565. Enterprise Computing & Systems Integration.  Credit 3. Fall . Business issues of systems integration, implementation issues, Business Process Reengineering, metrics and accountability.
600. Information Technology Management.  Credit 3. Summer .The strategic role and management of Information Technology.
605. Business Application Software. Credit 3. Fall .Design, construction and testing of business application systems including leading edge languages and tools.
606. Application Software Infrastructure. Credit 3. Fall .Design, construction and tsting of business application software infrastructure including hardware, operating software, and communications networks.
610. Enterprise Computing Planning & Design. Credit 3. Fall .Enterprise application planning and design techniques; business process and data modeling.
611. Enterprise Computing Implementation. Credit 3. Spring .Implementation, customization, and interactions of enterprise computing modules and software interfaces.
620. Advanced Information Systems Topics.  Credit 3. Spring .Local Area Networks, Wide Area Networks, common carriers and packet-switched networks; protocols, interfaces, and system design.
655. Business Database Systems. Credit 3. Spring . Database analysis, design, administration; data modeling; data sublanguages, query facilities; distributed database systems.
678. Applied Information Systems Research. Credit 3. Summer .Information systems research methodologies.

  310. Industrial Hygiene Engineering. (3-0). Credit 3. II  Application of scientific and engineering principles in the selection and design of control systems related to chemical, physical and ergonomic exposures in the process and manufacturing industries; relationships of criteria, analysis and specifications for the assessment and control of occupational related illnesses. Prerequisite: SENG 321 or approval of instructor.
312. System Safety Engineering. (3-0). Credit 3. II   Application of system safety analytical techniques to the design process; emphasis on the management of a system safety or product safety program; relationship with other disciplines such as reliability, maintainability, human factors and product liability applications. Prerequisite: Junior classification.
313. Product Safety Engineering. (3-0), Credit 3. I  Application of engineering principles to control hazards affecting the safety of manufactured products; statistical concepts applied to analysis and prediction of product failure; responsibilities of designer, manufacturer, distributor and user; design criteria for system modification; case studies. Prerequisite: Junior classification.
321. Industrial Safety Engineering. (3-0). Credit 3. I  Concepts of designing, operating and maintaining optimally safe systems, risk management, economic impact, legislation, performance measurement and accident investigation/analysis, principles and practices in industrial hygiene engineering, fire protection engineering and introduction to systems safety engineering. Prerequisite: Junior classification.
424. System Safety Analysis and Design. (1-6). Credit 3. II  Individual or group system safety engineering analysis and design project including statement of problem, systems analysis, alternate solutions and systems design; formal technical reports required. Prerequisites: SENG 310, 312, 321 and 322.

Source: Texas A&M University 1995-1996 Undergraduate Catalog 118^th Edition

303. Engineering Economic Analysis. (3-0). Credit 3. 1, 11, S Principles of economic equivalence; time value of money; analysis of single and multiple investments; comparison of alternatives; capital recovery and tax implications; certainty; uncertainty; risk analysis; public sector analysis and break-even concepts. Prerequisite: MATH 152.
304. Work Methods, Measurement and Ergonomics. (2-3). Credit 3. 1, 11, S Stresses working knowledge of sound motion study practices relating the worker to equipment and environment; application of principles of motion economy, time study, use of flow process diagrams, worker-machine charts, micro-motion analysis, time formulas, work sampling, rating, allowances, standard data systems and predetermined time standards. Prerequisite: ENTC 200.
314. Statistical Control of Quality. (2-3). Credit 3. I ,II ,S Quality control with statistical principles applied to problems in various production systems, including probability concepts, density and distribution functions, control chart concepts and sampling inspection plans; laboratory exercises for exposure to basic metrology and applied statistics for quality control applications in discrete-item manufacturing systems. Prerequisites: STAT 212.
315. Production Control Systems. (3-0). Credit 3. 1, II, S Treatment of the principles, models and techniques for the planning, analysis and design of integrated production control systems; to include forecasting, inventory management, production planning, materials requirement planning, scheduling, assembly line balancing, Just-in-Time and flexible manufacturing systems. Prerequisites: INEN 303,304,420 and STAT 211.
316. Manufacturing Systems Planning and Control.(2-2).Credit 3.I,II,S Role of computers in the planning and control of manufacturing processes; computer controlled manufacturing systems with emphasis on design and integration of hardware and software systems; material flow analysis and designing efficient storage facilities in the automated factory environment. Prerequisite: INEN 315.
320. Engineering Systems Analysis. (3-0). Credit 3. I, II, S Development and application of numerical methods and linear algebra in solving engineering problems; micro and mainframe computer usage stressed through selected projects and exercises. Prerequisite: MATH 308 or registration therein.
411. Engineering Management Techniques. (3-0). Credit 3. Techniques relating to managing engineering activities; engineer's transition into management; engineering managerial functions; motivation of individual and group behavior; productivity assessment/improvement; managing the quality function and communications. Prerequisite: Senior classification in Industrial Engineering.'
416. Facilities Location, Layout and Material Handling. (2-3). Credit 3. I, II, S Analytical treatment of facilities location, physical layout, material flow and handling, combined with heuristics algorithms to assist in the design of production/service facilities; fundamental concepts applied through a sequence of design projects. Prerequisites: INEN 315,422,430 and 454.
420. Operations Research I. (3-0). Credit 3. I, II, S Development and application of fundamental deterministic analytical methods including linear programming, integer programming, dynamic programming and nonlinear optimization. Prerequisite: INEN 320 or MATH 304.
421. Operations Research 11. (3-0). Credit 3. I, II, S Development and application of probabilistic analytical methods including Markov chains, queueing systems and digital simulation modeling. Prerequisites: INEN 420; STAT 212.
422. Systems Simulation. (3-0). Credit 3. I, II, S Systems simulation structure, logic and methodologies; generation of random numbers and deviates; system simulation languages, models and analysis; applications to industrial situations. Prerequisite: INEN 421.

Source: Texas A&M University 1995-1996 Undergraduate Catalog 118^th Edition