Polytechnic School of Albacete 3-year Degree in Computer Science (Business speciality)

ECTS Co-ordinator Dean or Director Polytechnic School of Albacete 3-year Degree in Computer Science (Business speciality) Information of the Centre Curriculum Name Address Telephone nº 967 599200 Extension 2473 Fax 967 599224 e-mail Name Address Telephone nº 967 599200 Extension 2403 Fax 967 599224 e-mail Address José Antonio Gámez Martín Dpto. de Informática Campus Universitario s/n Albacete - 02071 Jose.Gamez@uclm.es Antonio Garrido del Solo Dpto. de Informática Campus Universitario s/n Albacete - 02071 Antonio.Garrido@uclm.es Escuela Politécnica Superior Campus Universitario s/n Albacete - 02071 Telephone nº 967 599200 e-mail Antonio.Garrido@uclm.es Professional Qualification 3-year Degree in Computer Science (Business speciality) 3 years Division in Cycles 1 cycle Name of the Faculty/Centre Polytechnic School of Albacete Professional Qualification 3-year Degree in Computer Science (Business speciality) Date of the Syllabus 1998 Overall number of classes in UCLM credits 219 Overall number of classes in ECTS credits 180

First Year Code Subject ECTS Credits 42501 Algebra and Discret Mathematics 9 42502 Calculus 7.5 42503 Physics for Computer Science Engineering 7.5 42504 Programming Basis I 7.5 42507 Logic 5 42505 Computers Technology/Digital Systems 6.5 42509 Numerical Analysis 4.5 42512 Computer Structure and Technology 7.5 42511 Fundamentals of Computer Programming II 5 Second Year Code Subject ECTS Credits 42513 Statistics 5 42515 Data Structures 10 42516 Operating Systems 7 42518 Administration and Accounting Techniques 5 42519 Business Organisation and Management 5 42528 Automata Theory and Formal Languages 7 42521 Computer Organisation I 5 42523 Computer Networks 5 42526 Programming Methodology 7 Third Year Code Subject ECTS Credits 42529 Databases 7 42530 Software Engineering in Business 10 42535 Business Administration Techniques 5 Optional Courses (5 to choose) 25 Free Configuration 13 Optional Courses Code Subject ECTS Credits 42578 Applications Development Tools 5 42577 File Systems 5 42576 Digital Image Processing 5 42579 Object-Oriented Programming and Design 5 42580 Visual Programming 5 42599 Internet Programming Languages 5 42560 Operations Research 5 42539 Simulation 5 42584 Technical English 5 42582 Ampliation of Statistics 5 42583 Multimedia, Hypermedia and Virtual Reality 5 42556 Management Control 5 42565 Offimatic Tools 5 42566 Gerential Information Systems 5 42557 Computer and Business Law 5 42574 Computer Based Design and Manufacturing 5

Subject code 42501 ALGEBRA AND DISCRET MATHEMATICS 30 weeks Hours per week 3,5 Compulsory Credits 9 To know the elemental kind of graphs and to discuss their connection. To recognize the basic properties of the structures of Boolean Algebra, Group and Vectorial Space, as well as the corresponding morphisms. To obtain the associate matrix of a linear map and its diagonal expression. The current course consists of two clear parts. The first one deals with contents of Discrete Mathematics, as computers are basically finite structures. These contents focus on the issues of Boolean Algebra, Graph theory and Group theory. The secon one, topics in Linear Algebra, as Vectorial Spaces, resolution of Systems of Linear Equations and the diagonal forms of an endomorfism, are also treated. ALEDO,J.A.;PENABAD,J.;VALVERDE,J.C.;VILLAVERDE,J.J.;Algebra y matemática Discreta;Ed. Alpeviva;2000. BURGOS, J.DE;Curso de álgebra y geometría; ed Alhambre;1992. HARARY,F.;Graph theory; Ed. Addison Wesley, 1992. LIU,C.L.; Elementos de Matemáticas Discretas; Ed. McGrawHill;1995. Aledo,J.A;Martínez,A;Penabad,J.;Serrano, R.;Villaverde,J.J. Lectures, Practical classes, Practical work Written exam, Theoretical/Practical Exam.

Subject code 42502 Calculus 30 weeks Hours per week 3 Core Credits 7.5 The knowledge of the foundations of the theory of sequences and series of real numbers as well as the properties related with continuity, differentiability and integrability of real functions. To apply the referred foundations to the resolution of exercises and problems. Sequences and series of real numbers. Continuity, derivatives and integrals of real functions. -G. Manjabacas, J.J. Orengo, J.C. Valverde e I. Martín, Ejercicios de Cálculo I. Números, sucesiones y series numéricas. Ed. Lib. Popular, 2002. -G. Manjabacas, J.J. Orengo, J.C. Valverde e I. Martín, Ejercicios de Cálculo II. - Cálculo diferencial e integral de una variable. Ed. Lib. Popular, 2004. - J. de Burgos Cálculo infinitesimal de una variable, ed. McGraw-Hill. Guillermo Manjabacas Tendero, José Carlos Valverde Fajardo, Isidoro Martín Monteagudo y José Javier Orengo Valverde. Lectures (theory and problems) and computer practice. Written exam (theory and problems). Evaluation of practical works.

Subject code 42503 Physics for computer science engineering 30 weeks Hours per week 3 Core Credits 7.5 The objective of this course is to learn concepts of vectorial magnitudes, errors, field theory, electric field, voltage, capacitance, current, power, resistance, magnetic field, electromagnetic induction, circuit analysis techniques such as Kirchhoff's Laws, branch currents, node voltages, loop currents, Thevenin's and Norton's equivalent circuits, dc-current circuits and ac-current. Introduction to Error Calculus Theory, Vectorial Analysis and Field Theory, Electric Field, Electric Potential, Capacitors and Dielectrics, Direct-Current Circuits, Magnetic Field, Sources of the Magnetic Field, Electromagnetic Induction, Magnetic Properties of Matter, Alternating Current Circuits, Basic Electric Circuit Analysis. P. A. Tipler: "Physics for Scientists and Engineers", Fourth edition. Volume II. Ed. Reverté. 1999. R. A. Serway, J.W. Jewett: "Physics". Third edition. Thomson. 2003 J. A. Edminister and M. Nahvi: "Schaum's Outline of Electric Circuits". Third edition. McGraw-Hill. 1999. J. O Malley: "Schaum's Outline of Basic Circuit Analysis". First edition. McGraw-Hill. 1982. Manuel Sánchez Martínez (Manuel.Smartinez@uclm.es) Lectures and practical sessions. Written theory and practical exam. Implementation of an expert system prototype

Subject code 42504 Programming basis I Hours per week 6 Core Credits 7.5 The objective is for students to gain an understanding of imperative programming by means of C programming language. Introduction. Algorithms and programs. Program structure and basic data types. Structured programming. Control structures. Pointers. Console input/output Functions. Recursivity. Arrays. Strings. Structs and typedefs. Files. Schildt, H. C. Manual de Referencia. 3ª Ed. 1997. McGraw-Hill. Gottfried, B. Programación en C. 1997. McGraw-Hill. Joaquín Fernández Martínez Juan Antonio Guerrero Abenza Ana González López Juan José Pardo Mateo Tomás Rojo Guillén Lectures Theoretical and practical exam.

Subject code 42507 LOGIC Hours per week 4 Compulsory Credits 5 The analysis and formalization of expresions in Logic of propositions and predicates. The application of the resolution rule. The discussion about the fuzzy truth of fuzzy sentences. We start by studying the logic of connectives, in order to obtain the Boolean Algebra of propositions. The theory of predicates means a new aspect where the essential objetive is to state the resolution rule, which allows to obtain results in an automatic way. Finally, we also introduce the fuzzy logic, essential subjet for the expert systems and the fuzzy control of processes. ARANDA,J. et all;lógica matemática;sanz y Torres;1993. FERNÁNDEZ,J and SAEZ VACAS,F; Fundamentos de Informática;Alianza;1987. TRILLAS,E.; Conjuntos borrosos; Vicens Vives, 1980. Aledo,J.A;Penabad,J. Lectures, Practical classes. Written exam, Theoretical/practical Exam

Subject code 42509 Numerical Analysis Hours per week 3 Compulsory Credits 4.5 This course provides the fundamental numerical thecniques used in computer science. In each method is given a step by step description, theorical considerations, implementation and discussion. Errors. Solving equations of one variable. Solving systems of linear equations: iterative methods ( Jacobi and Gauss-Seidel). Polynomial Interpolation. Numerical Differentation and Integration. Mathews, J.H.; Fink, K.D.: Métodos Numéricos con MATLAB. Prentice-Hall, 2000. Burden, R.L.; Faires, J.D. : Análisis Numérico. ITP, 1998 Hermenegilda Macià, Mariano Lozano and Narciso García Lectures, problems and practical work (laboratory). Theoretical/practical exam.

Subject code 42512 Computer Structure and Technology Hours per week 6 Core Credits 7.5 This course provides the basic principles, current practice and issues in computer organization. Basic principles of computer internal operation. Instructions Set and Addressing Modes. Microprocessors. Machine language. Assembly language. Peripherals Fundamentos de los Computadores, De Miguel, P. Paraninfo, 2000 Estructura de Computadores, Angulo, J.M. Paraninfo, 1996 Introducción a la Informática. 2ª Ed. Prieto; Lloris; Torres. McGraw-Hill, 1995 Organización de Computadoras. 4ª Ed. Tanenbaum. Prentice-Hall, 1999 Rafael Casado González Rosa García Muñoz Francisco Javier Gómez Quesada Maria Teresa López Bonal José Manuel Villalba Montoya Theoretical classes: projection using PC and cannon, slides. Practical classes: microprocessor based systems, microprocessor simulation environments over PC Documentation reachable in Internet Theoretical/practical exam

Subject code 42511 Fundamentals of Computer Programming II Hours per week 4 Core Credits 5 The objective is for students to gain an understanding of object oriented programming by means of Java programming language. Introduction. Object oriented programming concepts. Object oriented programming languages. Introduction to Java. Data types, variables and arrays. Operators. Control statements. Classes. Methods. Packages: the java.lang package. Inheritance. Error handling with exceptions. Strings. Iterators and ArrayLists. Joyanes, L. Programación orientada a objetos. McGraw-Hill. 1996. P. Naughton y H. Schildt. Java 2: Manual de Referencia. McGraw-Hill. 2001. Bruce Eckel. Thinking in Java. Prentice-Hall. 2002. Tomás Rojo Guillén Lectures, problems and practical work (laboratory). Theoretical/practical exam and evaluation of practical work

Subject code 42.513 Statistics 30 weeks Hours per week 3 Core Credits 7 1. Understand the Purpose, Logic, and Process of Statistical Investigation 2. Develop Interpretive Skills and Statistical Literacy 3. Develop Ability to Comunicate Statistically 1. Introduction to Statistics 2. Descriptive Statistics 3. Probability and Random Variables 4. Statistical Inference 5. Fundamental Applications 1. Cox, D. R. (1997). The Current Position of Statistics: A Personal View. Int. Stat. Rev. 65, 3, 261-290. 2. De Groot, M. H. (1988). Probabilidad y Estadística. Addison-Wesley. Mexico. 3. Larsen, R. J. Aand Marx, M. L. (1990). Statistics. Prentice-Hall. Englewood Cliffs. 4. Rao, C. R. (1994). Estadística y verdad. PPU. Barcelona. 5. Tanur, J. M. et al. (1992). La estadística. Una guía de lo desconocido. Alianza. Madrid. 6. Wild, C. J. and Pfannkuch, M. (1999). Statistical thinking in empirical enquiry. Int. Stat. Rev. 67, 3, 223-265. Francisco Díaz Martínez Lectures, problems and practical work (laboratory ) 1. Group problem solving and discussion. 2. Laboratory exercises. 3. Theoretical/practical exam and evaluation of practical work

Subject code 42515 Data Structures 30 weeks Hours per week 4 Core Credits 10 Students learn the notion of an Abstract Data Type (ADT). Students adquire experience in the formal specifications of ADT s, in their implementations and in the use of TAD s. Students know the main types of file organisation and file access methods. Introduction Data Types Formal Specifications Linear Data Structures (Lists, Stacks and Queues) Trees Graphs Hashing and the Table ADT Files Lafore, R.:Data Structures & algorithms in Java. Sams Publishing,2002. Allen Weiss, M.: Estructuras de datos en Java. Addison Wesley, 2000. Standish, T.: Data structures in Java. Addison-Wesley, 1998 Dale, N., Walker, H. M.: Abstract data types. Heath and company, 1996. Naughton, P., Schildt,H.: Java, manual de referencia. McGraw-Hill, 2001. Mª Llanos Alonso Díaz-Marta Lectures, Practical work Theoretical/practical written test

Subject code 42.516 Operating Systems 30 weeks Hours per week 3 Core Credits 7 Introduction to theoretical and practical aspects of operating systems. Windows 2000 and Linux operating system are discussed in detail. Physical layer. Processes. Interprocess comunication. Deadlocks. Scheduling algorithms. Memory management. Input/Output. File system. - Milenkovic, M.: Opertaing Systems. Concepts and design. Mc Graw-Hill. 1994 - Stallings, W.: Operating Systems. Prentice-Hall. 2001 - J. Carretero, F. García, P de Miguel, F. Pérez.Sistemas operativos. Una visión páctica. Mc. Graw-Hill. 2001. Enrique Arias Antúnez Diego Cazorla López M. Carmen Ruiz Delgado Lectures, practical classes. Theoretical/practical exam. Laboratory exam.

Subject code 42528 Automata Theory and Formal Languages Hours per week 6 Compulsory Credits 6 This is a course devoted to the study of theoretical aspects of computer science. Our main goal is to give to the student an overview about formal languajes, grammars and automata (machines).. Formal languages. Formal grammars: Chomsky s hierarchy. Finite state automata. Push-Down automata. Turing machines. Hopcroft, J.E.; Motwani R.;Ullman, J.D. Introduction to automata theory. Languages and Computation. Addison-Wesley, 2002 Fernando Cuartero Gómez José Miguel Puerta Callejón Lectures, problems and practical (lab) classes. Evaluation of practical work (in lab) and final exam.

Subject code 42521 Computer Organization I Hours per week 4 Compulsory Credits 5 This course provides the basic principles, current practice and issues in computer organization. We show how computers are organized and why they are organized that way. Central Processing Unit. Arithmetic Logic Unit. Computer Arithmetic. Memory System. Imput/output. Buses "Organización y Arquitectura de Computadores. Diseño para optimizar prestaciones." Stallings, W. 5 ed. Prentice-Hall, 2000. "Estructura y diseño de computadores. Interficie circuitería/programación" D.A. Patterson, J.L. Hennessy : Reverté,S.A. 2000 Mª del Carmen Carrión Espinosa Lectures, practical classes Theoretical/practical exam

Subject code 42523 COMPUTER NETWORKS Hours per week 4 Compulsory Credits 5 This course provides basic knowledge about computer networks and computer communications. It covers physical medium transmission, link control procedures and local and wide area networks. 1. Fundamentals of computer networks 2. Transmission Mediums 3. Data Link Protocol 4. Local area networks 5. Wide area networks 1. STALLINGS, W, "Data and Computer Communications", Ed. Prentice- Hall, 2. HALSALL, F "Data Communications, Computer Networks and Open Systems" Ed. Addison-Wesley 3. TANENBAUM, A.S, "Computer Networks" Ed. Prentice-Hall 4. BEHROUZ A. FOROUZAN, Data Communications and Networking, Mc-Graw Hill, 2ª Ed. 2001. TERESA OLIVARES-MONTES and FRANCISCO M. DELICADO MARTÍNEZ Lectures and Practical classes Written exam, Theoretical/Practical exam

Subject code 42526 Programming Methodology 30 weeks Hours per week 3 Core Credits 7 Efficiency of algorithms Algorithms design Divide and conquer Greedy Dynamic Programming Backtracking Branch and bound Program verification and test Algorithm efficiency analysis. Design. Verification. Fundamentals of Algorithm. Brassard, G. y Bratley, P.,Prentice Hall, 1997. Computer Algorithms/C++. Horowitz, E.; Sahni, S. and Rajasekaran, S., Computer Science Press, 1996. Jose A. Gallud, Daniel García, José Moya, Antonio J. Martinez Lectures, Practical classes Theoretical and practical exam.

Subject code 42529 Databases 30 weeks Hours per week 3 Compulsory Credits 7 To know the general characteristics gives a DBMS To know the classic models gives database systems, mainly the Relational model. Introduction to the design of databases, centering it in the phases gives conceptual and logical design.. The use in practices gives a DBMS, carrying out a theoretical approach to other systems. Database system management. Database design introduction. Pre-relational data model. Relational model fundaments. Relacinal languages. Relational model design. Integrity & security. Laboratory Sessions: 1.- Study of database system management ORACLE architecture & its environment of developing. 2.- Study & use of SQL interactive language, using de interactive access tool SQL*Plus. 3.- Study & applicattion of PL/SQL language De Miguel, A.; Piattini, M.: Fundamentos y modelos de bases de datos, 2ª edición. Ra-ma, 1999. De Miguel, A.; Piattini, M.: Diseño de bases de datos relacionales. Rama, 1999. Elmasri, R.; Navathe, S.B.: Sistemas de bases de datos. Conceptos fundamentales, 3ª edición. Addison-Wesley Iberoamericana, 2002. Korth, H.; Silberschatz, A.: Fundamentos de bases de datos. 3ª Edición, McGraw-Hill, 1997 Date, C.J.: Introducción a los sistemas de bases de datos, 7ª Edición. Prentice-Hall, 2001 Miguel Ángel Galdón Romero. Victor López Jaquero. Juan Luis García Navarro. Julia Flores Gallego Lectures, problems and practical work (laboratory) Theorical/practical exam.

Subject code 42530 Software Engineering in Business 30 weeks Hours per week 4 Compulsory Credits 10 This course provides the basis for developing Information Systems applying an object oriented methodological approach and a modelling language (UML). The objective is to apply the methodological concepts acquired with the theoretical lectures by using a CASE Tool. The students have to solve several case studies by applying the theoretical concepts. UNIT 1: Introduction to Software Engineering and Requirements Engineering. Introduction to the Object Oriented Paradigm. UNIT 2: Object Oriented Analysis and Design with UML. UNIT 3: Software Quality Assurance, Validation, Verification and Software Maintenance. UNIT 4: Computer-Aided Software Engineering. - I. Jacobson. Object-Oriented Software Engineering. A Use Case Driven Approach. Addison-Wesley Publishing Company, 1992. - R.S. Pressman. Software Engineering. A Practical Approach. Mc.Graw-Hill. - Ian Somerville. Software Engineering. 6th. Edition. Addison- Wesley. - BOOCH, G., RUMBAUGH, J., JACOBSON, I. El Lenguaje Unificado de Modelado. Addison-Wesley. 1999. - JACOBSON, I, BOOCH, G., RUMBAUGH, J. El Proceso Unificado de Desarrollo de Software. Addison-Wesley. 2000. - C. McClure. CASE is software automation. Englewood Cliffs. María Dolores Lozano Pérez Theoretical Lectures, problems and laboratory sessions. Theoretical/practical exam and evaluation of practical work (Information System development from requirements to code generation)

Subject code 42577 File Systems Hours per week 4 Optional Credits 5 Make students familiar with the different techniques for organisinf files. Make them learn how to choose the most suitable file organisation in a certain situation. Ability to cope with the problem of developing aplications based on file management. Introduction to File Systems. A deeper study about the main and basic file organisations: sequential, random/direct and indexed files. Overview of the distributed file systems archicteture and features, looking at the most popular and relevant implementations of DFS nowadays. - "Data management and file structures" Mary E.S. Loomis Prentice-Hall, Inc. 1988 - "FILE STRUCTURES. Theory and Practice" Panos E. Livadas Prentice-Hall, Inc. 1990 - "Files and Databases: An Introduction" Peter D. Smith G. Michael Barnes Addison-Wesley Publishing Company - "File Structures. An analytic approach" Salzberg, Prentice-Hall Intl, 1988 - "File Systems. Structures and algorithms" Thomas R. Harbron, Prentice-Hall, 1988 - "File Systems. Dessign and Implementation" Grosshans, Prentice-Hall, Inc - "File Organization & Processing" Alan L. Tharp, John Wiley & Sons, 1988 - "ESTRUCTURAS DE ARCHIVOS. Un conjunto de herramientas conceptuales" Michael J. Folk - Bill Zoellick, Addison-Wesley, 1992 - "LINUX. Guía de instalación y administración" V. López, Osborne Mc Graw Hill 2000. María Julia Flores Gallego Lectures, problems and practical work (laboratory). Theoretical/practical exam and evaluation of practical work (several programming task proposed for laboratory classes)

Subject code 42579 Object-Oriented Programming and Design Hours per week 6 Optional Credits 6 The purpose is to learn to think in objects, to learn how to design flexible, reusable and maintainable object-oriented systems. The first part of the course focuses on object-oriented programming. Then the course focuses more on designs, covering design patterns. Object-oriented Programming. Features of object-oriented languages. Design and development of software. Introduction to UML diagrams. Design Patterns. Patrones de Diseño. Erich Gamma, Richard Helm, Ralph Johnson, John Vlissides. Pearson Educación - Addison Wesley. 2003 UML y Patrones: Una introducción al análisis y diseño orientado a objetos y al proceso unificado (2ª edición). Graig Larman. Prentice Hall. 2003 Piensa en Java. Bruce Eckel. Prentice Hall. 2000 Francisco Montero Simarro Lectures, problems and practical work (laboratory Gregorio Diaz Descalzo). Theoretical/practical exam and evaluation of practical work (expert system prototype)

Subject code 42580 Visual Programming Hours per week 4 Optional Credits 5 To introduce students in visual programming and event oriented programming. Event oriented programming. Designing user interface. Using visual components. Designing visual components. Delphi, C#, ASP.NET tutorials. Jose A. Gallud Lectures, Practical classes Theoretical and practical exam.

Subject code 42582 Ampliation of Statistics Hours per week 3 Optional Credits 5 Many systems that we encounter are subject to some uncertainty; we call such systems stochastic. Often we are interested in understanding how a stochastic system evolves over time. For example, we might be interested in understanding how the price of a security, a firm's market share, or inventory levels of a particular product change with time. A system such as these can be described by a sequence of random variables called a stochastic process. This course provides an introduction to the theory of stochastic processes. Stochastic processes. Introduction. Discrete-time Markov Chains. Discrete-time Markov Chains. Classification of states. Poisson Processes. Continuous-time Markov Chains. Queueing theory. Queueing networks. Modeling and analysis of Stochastic Systems. V. G. Kulkarni. Ed: Chapman & Hall. 1992. Modeling, Analysis, Design, and Control of Stochastic Systems. V. G. Kulkarni. Ed: Springer Verlag, 1999. Francisco Parreño Torres Lectures, practical classes Theoretical/practical exam

Subject code 42583 Multimedia, Hypermedia and Virtual Reality Hours per week 4 Non-mandatory Credits 5 The goal of this course is to provide basic knowledge on human-computer interaction, hypertext and multimedia systems and their evolution to hypermedia systems, as well as the most advanced technologies in virtual reality. Human-computer interaction. Introduction to virtual reality. Modelling and image rendering. Hardware and software. Application development. Introduction to hypermedia. User level. Physical level. Hypermedia applications. G. Burdea y P. Coiffet. Tecnologías de realidad virtual. Paidós. 1996. P. Díaz, N. Catenazzi e I. Aedo. De la Multimedia a la Hipermedia. RA-MA. 1996. I. Gámez y M. Martín. VRML. Curso de iniciación. Inforbooks. 2001. José Pascual Molina Massó Lectures and practical work (laboratory). Theoretical exam and evaluation of practical work (interactive virtual world)

Subject code 42565 Offimatic Tools Hours per week 6 Optional Credits 6 Teaching Methodology Evaluation Methodology This course provides the basis to use basics offimatic tools from two points of view, as a user and as a programmer. Development of environmets to use the offimatic tools. Visual operating systems The Windows environment. Integrated software Automatized office and offimatic tools programming: Word processor. Calculus sheets. Data bases manager. Data interchange between applications. Michael Miller: Descubre Windows 98. Prentice Hall. Curso oficial de Microsoft: Windows XP Paso a Paso. Mc Graw Hill Juán Desongles-Mª Esperanza Dorado: Tratamiento de textos. MAD. Julio Carmona: Hojas de Cálculo. MAD. Julio Carmona: Bases de datos. MAD. Luís Navarro-Sergio Árboles: A fondo Word 2000. Infor Book s. Fermí Vilá: Excel 2000. Ra-Ma. Rick Dobson: Programación Avanzada con Access 2000. Mc Graw Hill. Gary Cornell: Aprende Visual Basic Script ya. Mc Graw Hill. Antonio Bueno Aroca Mastership lessons and practical lessons. Test exam to evaluate the Visual operating systems part, and practic work consisting in the programming of a offimatic tool for an hypothetic company to evaluate the Automatized office and offimatic tools programming part.

Subject code 42566 Gerential Information Systems Hours per week 4 Optional Credits 6 Know the fundamentals characteristics of Information Systems and theirs influences on the empresarial sector. To analise in which measurement the Information Tecnologies are affecting the competivity of business and their business process. Introduction to the Gerential Information Systems. The estrategic rol of the Information Technology. E-business. Implication of the information technology. News information technologies in business. Kenneth C. Laudon, Jane P. Laudon. Sistemas de Información Gerencial. Prentice-Hall. 2001. Raymond McLeod. Sistemas de Información Gerencial. Pearson Educación. 2000. Juan Luis García Navarro Lectures, problems and practical work (laboratory). Theoretical exam. Public exposition of the practical work.