Director, Product Safety
• Director of Engineering, Quality & Program Management.
• Dimensional Integration Engineer
• Development System Efficiency Manager
• Chief Engineer
• Vehicle Controls Engineer
• Quality Engineer
• Quality Assurance Engineer
• Powertrain Engineer
• Powertrain Control Systems Engineer
• Low-Emission Automobile Designer
• Hybrid Powertrain Development Engineer
• Engineering Manager
• Automotive Project Engineer
• Automotive Power Electronics Engineer
• Automotive Engineer
• Automotive Designer

Tasks for “Fuel-Efficient Automobile Designer”

• Perform failure, variation, or root cause analyses.
• Alter or modify designs to obtain specified functional or operational performance.
• Design vehicles that use lighter materials, such as aluminum, magnesium alloy, or plastic, to improve fuel efficiency.
• Calibrate vehicle systems, including control algorithms or other software systems.
• Conduct or direct system-level automotive testing.
• Create design alternatives for vehicle components, such as camless or dual-clutch engines or alternative air-conditioning systems, to increase fuel efficiency.
• Design vehicles for increased recyclability or use of natural, renewable, or recycled materials in vehicle construction.
• Develop calibration methodologies, test methodologies, or tools.
• Build models for algorithm or control feature verification testing.
• Research computerized automotive applications, such as telemetrics, intelligent transportation systems, artificial intelligence, or automatic control.
• Provide technical direction to other engineers or engineering support personnel.
• Conduct research studies to develop new concepts in the field of automotive engineering.
• Conduct automotive design reviews.
• Develop or integrate control feature requirements.
• Develop or implement operating methods or procedures.
• Write, review, or maintain engineering documentation.
• Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new automotive technology or competitive products.
• Design or analyze automobile systems in areas such as aerodynamics, alternate fuels, ergonomics, hybrid power, brakes, transmissions, steering, calibration, safety, or diagnostics.
• Develop specifications for vehicles powered by alternative fuels or alternative power methods.
• Develop engineering specifications or cost estimates for automotive design concepts.
• Research or implement green automotive technologies involving alternative fuels, electric or hybrid cars, or lighter or more fuel-efficient vehicles.
• Prepare or present technical or project status reports.
• Design control systems or algorithms for purposes such as automotive energy management, emissions management, or increased operational safety or performance.
• Establish production or quality control standards.
• Coordinate production activities with other functional units, such as procurement, maintenance, or quality control.

Related Technology & Tools

• Climate test chambers
• Wind tunnels
• Plasma cutters
• Gas analyzers
• Sand blasters
• Oxygen analyzers
• Spectrometers
• Hydraulic presses
• Metal inert gas MIG welders
• Pressure transducers
• Miliohm meters
• Engine test dynamometers
• Bench grinders
• Hydrogen analyzers
• Three-dimensional prototyping printer
• Strain gauges
• Computerized numerical control CNC lathes
• Pressure gauges
• Transmission dynamometers
• Carbon dioxide analyzers
• Thermocouples
• Hydraulic hoists
• Multitasking lathes
• Three-axis vertical mills
• Rotary vehicle lifts
• Digital cameras
• Floor drill presses
• Torque gauges
• Welders
• Hydraulic winches
• Anechoic chambers
• Vertical bandsaws
• Laminar flow elements
• Five-axis machining centers
• Bench drill presses
• Disc finishing machines
• Spectroscopes
• Horizontal band saws
• Pressure indicators
• Workshop cranes
• Overhead cranes
• Air compressors

• Ashlar-Vellum Graphite
• Siemens PLM Software NX
• Linux
• Python
• Gamma Technologies GT-SUITE
• Altair Engineering MotionSolve
• Statistical analysis software
• Dassault Systemes Simulia Abaqus FEA
• Siemens PLM Software Solid Edge
• Ambient Design ArtRage
• Maplesoft Maple
• Metrologic Group Metrolog XG
• Dassault Systemes CATIA
• Microsoft PowerPoint
• ANSYS
• Structured query language SQL
• Extensible markup language XML
• Adobe Systems Adobe Photoshop
• CNC Mastercam
• Oracle Java
• Maplesoft MapleSim
• Data acquisition systems
• Microsoft Office
• LMS Imagine.Lab AMESim
• Autodesk Inventor
• Corel Painter Sketch Pad
• Microsoft Word
• Minitab
• ANSYS FLUENT
• Practical extraction and reporting language PERL
• CADRE Analytic
• Autodesk AutoCAD Mechanical
• MAHLE Powertrain
• GNU Image Manipulation Program GIMP
• Autodesk AutoCAD
• IBM Notes
• Autodesk SketchBook Pro
• Portalgraphics openCanvas
• Digital Equipment Corporation DIGITAL Fortran 90
• Microsoft Excel
• SoMat eDAQ
• C
• C++
• Dassault Systemes SolidWorks
• Microsoft Visual C#
• IronCAD
• Mentor Graphics Flowmaster
• Ride simulators
• Computer aided design CAD software
• JavaScript
• Very high speed integrated circuit VHSIC hardware description language VHDL
• Hardware-in-the-loop HIL simulation software
• UNIX
• Autodesk Alias Automotive
• Corel Painter
• AVL AVL CRUISE
• Think3 ThinkDesign Engineering
• The MathWorks Simulink