Bachelor of Science (B.S.) Major in Industrial Engineering | Texas State University

Skills & Competencies

Skills developed through this program

Auto-populatedfrom O*NET via SOC 17-2112.00

Skills

Critical ThinkingActive ListeningReading ComprehensionComplex Problem SolvingSpeakingWritingMonitoringSystems Evaluation

Knowledge

Engineering and TechnologyProduction and ProcessingMechanicalDesignEnglish Language

Abilities

Oral ComprehensionWritten ComprehensionOral ExpressionWritten ExpressionDeductive ReasoningInductive ReasoningProblem SensitivityInformation OrderingNear VisionCategory Flexibility

Tasks

Estimate production costs, cost saving methods, and the effects of product design changes on expendi
Plan and establish sequence of operations to fabricate and assemble parts or products and to promote
Analyze statistical data and product specifications to determine standards and establish quality and

Technology

Analytical or scientific softwareIndustrial control softwareComputer aided design CAD softwareObject or component oriented development softwareComputer aided manufacturing CAM software

Tools

Anechoic auditory test chambersAnthropometersAudio amplifiersAudio equalizersAudio tape recordersAudiometersCamera controllersComputer serversCoordinate measuring machines CMMDigital camerasElectrogoniometersElectrophysics infrared camerasEnvironmental ovensFast Fourier transform FFT spectrum analyzersForce plates

Work Values

RecognitionIndependenceAchievementWorking ConditionsSupportRelationships

Career Pathways

Occupations this program prepares you for

Auto-populatedfrom O*NET + BLS

Occupations matched to this program, with median wage, top wage, growth, and openings
SOC	Occupation	Method	Wage	Growth	Openings
Match confidence: high17-2112.00	Industrial Engineers	title_inference	$101,140 median$157,140 top	+10.97%	3,850

Program Pathways

Credentials this program stacks toward

No program pathways.

What You'll Learn

Key competencies developed through this program

Auto-populatedfrom NSX Competency Framework

Mastery: proficient (Level 3)(based on Bachelor's Degree)

Production cost modeling — develop and validate comprehensive cost-saving analyses, including impact of design changes, for executive review across multiple product lines.
End-to-end operation sequences — design and optimize fabrication and assembly workflows autonomously to maximize throughput and minimize waste in complex manufacturing environments.
Quality and reliability frameworks — determine statistically grounded standards by integrating product specifications, capability studies, and regulatory requirements across full product lifecycles.
Cross-functional stakeholder conferences — lead structured discussions with clients, vendors, and senior management to resolve complex specification, capability, and procurement challenges.
Design and production standards — author and enforce engineering standards through collaboration with management and end users, ensuring alignment with operational and safety requirements.
Precision equipment evaluation — formulate and implement corrective action plans for production and testing equipment deficiencies identified through rigorous accuracy assessments.
Workforce and material utilization — conduct systematic analyses using work measurement and methods engineering techniques to deliver actionable improvement recommendations.
Engineering documentation governance — establish and maintain documentation control systems ensuring currency of drawings and traceability of production problem resolution.
Expert system and CAM integration — configure and validate advanced manufacturing software to support non-routine process optimization across diverse production environments.
Systems evaluation — assess interdependencies within production systems to identify failure modes and engineer robust countermeasures in high-complexity industrial settings.

Course Pathway

21 courses in this program

Program Requirements

Courses required to complete this program

EE 3326Numerical and Scientific Data Analysis Using Python

3 cr

CHEM 1335Engineering Chemistry

3 cr

PHYS 2325Mechanics

3 cr

EE 4180Electric Machines Lab

1 cr

PHYS 2125Mechanics Laboratory

1 cr

EE 4321Digital Systems Design Using HDL

3 cr

EE 4353Fundamentals of Advanced Semiconductor Technology

3 cr

EE 4354Flexible Electronics

3 cr

CHEM 1135Engineering Chemistry Laboratory

1 cr

IE 1310Introduction to Industrial Engineering

3 cr

EE 4355Analog and Mixed Signal Design

3 cr

EE 4356Power Electronics

3 cr

EE 4360Linear Control Systems

3 cr

MATH 2471Calculus I

4 cr

MATH 2472Calculus II

4 cr

EE 4374Introduction to Wireless Communication

3 cr

EE 4375Building a Smart Grid Architecture

3 cr

ENGR 1304Engineering Graphics

3 cr

ENG 3303Technical Writing

3 cr

EE 4376Introduction to Telecommunications

3 cr

EE 4378Data Compression and Error Control Coding

3 cr

Program Details

Detailed information about this program

No detailed information available.

Requirements

What you need to earn this credential

No requirements listed.

Financial Aid

Eligible funding programs

No funding information available.

Scholarships

No scholarships listed.