Architectural Technology (ART)

116 Construction Graphics (3 cr.) Class 1, Lab 6. Introduction to drafting fundamentals, with emphasis on architectural and civil engi- neering topics. Use of instruments, lettering, orthographic projections, auxiliary views, in- tersections, and perspectives.

120 Architectural Presentation (3 cr.) Class 1, Lab 6. Development of architectural presen- tations using pencil, ink, and color tech- niques as a means of communication.

155 Residential Construction (3 cr.) Class 2, Lab 3. P: ART 116 and ART 162. A study of wood frame construction through a semester project requiring planning, preliminary, and working drawings. Outside lab assignment is required.

162 Building Materials and Methods (2 cr.) Class 1, Lab 3. The study of properties and use of various building materials in modem construction.

172 Systems of Construction (2 cr.) Class 2.

A survey of the organization of the construc- tion industry and introduction to various building components and systems, with an emphasis on the study of structural systems.

210 History of Architecture I (3 cr.) Class 3.

A survey of Western architecture from an- cient times to the present day. Social, tech-

nological, and cultural influences on architectural styles are emphasized.

220 Advanced Architectural Presentation (3 cr.) Class 1, Lab 6. P: ART 120 or consent of instructor. Advanced subjects in architec- tural presentation.

222 Commercial Construction (3 cr.) Class 2, Lab 3. P: ART 155. Preparation of prelimi- nary and working drawings for an intermedi- ate-sized commercial building. At the instructor's option, the work may be done in groups.

224 Advanced Commercial Construction (3 cr.) Class 2, Lab 3. P: ART 222. Prepara- tion of preliminary and working draWings for a multistory building. At the instructor's op- tion, students will accomplish work as a part of an assigned group.

267 Specifications and Contract Documents (2 cr.) Class 2. The study of general condi- tions and building construction specifica- tions, agreements, contracts, liens, and bonds.

284 Mechanical Systems for Buildings (3 cr.) Class 3. P: MATH ISO or equivalent and sophomore standing. The study of plumbing, heating, ventilation, air conditioning, and other mechanical systems for buildings.

285 Electrical Systems for Buildings (2 cr.) Class 2. P: MATH ISO or equivalent and sophomore standing. A survey of electrical and lighting system requirements for resi-

dential and commercial buildings. Lighting fundamentals and design, electric circuits, power requirements, and wiring layout used for building construction systems.

2.99 Architectural Technology (l~4 cr.) Hours and subject matter to be arranged with staff, Course may be repeated for up to 9 credit hours.

310 History of Architecture II (3 cr.) Class 3.

The study of Western architecture, structure, and building technology of the eighteenth, nineteenth, and twentieth centuries, 350 Energy Conservation in Buildings (3 cr.) Class 3, P: ART 284 and ART 285. Heat loss and heat gain in buildings; impact of govern- mental laws and incentives; effects of insula- tion and efficient mechanical equipment;

principles of wind energy; solar heating and cooling, induding preliminary design of active and passive solar systems; and life cycle costing,

476 Specifications (3 cr.) Class 3. Detailed study of purpose and intent of specifications for specific jobs, including development of the general conditions, adaptation of selected provisions from standard specifications, and delineation of special supplemental condi- tions.

490 Senior Project (1-6 cd Final project aimed at combining the skills and knowledge gained from the various areas of study, The student will be expected to report graphi- cally, orally, and in written form on a final project approved by the adviser. Presentation will be made to a representative board of the faculty determined by the adviser.

499 Architectural Technology (1-4 cr.) Hours, subject matter, and credit to be arranged with staff, Course may be repeated for up to 9 credit hours,

Biomedical Electronics Technology (BMET)

2.40 Introduction to Patient Environment

(3 cr.) Class 3. This course will include hos- pital hierarchy, medical ethics, and patient contact considerations. The overview of med- ical patient care equipment and sensors will be stressed, Medical terminology will be in- troduced, and preventative maintenance of equipment will be considered. On-site hospi- tal visits will expose students to modern monitoring and intensive care biomedical equipment.

32.0 Introduction to Medical Electronics

(4 cr.) Class 3, Lab 3, P: EET 154, A study of physiological systems, with emphasis on the measurement of biopotentials such as electro- cardiogram, electroencephalogram, and elec- tromyogram as well as electrical safety and

biotelemetry, will be covered in the lecture and laboratory,

360 Biomedical Electronic Systems (4 cr.) Class 3, Lab 3, P: BMET 320, A study of the techniques involved in biophysical parameter measurement, electrical safety, and trouble- shooting methods of genera(biomedical equipment. Various types of biomedical equipment schematics will be discussed,

Candidacy for Degree (CAND)

991 Registration for Degree Candidate In or- der to be included in all appropriate gradua- tion processes, a student who completes the requirements for a degree at the end of a se- mester or session must be registered for that session in CAND 991. Certain programs re- quire that this be done the session prior to antiCipated graduation, Students should ver- ify this requirement in advance with their ad- viser or department head,

Civil Engineering Technology (CET)

104 Fundamentals of Surveying (3 cr.) Class 2, Lab 3, P: MATH 148 or equivalent. Mea- surement of vertical and horizontal distances and angles using the tape, level, transit, and EDM. Computations of grades, traverses, areas, and horizontal curves.

160 Statics (3 cr.) Class 3. P: C or better in MATH 148 or equivalent. A study of forces acting on bodies at rest, including coplanar, non-coplanar, concurrent, and non-concur- rent systems. Centroids, moments of inertia, and friction are included,

2.10 Surveying Computations (3 cr.) Class 2, Lab 3, P: CET 104, Accuracy, precision, and error theory pertaining to surveying calcula-.

tions, Calculations for alignment, grade, route surveying, construction surveying, building layouts, areas, and earthwork will be included,

2.31 Soils Testing (2 cr.) Class 1, Lab 3, P: Consent of instructor, The measurement of the engineering properties of soils in the laboratory and field. Identification and classi- fication of soils by the Unified Soil Classifica- tion System and the American Association of State Highway and Transportation Officials System,

2.53 Hydraulics and Drainage (3 cr.) Class 3, P: CET 160, Basic hydrostatics; fundamental concepts of fluid flow in pipes and open channels; methods of estimating storm run- off; size determination of culverts, storm sewers, and open channels.

2.60 Strength of Materials (3 cr.) Class 3, P: MATH 221 and C ~- or better in CET 160, Stress-strain relationships of engineering ma-

terials, composite analysis, shear forces and bending moments in beams, and the analysis and design of statically determinate steel and wood beams and columns.

267 Materials Testing (2 cr.) Class 1, Lab 3.

C: CET 260. Laboratory and field testing of structural materials to determine their me- chanical properties and behavior under load.

Materials included are steel, aluminum, con- crete, wood, and asphalt.

275 Applied Civil Engineering Drafting (3 cr.) Class 2, Lab 3. P: ART 116 and MATH 148. Preparation of drawings found in civil engineering environments. Structural draw- ings for steel and reinforced concrete build- ings and bridges; cross sections of roads;

topographic maps; graphical solutions to trusses.

299 Civil Engineering Technology <1-4 cr.) Hours and subject matter to be arranged with staff. Course may be repeated for up to 9 credit hours.

312 Construction Surveying (2 cr.) Class 1, Lab 3. P: CET 104. Field procedures for con- struction surveys, including building layout and route surveys using both theodolite and electronic distance measuring (EDM) equip- ment. Basic field procedures to "balance in,"

prolong and establish lines, and layoff and measure horizontal and vertical angles.

Classwork involves computations of errors and coordinates.

368 Experimental Stress Analysis Lab (2 cr.) Class 1, Lab 3. P: CET 267. Topics include determining the location, direction, and mag- nitude of stress and strain in full-size and scale-size structural systems and compo- nents.

382 Steel Structures Design (3 cr.) Class 3.

P: C or better in CET 260. Fundamentals of structural steel design, including beams, bar joists, columns, and connections. Design projects for buildings and bridges to deter- mine the most economical structure.

387 Reinforced Concrete Design (3 cr.) Class 3. P: CET 382 or consent of instructor. The fundamentals of reinforced concrete design and analysis. Survey of concrete structural systems and concrete construction methods and procedures.

430 Foundation Systems (3 cr.) Class 3.

P: CET 231 and CET 260. An introduction to the principles of soil mechanics and a survey of the types and methods of earthwork and foundation construction; emphasis on soil mechanics and foundations as they apply to the design of foundation systems; techniques of subsurface investigations; and the inter- pretation of soils reports as applied to foun- dation construction methods and problems.

484 Wood, Timber, and Formwork Design

(3 cr.) Class 3. P: CET 382. Fundamentals of wood and timber design, including beams, columns, connections, and laminated struc- tural members. The design of form work for concrete structures, including walls, beams, columns, slabs, and forms for special shapes.

490 Senior Project (1-6 cr.) Final project aimed at combining the skills and knowledge gained from the various areas of study. The student will be expected to report graphi- cally, orally, and in written form on a final project approved by the adviser. Presentation will be made to a representative board of the faculty determined by the adviser.

499 Civil Engineering Technology 0-4 crJ Hours, subject matter, and credit to be ar- ranged with staff. Course may be repeated for up to 9 credit hours.

Computer Integrated

Manufacturing Technology (CIMT)

102 Introduction to Computer Integrated Manufacturing (3 cr.) Class 3. This course provides a survey of the technical equipment and topics associated with computer inte- grated manufactUring (ClM) systems. Sub- jects include computer-aided design (CAD), numerical control, computer process control, robotics, group technology, process plan- ning, computer integrated production man- agement systems including material resource planning, flexible manufacturing systems, and other innovations as they become avail- able to industry.

198 Industrial Practice I (1-8 cr.) P: Second- semester standing, prior acceptance into the cooperative program, and consent of the fac- ulty co-op adviser. Practice in industry with written reports of this practice for co-op stu- dents.

205 Microcomputer Applications for Com- puter Integrated Manufacturing (3 cr.) Class 2, Lab 3. P: CPT 115 and CPT 140 or MET 105 or consent of instructor. Applications of scheduling, engineering, economy, cost anal- ysis, quality control, and related areas based on microcomputer software including spread- sheets, data base, and word processing.

224 Production Control and MRP (3 cr.) Class 3. Preproduction consideration of the most economical methods, operations, and materials for the manufacture of a product.

Includes planning, scheduling, routing, and detailing of production control procedures.

260 Robotics and Automated Material Han- dling (3 cr.) Class 2, Lab 2. P: EG 110, MATH 148, CPT 115, and CPT 140 or MET 105. A survey of the types of industrial ro- bots and their applications in manufacturing.

Safety, application limitations, and economic justification will be considered. Automated material handling equipment will be re- viewed. The laboratory exercises will involve teach pendant and microcomputer program- ming of an educational robot.

298 Industrial Practice II (1-8 cr.) P: Consent of the faculty co-op adviser. Practice in in- dustry with written reports on this practice for co-op students.

310 Plant Layout and Material Handling (3 cr.) Class 3. P: EG 110 or equivalent or consent of instructor. A study and analysis of material flow in a manufacturing facility; ma- terial-handling equipment; plant layout prin- ciples for manufacturing service, storage, and office areas; and industrial packaging tech- niques. Emphasis is on application to manu- facturing problems. Not open to students who have credit in lET 310.

398 Industrial Practice III (1-8 cr.) P: Consent of the faculty co-op adviser. Practice in in- dustry with written reports of this practice for co-op students.

460 Motion and Time Study (3 cr.) Class 2, Lab 3. P: Junior standing. Techniques of mo- tion and time study, process charts, opera- tion charts, multiple activity charts,

micromotion study, therbligs, and stopwatch time study. Not open to students who have credit in lET 262.

481 Integration of Manufacturing Systems (3 cr.) Class 2, Lab 2. P: Senior standing in ClMT program. This is a capstone course that emphasizes the integration of traditional manufacturing activities such as planning, fa- cilities, materials handling, production con- trol, etc. Students will analyze case studies and complete directed projects. Field trips may be required.

484 Automated Measurements and Testing (3 cr.) Class 2, Lab 2. P: EET 105, EET 216, CPT 115, CPT 140, and lET 354. A study of automated measurements and testing sys- tems. Includes measurement principles, sources of error, instrument/computer com- munications, and testing software design.

497 Senior Project (3 cr.) Class 2, Lab 2. Di- rected work on individual projects for senior computer integrated manufacturing technol- ogy students.

498 Industrial Practice IV (1-8 cr.) P: Consent of the faculty co-op adviser. Practice in in- dustry with written reports of this practice for co-op students.

Computer Technology (CPT)

102 Computer Usage in EET (1 cr.) Class 1.

C: EET 102 and EET 105. The structure and details of BASIC, a general-purpose program-

ming language. Numerous problems are solved on the computer to demonstrate the use of BASIC in EET applications. (May not be used for credit by CPT majors.)

106 Using a Personal Computer (3 cr.) Class 3. The function and applications of word processing, electronic spread sheets, data management, and other personal-computing tools. Numerous assignments are completed to demonstrate the many uses of personal computers.

115 Introduction to Data Processing (3 cr.) Class 3. P: High school algebra or equivalent.

C: CPT 140. An introduction to computers and data processing. Topics include com- puter systems and applications, hardware, number systems, software, BASIC program- ming, flow charting, data communications, and information system life cycle. Covers both mainframes and personal computers.

122 Computer Applications in Finite Mathe- matics (3 cr.) Class 3. P: CPT 115, CPT 140, and MATH 147 or MATH 150. A presenta- tion of mathematical concepts related to the computer field and used in the solution of business/industrial type problems. Topics in- clude linear systems, matrix algebra, proba- bility theory, and mathematics of finance.

140 Introduction to Computer Laboratory (1 cr.) Lab 2. C: CPT 115. An introduction to the use of computing facilities. Topics in- clude word proceSSing, spread sheets, file management, BASIC programming, remote terminal use, and job submittal. For courses taught on the IUPUI campus, most labora- tory work will be done using IBM Personal Computers.

198 Data Processing Practice I (5 cr.) P: Sophomore standing, prior acceptance into the cooperative program, and consent of the faculty co-op adviser. Practice in industry with written reports of this practice for co-op students.

200 Computer Programming Fundamentals (3 cr.) Class 3; or Class 2, Lab 2. P: MATH 111. The presentation of the basic elements of programming digital computers, including absolute and symbolic coding, magnetic tape functions, and sequential access processing.

Major emphasis will be on compiler language (FORTRAN) programming. (May not be used for credit by CPT majors.)

220 Numerical Methods I (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 264 and MATH 164 or MATH 222. Numerical methods for finding solutions to mathematical equations for anal- ysis of tabulated data. A course consisting chiefly of the solution of specific problems by computer programming and other methods.

Topics include iterative and direct solutions

of linear equations, matrix operations, inte- gration techniques, and error analysis.

222 Computer Applications of Discrete Mathematics (3 cr.) Class 3. P: CPT 115, CPT 140, and MATH 150. A presentation of math- ematical concepts that bear directly on such computer areas as knowledge-based systems, architecture, DBMS, and communications networks. Topics include set theory, Boolean algebra, combinatorics, graph theory, and an introduction to automata theory.

224 Microcomputer Tools and Applications (3 cr.) Class 3. P: CPT 115 and CPT 140. Ap- plications of word processing, electronic spreadsheets, graphing, and other microcom- puter tools, and demonstrations of their uses by several assignments. Students having completed CPT 240 are not eligible for this course.

225 Statistical Methods (3 cr.) Class 3; or Class 2, Lab 2. P: Any high-level program- ming language. An introduction to elemen- tary statistics with emphasis on the analYSis of actual data. Topics include description and representation of SilJl1P!e data, probability, theoretical distributions, sampling, estimat- ing, correlation, regression, and computer statistical routines.

232 Assembly Language Programming (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 115 and CPT 140. Programming of digital computer at the machine-language and assembly-lan- guage levels with emphasis on the meticu- lous step-by-step development of a program.

Topics include computer hardware, stored program concept, operation codes, ad- dresses. flow diagrams. and assembly-lan- guage translators.

254 Information Systems Concepts (3 cr.) Class 3; or Class 2, Lab 2. P: Sophomore standing, one programming course (CPT 265 preferred), lET 104. Concepts of the proc- esses of system analysis and system design.

Both classical and structured approaches and tools. Definitions and attributes of informa- tion systems, life cycle, documentation, eval- uation, and data administration.

263 BASIC Programming (3 cr.) Class 3.

P: CPT 115. The structure and details of BASIC. a digital computer programming lan- guage whose instructions resemble elemen- tary algebraic formulas augmented by certain English words. Numerous problems are solved on the computer to demonstrate the many facets of the language.

264 FORTRAN Programming (3 cr.) Class 3;

or Class 2, Lab 2. P: CPT 115 and CPT 140.

The structure and details of FORTRAN, a mathematically oriented compiler language.

Numerous problems are solved on the com-

puter to demonstrate the many facets of the language.

265 COBOL Programming (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 115 and CPT 140. A study of the programming language COBOL, which is oriented toward data handling and processing tasks. The student will study the structure and details of COBOL and perform programming exercises as well as consider practical applications.

286 Computer Operating Systems I (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 232 and either CPT 264 or CPT 265. An introduction to computer operating systems and other systems software with emphasis on both mi- crocomputers and mainframes. Topics in- clude hardware architecture,

multiprogramming and timesharing, com- mand and control languages, scheduling, and interrupt handling.

288 Data Storage and Data Base Concepts (3 cr.) Class 3. P: CPT 264 or CPT 265. File- handling topics (emphasis on common data bases and large disk files) with regard to the mechanical efficiency of file organization in- cluding input/output, data channels, data storage structures, blocking, chaining, hook- ing, data areas, file reorganization, timing considerations, and data base organization.

290 Computer Project (1-4 cr.) Independent study for sophomore students who desire to execute a complete computer-oriented proj- ect. Course may be repeated for up to 6 credit hours.

298 Data Processing Practice II (5 cr.) P: Consent of the faculty co-op adviser. Prac- tice in industry with written reports of this practice for co-op students.

299 Computer Technology (1-4 cr.) Hours, credit, and subject matter to be arranged by staff. May be repeated for up to 9 credit hours.

320 Numerical Methods II (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 220 and MATH 261. A continuation of CPT 220. Topics include finite difference equations, differentiation tech- niques. and error analysis applied to these techniques.

340 Data Communications (3 cr.) Class 3; or Class 2, Lab 2, P: CPT 232. The role of data communications in modern computation.

Real-time systems and data transmission.

Topics include terminal equipment, commu- nication media, data codes, error detection and correction, and terminal software.

345 Computer Graphics I (3 cr.) Class 3.

P: CPT 362 or CPT 366. Study and program- ming of graphical techniques, such as scal- ing, translation, rotation, and polygons. The

emphasis will be on the programming as- pects of graphics.

352 Decision Support and Information Sys- tems (3 cr.) Class 3. P: CPT 254. Definition of support and management information sys- tems-similarities and differences. Use of De- cision Support Systems (DSS) and

Management Information Systems (MIS) in organizations. Tools for modeling and simu- lation. Application of system analysis and system design concepts to DSS and MIS situ- ations.

362 C Language Programming (3 cr.) Class 3.

P: CPT 365 or CPT 366, and CPT 232. A study of the programming language C, a multipurpose low-level language. The stu- dent will study the structure and details of C and perform programming exercises as well as discuss C programming techniques.

365 Topics in COBOL (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 265. Advanced COBOL top- ics concerning index-sequential files, direct files, relative files, preprocessor use, simula- tion, subprogram use, and handling sophisti- cated tables by using subscripting and indexing.

366 Pascal Programming (3 cr.) Class 3.

P: One 3 credit hour programming course. A study of the Pascal language using micro- computers. This language is suitable for both technical and commercial data processing problems. Numerous problems are solved on the computer to demonstrate the many facets of this highly structured language.

374 Systems Analysis (3 cr.) Class 3.

P: A.A.S. in CPT and CPT 254. Review of system analysis concepts and system devel- opment life cycle. Application of techniques used in investigation and analysis, feasibility, cosUbenefit, selection, and general design of an information system. Both classical and structured approaches are applied through a semester case problem project. Documenta- tion, evaluation, and data administration tasks are integral to the other processes.

384 Systems Design (3 cr.) Class 3. P: CPT 374. Brief review of system analysis and gen- eral design phases (CPT 374). Application of techniques and tools for system designs that meet requirements for input, output, files, processes, and controls is undertaken through a semester case problem project.

Software selection decisions, conversion and implementation planning, postoperational re- view planning, and maintenance considera- tions.

386 Computer Operating Systems II (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 286 and three semesters of any programming lan- guages. A continuation of CPT 286 with em-

phasis on the software structure of a typical minicomputer operating system. The course stresses development of specific algorithms as they relate to the functions of processor management, memory management, and in- terrupt handling.

387 Evaluation and Selection of Small Com- puting Systems (3 cr.) Class 3. P: CPT 254 and CPT 340. A study of microcomputer and minicomputer hardware and software, micro- processor architecture, distributed processing concepts and design, specification, evaluation and selection techniques, vendor and mar- ketplace analysis, and interfacing.

388 Topics in Programming Languages: (title vanes) (3 cr.) Class 3; or Class 2, Lab 2.

P: Varies with course content. Advanced programming topics and skills as applicable to the language offered. Since various lan- guages may be offered under this title, this course may be repeated for a maximum of 9 credit hours.

389 Using a Data Base Management System (3 cr.) Class 3. P: CPT 288 and CPT 365. The study and use of a data base management system (DBMS). Topics include user lan- guage, host language interface, file manage- ment, monitoring, recovery, and

reorganization.

396 Computer Laboratory (1-2 cr.) Lab 1-6.

Applied computer laboratory experience car- ried out on an independent study basis in conjunction with other courses, assignments, or problems.

398 Data Processing Practice III (5 cr.) P; Consent of the faculty co-op adviser. Prac- tice in industry with written reports of this practice for co-op students. May be repeated once for credit.

420 Numerical Methods III (3 cr.) Class 3.

P; CPT 320 and MATH 262. An investigation of several numerical methods for solving dif- ferential equations. Topics include difference equations and the calculus of finite differ- ences, initial-value problems, boundary-value problems, Runge-Kutta method, and predic- tor-corrector methods.

440 Communication Network Design (3 cr.) Class 3. P: A.AS. in CPT. Selected topics in distributed processing and computer net- works. Application of basic data communica- tion concepts and principles. Private and public computer network applications are presented. Use of network functions and the International Standards Organization (ISO) network model to define and discuss the lev- els of control and interface.

444 Microcomputer/Microprocessors: Hard- ware, Software, and Applications (3 cr.) Class 3; or Class 2, Lab 2. P: CPT 286. Study