Unmanned Aircraft Systems Applications, Certificate

Program Description

The Certificate in Unmanned Aircraft Systems Applications is designed to provide students with a basic background in the technologies and applications of unmanned aircraft systems that will prepare them to work in various fields related to unmanned aircraft.  Candidates are required to complete 16 credit hours, including 10 hours of required courses and 6 hours chosen from a list of designated electives.  All students admitted into the UAS certificate program must meet the undergraduate admission requirements for TAMU-CC and must satisfy all prerequisites for courses in the certificate program.  Students working toward an undergraduate degree in engineering, computer science, or geospatial information science may obtain this certificate while completing their degrees, but this may require completing more credit hours than those required for the undergraduate degree.  Transfer credit for some required courses may be considered, as may credit for previous experience.  Students are expected to meet all other academic standards.  Students must apply for the certificate and complete a Certificate Plan approved by the Director of the School of Engineering and Computing Sciences or a designee.

For Additional Information

Website:
http://encs.tamucc.edu

Mailing Address:
School of Engineering and Computing Sciences, Unit 5797
College of Science and Engineering
Texas A&M University - Corpus Christi
6300 Ocean Drive
Corpus Christi, TX 78412-5797

Program Requirements

Required Courses
MEEN 3335Introduction to Unmanned Aircraft Systems3
COSC 3335Programming for Unmanned Aircraft Systems3
GISC 4431Remote Sensing4
Electives
Select two of the following:6
Introduction to Aircraft Aerodynamics and Performance
Sensors and Systems ^
Control Systems I
Human-computer Interaction
Introduction to Artificial Intelligence
Introduction to UAS for Agricultural Applications
Human Computer Interface
Human Factors and Autonomous Systems
Airborne Design of Experiments
Total Hours16

Note:

Students must earn at least a 2.5 overall grade point average in certificate courses.

Courses

MEEN 3230  Solid Mechanics Laboratory  
2 Semester Credit Hours (4 Lab Hours)  

EXPERIMENTAL PRINCIPLES FROM STRENGTH OF MATERIALS, AND EXPERIMENTS AND COMPUTER-BASED ANALYSIS OF MACHINE ELEMENTS AND STRUCTURES FOR STRENGTH OF MATERIAL AND SOLID MECHANICS. 

Prerequisite: MEEN 3330 or 3330*.
* May be taken concurrently.

Co-requisite: SMTE 0099.  
MEEN 3310  Engineering Analysis for Mechanical Engineering  
3 Semester Credit Hours (3 Lecture Hours)  

APPLICATIONS OF FUNDAMENTALS OF LINEAR ALGEBRA, VECTOR ANALYSIS, NUMERICAL METHODS, COMPUTER PROGRAMMING, AND PROBABILITY AND STATISTICS FOR MECHANICAL ENGINEERING. (CROSS-LISTED WITH MATH 3310 - MATHEMATICAL ANALYSIS FOR MECHANICAL ENGINEERING )

Prerequisite: MATH 3315.

MEEN 3330  Solid Mechanics for Mechanical Engineering  
3 Semester Credit Hours (3 Lecture Hours)  

STRESS ANALYSIS OF DEFORMABLE BODIES AND MECHANICAL ELEMENTS; STRESS TRANSFORMATION; COMBINED LOADING; FAILURE MODES; MATERIAL FAILURE THEORIES; FRACTURE AND FATIGUE; DEFLECTIONS AND INSTABILITIES; THICK CYLINDERS; CURVED BEAMS; DESIGN OF STRUCTURAL/MECHANICAL MEMBERS; DESIGN PROCESSES FOR SHAFTS, BEARINGS, SPRINGS, FASTENERS, AND MECHANICAL JOINTS. 

Prerequisite: ENGR 3320.

MEEN 3335  Introduction to Unmanned Aircraft Systems  
3 Semester Credit Hours (3 Lecture Hours)  

OVERVIEW OF UNMANNED AERIAL SYSTEMS:  HISTORY, PLATFORMS, OPERATIONS, COMMAND AND CONTROL, SENSOR SYSTEMS, PAYLOADS, REGULATIONS, POLICY.  CURRENT DEVELOPMENTS IN UNMANNED AERIAL SYSTEMS. 

MEEN 3340  Solid Modeling and Finite Elements  
3 Semester Credit Hours (2 Lecture Hours, 3 Lab Hours)  

USE OF COMPUTER AIDED DESIGN AND SOLID MODELING TOOLS IN ENGINEERING DESIGN, AND ANALYSIS, AND MANUFACTURING INCLUDING: SOLID MODELING, STRESS, FLOW, AND HEAT TRANSFER ANALYSIS USING FINITE ELEMENT METHODS.

Prerequisite: MEEN 3310 and ENGR 3320.

MEEN 3345  Heat Transfer  
3 Semester Credit Hours (3 Lecture Hours)  

STEADY AND UNSTEADY CONDUCTION IN ONE- AND TWO-DIMENSIONS; FORCED CONVECTION, INTERNAL AND EXTERNAL FLOWS; HEAT EXCHANGERS; INTRODUCTION TO RADIATION; ELEMENTS OF THERMAL SYSTEM DESIGN.

Prerequisite: (ENGR 3316 and 3315).

MEEN 4220  ENGINEERING LAB  
2 Semester Credit Hours (2 Lecture Hours)  

Experimentation and analysis of thermal/fluid systems, energy balances, performance measurements of devices and systems, data analysis and correlation, elements of experimental design.

Prerequisite: ENGR 3315 and MEEN 3345.

MEEN 4240  PROJECT MANAGEMENT  
2 Semester Credit Hours (2 Lecture Hours, 2 Lab Hours)  

Foundations of engineering economy, cash flow and equivalence, and project justification. Introduction to project management, planning, scheduling, and control, use of project management software, GANTT charts, PERT charts, and critical path. Students prepare proposals, including specifications, timelines, schedule, and budget, for projects to be implemented in MEEN 4370 - Capstone Projects . This course should be taken the semester preceding MEEN 4370 - Capstone Projects

Prerequisite: MEEN 3330 and 3345.

Co-requisite: SMTE 0099.  
MEEN 4325  Energy Conversion  
3 Semester Credit Hours (3 Lecture Hours)  

NATURAL RESOURCES: FUELS, SOLAR, WIND, GEOTHERMAL, WAVE, AND OCEAN THERMAL; THERMODYNAMICS OF POWER CYCLES AND PROCESSES: RANKINE, BRAYTON, GAS TURBINE, IC ENGINES, FUEL CELL; NUCLEAR POWER; DIRECT ENERGY CONVERSION: PHOTOVOLTAIC, THERMOELECTRIC, THERMIONIC, MAGNETOHYDRODYNAMICS; NON-REACTIVE PROCESSES: WIND, WAVE/TIDAL, OCEAN THERMAL ENERGY, SOLAR THERMAL; CONCEPT OF LIFE CYCLE ASSESSMENTS OF CARBON FOOT PRINT. STUDENT TEAMWORK OF A CLASS TERM PAPER IS EXPECTED.

Prerequisite: ENGR 2316.

MEEN 4330  Introduction to Plasma Engineering and Applications  
3 Semester Credit Hours (2 Lecture Hours, 2 Lab Hours)  

PHYSICAL, ELECTRICAL, CHEMICAL PROPERTIES OF PLASMAS; DIFFERENCES IN PROPERTIES OF THERMAL AND NON-THERMAL PLASMAS, DIRECT AND ALTERNATING CURRENT PLASMA SOURCES, INDUCTIVE AND CAPACITIVE COUPLED PLASMA SOURCES, DIAGNOSTICS AND APPLICATIONS OF PLASMAS. 

Prerequisite: ENGR 2322 and (ENGR 2460 or PHYS 2426).

Co-requisite: SMTE 0099.  
MEEN 4335  Introduction to Aircraft Aerodynamics and Performance  
3 Semester Credit Hours (3 Lecture Hours)  

FORCES ON AIRCRAFT; STANDARD ATMOSPHERE; STEADY-STATE CRUISE, CLIMB, AND TURN PERFORMANCE; PERFORMANCE OPTIMIZATION; INTRODUCTION TO AIRCRAFT LONGITUDINAL STABILITY.

Prerequisite: ENGR 2326 and COSC 1330.

MEEN 4336  Introduction to UAS for Agricultural Applications  
3 Semester Credit Hours (3 Lecture Hours)  

PROVIDES THE FOUNDATIONS TO ACQUIRE REMOTE SENSING DATA USING UNMANNED AIRCRAFT SYSTEMS (UAS) AND TO INTERPRET, PROCESS, AND APPLY REMOTELY SENSED DATA FOR AGRICULTURAL APPLICATIONS.  PRINCIPLES OF REMOTE SENSING, DIGITAL IMAGE PROCESSING, AND GEOSPATIAL ANALYSIS WILL BE COVERED. EMPHASIS WILL BE ON THE USE OF UAS REMOTE SENSING TECHNOLOGY FOR VARIOUS DISCIPLINES IN AGRICULTURAL SCIENCES INCLUDING PLANT BREEDING, PLANT PHYSIOLOGY, CROP SCOUTING, PEST MANAGEMENT AND ENTOMOLOGY. OFFERED SPRING. 

Prerequisite: MEEN 3335.

MEEN 4340  PROJECT MANAGEMENT  
3 Semester Credit Hours (3 Lecture Hours)  

Foundations of engineering economy, cash flow and equivalence, and project justification. Introduction to project management, planning, scheduling, and control, use of project management software, GANTT chars, PERT charts, and critical path. Students prepare proposals, including specifications, timelines, schedule, and budget, for projects to be implemented in MEEN 4370. This course should be taken the semester preceding MEEN 4370.

MEEN 4345  Sensors and Systems  
3 Semester Credit Hours (3 Lecture Hours)  

THIS COURSE COVERS SENSORS AND SENSING SYSTEMS WHERE SENSING MODALITIES, ANALYSIS OF SENSED DATA, DATA TRANSMISSION AND RECEPTION ARE DISCUSSED. FILTERING AND ESTIMATION IN SENSING SYSTEMS ARE CONSIDERED. THE COURSE COVERS SENSORS AT COMPONENT LEVEL TO DEVELOP SUBSYSTEMS AND MORE COMPLEX SENSING SYSTEMS THAT MONITOR PHYSICAL PHENOMENA IN LABORATORY OR MARINE/TERRESTRIAL ENVIRONMENTS. OTHER TOPICS INCLUDE MULTIDIMENSIONAL SIGNAL AND IMAGE PROCESSING, OBJECT TRACKING, MULTISENSORY DATA FUSION, APPLICATIONS IN ENVIRONMENTAL MONITORING, REMOTE SENSING AND SURVEILLANCE. 

Prerequisite: MATH 2414, PHYS 2426 and ENGR 2460.

MEEN 4350  Controls, Automation and Robotics  
3 Semester Credit Hours (2 Lecture Hours, 3 Lab Hours)  

AUTOMATION IN A MANUFACTURING AND ASSEMBLY SETTING FOR OCEAN AND MARINE ENVIRONMENTS, MATERIAL HANDLING SYSTEMS, REMOTE GUIDED VEHICLES, AUTOMATED STORAGE AND RETRIEVAL SYSTEMS, COMPUTER NUMERICAL MACHINE TOOLS, ROBOTICS.

Prerequisite: MATH 3315, ENGR 2326 and 2460.

Co-requisite: SMTE 0099.  
MEEN 4351  Dynamical Systems Analysis and Modeling  
3 Semester Credit Hours (3 Lecture Hours)  

MODELING AND ANALYSIS OF SYSTEMS THAT HAVE A TIME-BASED RESPONSE.  TRANSIENT AS WELL AS STEADY STATE SOLUTIONS FOR SDOF AND MDOF SYSTEMS AND COMPUTATIONAL SOLUTIONS INCLUDING TIME RESPONSE, BODE PLOTS, PHASE PLOTS, AND OTHER PLOTS RELEVANT TO THE SYSTEM.  LINEAR AND NON-LINEAR MODELING OF SYSTEMS WILL BE STUDIED.  MODELING OF MECHANICAL SYSTEMS (VIBRATIONS), ELECTRICAL CIRCUITS, AND THERMAL/FLUID SYSTEMS WILL BE COVERED. 

Prerequisite: COSC 1330, ENGR 2460 and MEEN 3345.

MEEN 4355  Marine Fabrication  
3 Semester Credit Hours (2 Lecture Hours, 3 Lab Hours)  

ADVANCED TOPICS IN MANUFACTURING AND FABRICATION RELATED TO SHIPS AND OFFSHORE PLATFORMS AND CONSTRUCTION.

Prerequisite: ENGR 3350.

Co-requisite: SMTE 0099.  
MEEN 4360  Thermal Systems Design  
3 Semester Credit Hours (3 Lecture Hours)  

ANALYSIS, MANAGEMENT AND COST, OPTIMAL DESIGN, AND COMPUTER SIMULATION OF THERMAL SYSTEMS AND COMPONENTS; APPLICATIONS IN FLUID FLOW AND HEAT TRANSFER, PUMPS, TURBINES AND HEAT EXCHANGERS. SELECTED COURSE TOPICS ARE ASSIGNED AS PROJECTS.

Prerequisite: MEEN 3345.

MEEN 4365  Mechanical Systems Design  
3 Semester Credit Hours (3 Lecture Hours)  

ANALYSIS, MANAGEMENT AND COST, OPTIMAL DESIGN, AND COMPUTER SIMULATION OF MECHANICAL SYSTEMS AND COMPONENTS; MACHINE ELEMENTS, AND STRESS ANALYSIS. SELECTED COURSE TOPICS ARE ASSIGNED AS PROJECTS.

Prerequisite: (MEEN 3330 and ENGR 3350).

MEEN 4370  CAPSTONE PROJECTS  
3 Semester Credit Hours (1 Lecture Hour, 5 Lab Hours)  

This course allows students to employ the knowledge attained in other courses to implement (including building, testing, and documenting) an approved project, within budget and on schedule. Course requirements include a written report and oral presentations.

Prerequisite: MEEN 4240 and (MEEN 4360 or 4360 and MEEN 4365 or EEEN 4333).

Co-requisite: MEEN 4360, MEEN 4365, SMTE 0099.  
MEEN 4375  Fuel Cells  
3 Semester Credit Hours (3 Lecture Hours)  

STUDENTS WILL ACQUIRE AN UNDERSTANDING OF THERMODYNAMICS, TRANSPORT PHENOMENA AND REACTION FUNDAMENTALS THAT ARE REQUIRED TO UNDERSTAND THE PROCESSES AND PHENOMENA THAT POSE LIMITS ON FUEL CELL PERFORMANCE.

Prerequisite: ENGR 3316, MEEN 3345 and CHEM 1411.

MEEN 4380  Renewable Energy  
3 Semester Credit Hours (3 Lecture Hours)  

RENEWABLE AND ALTERNATIVE ENERGY SOURCES AND FUELS; MODERN ENERGY CONVERSION DEVICES, SUCH AS OFFSHORE WIND FARMS, MARINE CURRENT TURBINES, FUEL CELLS, PHOTOVOLTAIC CELLS, AND MICRO-POWER TURBINES. COST AND ENVIRONMENTAL ANALYSIS OF RENEWABLE SOURCES. INSTALLATION, DESIGN CHARACTERISTICS, OPERATIONAL PERFORMANCE, AND MAINTENANCE OF MOTORS, TURBINES, PUMPS AND COMPRESSORS. INTRODUCTION TO GLOBAL ENERGY CONCERNS; FOSSIL AND NUCLEAR FUELS; ENERGY CONSUMPTION ANALYSIS; ENERGY MANAGEMENT AND CONSERVATION TECHNIQUES.

Prerequisite: ENGR 3316, 2460 and MEEN 4325.

Co-requisite: SMTE 0099.  
MEEN 4385  Offshore Energy Management  
3 Semester Credit Hours (3 Lecture Hours)  

TOPICS RELATED TO THE DESIGN AND ENERGY MANAGEMENT OF SHIPS AND OFFSHORE PLATFORMS WILL BE COVERED. SUCH TOPICS MAY INCLUDE OIL AND GAS EXPLORATION, WIND AND MARINE ENERGY SYSTEMS, AND ENVIRONMENTAL PROTECTION.

Prerequisite: MEEN 3345.

MEEN 4390  Introduction to Computational Fluid Dynamics  
3 Semester Credit Hours (3 Lecture Hours)  

INTRODUCTION TO NUMERICAL, COMPUTATIONAL, MODELING AND SIMULATION OF THERMO-FLUID SYSTEMS. APPLICATIONS RELATED TO SHIPS AND OFFSHORE PLATFORMS AND STRUCTURES WILL BE PRESENTED.

Prerequisite: MEEN 3345.

MEEN 4395  Offshore Water Exploration and Desalination Systems  
3 Semester Credit Hours (3 Lecture Hours)  

ADVANCED AND FUTURE APPLICATIONS OF SEA FLOOR MAPPING, UNDER-WATER ACOUSTICS AND GIS FOR FRESH WATER EXPLORATION AND MINING. RENEWABLE ENERGY DRIVEN COASTAL, NEAR-SHORE, AND OFFSHORE DESALINATION SYSTEMS.

Prerequisite: ENGR 2316.

MEEN 4396  Directed Independent Study  
3 Semester Credit Hours  

REQUIRES A FORMAL PROPOSAL OF STUDY TO BE COMPLETED IN ADVANCE OF REGISTRATION, APPROVAL OF SUPERVISING FACULTY AND CHAIRPERSON.

MEEN 4420  Engineering Lab Measurements  
4 Semester Credit Hours (2 Lecture Hours, 4 Lab Hours)  

PRINCIPLES OF PHYSICAL MEASUREMENTS; STANDARDS, CALIBRATION, ERROR ESTIMATION; STATIC AND DYNAMIC PERFORMANCE OF MEASURING SYSTEMS; LABORATORY EXPERIENCE, EXPERIMENT PLANNING, REPORT WRITING. THE PURPOSE OF THIS COURSE IS FOR STUDENTS TO GAIN PROFICIENCY IN DESIGNING, ASSEMBLING, AND OPERATING AN EXPERIMENT; AND ANALYZING AND PRESENTING EXPERIMENTAL RESULTS. THIS ENCOMPASSES SKILLS SUCH AS AN UNDERSTANDING CONTROL AND DATA ACQUISITION ELECTRONICS, OPERATION AND LIMITATION OF MODERN SENSORS, CALIBRATION AND ERROR ANALYSIS, ASSESSING APPLICABILITY OF THEORY AND THE IMPACT OF SECONDARY EXPERIMENTAL VARIABLES, AND WRITING AND PRESENTING REPORTS AND ANALYSIS. 

Prerequisite: ENGR 2460.

Co-requisite: SMTE 0099.