. "Foundations of signals and systems"@en . . "6" . "Objectives and Contextualisation\nIntroduce the student to the analysis and characterization of signals and systems, with emphasis on linear systems.\nLearn the Laplace transform and its properties.\nLearn how to apply the Laplace transform to circuit analysis.\nLearn and apply the concept of transfer function of an LTI system.\nLearn how to obtain the Bode diagram of a system.\nLearn the Fourier transform and its properties.\nLearn how to apply the Fourier transform to periodic signals (Fourier series) and the limitation in time (windowing) and frequency (Gibbs phenomenon).\nLearn and apply the concepts of energy and power of a signal.\nLearn and know how to apply the concepts of correlation and spectrum of signals\n\nCompetences\nElectronic Engineering for Telecommunication\nCommunication\nDevelop personal attitude.\nDevelop personal work habits.\nDevelop thinking habits.\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nTelecommunication Systems Engineering\nCommunication\nDevelop personal attitude.\nDevelop personal work habits.\nDevelop thinking habits.\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nLearning Outcomes\nAnalyse and design analogue signal processing diagrams.\nApply the basic concepts of linear systems and the related functions and transforms, to resolve engineering problems.\nAutonomously learn new and suitable knowledge and techniques for devising, developing or exploiting telecommunication systems, especially with regard to basic signal processing subsystems.\nCommunicate efficiently, orally and in writing, knowledge, results and skills, both professionally and to non-expert audiences.\nDescribe the fundamental parameters of a communications system, in the functional aspect.\nDevelop curiosity and creativity.\nDevelop independent learning strategies.\nDevelop the capacity for analysis and synthesis.\nManage available time and resources.\nManage available time and resources. Work in an organised manner.\nUse computer tools to research bibliographic resources or information on telecommunications and electronics.\nWork autonomously.\n\nContent\nIntroduction to the subject. Signals and systems.\nSignals. Independent variable transforms and basic signals.\nSystem properties: linearity, invariance, causality and stability.\nLinear and time invariant systems (LTI). Convolution equation.\nThe Laplace transform.\nLaplace transform. Definition. Properties.\nSolution of differential equations using the Laplace transform.\nObtaining the inverse Laplace transform.\nApplications of the Laplace transform.\nAnalysis of circuits with capacitors and inductors.\nTransfer function of a system. Definition and obtention of the impulse response.\nPole and zero diagrams and system stability.\nPermanent response of a system. Bode diagrams.\nThe Fourier transform.\nDefinition of the Fourier transform.\nTransform of basic signals.\nProperties of the Fourier transform.\nLimitation in frequency (Gibbs phenomenon) and limitation in time (windowing).\nFourier transform of periodic signals. The Fourier series.\nCorrelation and spectrum of deterministic signals.\nEnergy and power\nCorrelation and energy spectrum.\nCorrelation and power spectrum" . . "Presential"@en . "TRUE" . . "Signal Processing"@en . . . . . . . . . . . . . . . . . . . . . . . . . "Bachelor in Telecommunication Systems Engineering"@en . . "https://www.uab.cat/web/estudiar/ehea-degrees/general-information/computer-engineering-telecommunication-systems-engineering-1216708259085.html?param1=1345654047869" . "327"^^ . "Presential"@en . "The fast-paced technological evolution and advances in globalisation have made the information and communication technologies (ICTs) present in almost all of our personal and also professional activities. The union of concepts such as information technology, internet and telecommunications is a reality demanding the knowledge of professionals capable of working in all three areas. For this reason, the UAB offers a double degree in which students can receive integrated training leading to two diplomas in five years.\n\nStudents of the double degree in Computer Engineering (Specialisation in Information Technologies) + Telecommunication Systems Engineering will receive training in both the subjects belonging to each degree and interdisciplinary training to help successfully face the professional challenges of the ICTs and acquire a highly valued versatility with which to stand out from other professionals in the sector.\n\nThe close relation with advanced technological and research centres of both local and international prestige, and with leading companies from the ICT sector, facilitates student participation in high quality work placements and a successful entry into the labour market."@en . . . . "5"@en . "FALSE" . . . "Bachelor"@en . "Both" . "1199.90" . "Euro"@en . "Not informative" . "Recommended" . "no data"@en . "no data" . "FALSE" . "Midstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .