Distributed systems. Memory architectures, architectures for control-dominated systems. Architectures for data-dominated systems. Compilation techniques for embedded processor architectures. Modern embedded architectures. Architecture examples in multimedia, wireless and telecommunications. Examples of emerging architectures. Multiprocessor and multicore systems. The aim is to critically examine and provide insights into the practice and process of strategic management within a variety of private and public sector organisations.
What actions can employees pursue in order to attain superior performance for their organisation relative to their competitors? This course is designed to allow students to develop their skills of strategic analysis and their ability to think about the selection and implementation of appropriate strategies in different industry contexts and in different types and styles of organisations, including non-profit and public sector organisations.
Characterising human behaviour in biometrics-based systems. Implementation of biometric systems. Examples of systems using the major modalities such as face recognition, iris recognition, handwritten signature verification, fingerprint processing, etc. Analysis of modality specific techniques: segmentation, feature extraction, selection and classification strategies. State of the art in sensor technologies; Spoofing and counter-measures.
Introduction to signals and signal analysis. Frequency and time domain representations of signals. Noise: definitions and sources of noise in signal analysis. The Fourier Transform FT. The Z-transform. Pole-Zero placement methods for signal analysis. Transfer functions in S and Z domains. Multirate DSP. Architectures and devices for digital signal processing. Effects of Finite Precision. Processing and filtering of signals for Instrumentation and measurement, Processing and filtering of images: DSP in modern communication systems.
An Introduction to reconfigurable systems. Fine grain architectures, Coarse grain architectures, Heterogeneous device Architectures. Case studies. Configuration of FPGA's. Run-time configuration, partial configuration, dynamic reconfiguration. Partitioning systems onto a reconfigurable fabric. Synthesis tools.
Timing issues. Verification and Test strategies. An introduction to Hardware Description Languages. The lectures will define the architectural aspects of a VHDL : entity, architecture, process, package, types, operators, libraries, hierarchy, test benches and synthesisable VHDL. Workshops and laboratories will be used to illustrate how VHDL code is synthesised on to physical hardware devices and a number of challenging practical design examples will be used to illustrate the process.
Basic computer arithmetic and its implementation on reconfigurable logic architectures. Fixed-point and Floating point number representations. Redundant Number Systems. Residue Number Systems. Methods for Addition and Subtraction. Fast adder architectures. Multi-operand addition. High-throughput arithmetic. Low-power arithmetic. This module focuses on the basic principles of modern computer architecture and how they are mapped onto modern bit microcontrollers.
The course uses the ARM processor core as an exemplar of a modern processor architecture that is now ubiquitous in embedded systems. This material will include: Variables, data-types and arithmetic expressions. Strings, Loops, Arrays. Functions, Structures, Pointers, bit operators. The pre-processor.
Debugging Programs. Object-Oriented Programming. The Standard C Library. Issues such as software testing and testing strategies are discussed. GNU based toolchains for Microcontroller development. Network security and encryption mechanisms: IPSec and other security protocols. Network performance analysis, queuing theory, and network simulation. Practical work is carried out in air-conditioned laboratories, with state-of-the-art equipment and outstanding IT infrastructure.
Stage 1 modules are assessed by coursework and examination at the end of the year. All years include project work to replicate industrial practice and develop skills to maximise employability. The precise breakdown of hours will be subject dependent and will vary according to modules. Please refer to the individual module details under Course Structure.
Methods of assessment will vary according to subject specialism and individual modules. The School of Engineering and Digital Arts has an excellent record of student employability. Previous graduates have gone on to careers in:. The School of Engineering and Digital Arts holds an annual Employability and Careers Day where you can meet local and national employers and discuss career opportunities. Ongoing support is provided by the School's dedicated Employability Officer.
The University also has a friendly Careers and Employability Service which can give you advice on how to:. Alongside a range of advanced specialist skills, you also develop the transferable skills graduate employers look for, including the ability to:. You can gain extra skills by signing up for one of our Kent Extra activities, such as learning a language or volunteering. Our programme is accredited by the Institution of Engineering and Technology IET , which enables fast-track career progression as a professional engineer.
The University will consider applications from students offering a wide range of qualifications. Typical requirements are listed below. Students offering alternative qualifications should contact us for further advice. The University will not necessarily make conditional offers to all Access candidates but will continue to assess them on an individual basis. The University welcomes applications from international students. Our international recruitment team can guide you on entry requirements.
However, please note that international fee-paying students cannot undertake a part-time programme due to visa restrictions. If you need to increase your level of qualification ready for undergraduate study, we offer a number of International Foundation Programmes. For more advice about applying to Kent, you can meet our staff at a range of international events.
Feedback Control for Computer Systems: Introducing Control Theory to Enterprise Programmers [Philipp K. Janert] on lahocybu.ga *FREE* shipping on . Editorial Reviews. Book Description. Introducing Control Theory to Enterprise Programmers.
Please see our English language entry requirements web page. Please note that if you are required to meet an English language condition, we offer a number of 'pre-sessional' courses in English for Academic Purposes. You attend these courses before starting your degree programme. Please also see our general entry requirements. For details of when and how to pay fees and charges, please see our Student Finance Guide. The University will assess your fee status as part of the application process. Kent offers generous financial support schemes to assist eligible undergraduate students during their studies.
You may be eligible for government finance to help pay for the costs of studying. Scholarships are available for excellence in academic performance, sport and music and are awarded on merit.
At Kent we recognise, encourage and reward excellence. We have created the Kent Scholarship for Academic Excellence. Order a full prospectus full-time. Search courses Search courses. All undergraduate All postgraduate Short courses. We may still have full-time vacancies available for this course.
View course details. Canterbury Contact Us Prospectus. Visit us Apply now. Overview The range of uses for computers is increasing all the time — from smartphones and tablets to aircraft flight control systems and global telecommunications. Our degree programme Computer technology, telecommunications and consumer electronics are rapidly evolving, so experts in these fields are in great demand. Year in industry You can take a work placement between the second and third years of your degree. Study resources The School of Engineering and Digital Arts offers cutting-edge equipment and facilities, including: four air-conditioned computer suites with high-end computers seat engineering laboratory extensive professional CAD development software PCB and surface-mount facilities mechanical workshop Matlab for system modelling 3dMD 3D imaging scanner for general purpose capture and biometric research VICON Infrared Motion Capture System anechoic chamber for EMC pre-compliance testing and antenna characterisation.
Professional network The School of Engineering and Digital Arts has a long history of collaboration with industry. Independent rankings Electronic and Electrical Engineering at Kent scored View full module details. Mechanics: Forces, moments and Equilibrium of rigid bodies Dynamics of linear and rotary motion Angular momentum, work and energy Elementary stress-strain analysis Engineering Design: Transformation of a client requirement into an engineering design statement Decomposition and evaluation of design requirements Consideration of the human and ergonomic factors in the design process CAD based drawings and models via CAD tools Realisation of CAD models using computer numerical control manufacturing machines View full module details.
Introduction to the project, research techniques, poster design, report structure and writing. Note that topics will not necessarily be delivered in this order: Professional issues and professional organisations. Criminal law relating to networked computer use, including new Anti-Terrorism legislation; and their application Intellectual Property Rights, including Copyright, Patent and Contract Law. The project has the following features:- 1 Each group is supervised by a team of academic staff who provide a brief description of what is required for the project. Project Management and "Level 2" Systems Engineering.
One 2-hour laboratory session introducing and practising the use of MS project. The strategy module has two main learning components: - Acquiring theory and concepts in strategy and strategic management. Topics include: - What is Strategy, and Why is it Important? Signals: Introduction to signals and signal analysis. Enquire online. Download a full prospectus PDF. Related to this course.
EL - Electronic Circuits The module provides techniques to design electronic circuits containing active and passive components and to appreciate the power issues and frequency response of circuits containing reactive elements.
This module builds on the foundation of object-oriented design and implementation found in CO to provide both a broader and a deeper understanding of and facility with object-oriented program design and implementation. Critical analysis of published accidents and subsequent investigations; the Comet airliners, Sea Gem, the Tay Bridge, Alexander L Kielland, various gas explosions, and the Space Shuttle. In Richard Arkwright invented the first fully automated spinning mill driven by water power, known at the time as the water frame. In the simplest type of an automatic control loop , a controller compares a measured value of a process with a desired set value, and processes the resulting error signal to change some input to the process, in such a way that the process stays at its set point despite disturbances. CO - Introduction to Object-Oriented Programming This module provides an introduction to object-oriented software development. Various topics in linear and nonlinear optics are applied in such areas as birefringent filters, second-harmonic generators, optical parametric oscillators, and acousto-optical beam deflectors. The goal of the field of computer vision is to make useful decisions about real physical objects and scenes based on sensed images.
EL - Introduction to Electronics The module provides an introduction to the basic knowledge required to understand, design and work with basic electronic circuits and the basic principles underlying the process of Electronic Engineering. EL - First Year Engineering Applications Project The module provides a first attempt to translate a problem into a technical solution. EL - Digital Technologies This module provides an introduction to contemporary digital systems design.
EL - Engineering Mathematics Mathematics is the fundamental language of engineering, allowing complex ideas to be formulated and developed. EL - Engineering Analysis This module expands the introductory mathematics covered in EL and provides students with the appropriate mathematical tools necessary for the further study of electronic, mechanical and computer systems. EL - Introduction to Mechanical Engineering and Design Mechanics: Forces, moments and Equilibrium of rigid bodies Dynamics of linear and rotary motion Angular momentum, work and energy Elementary stress-strain analysis Engineering Design: Transformation of a client requirement into an engineering design statement Decomposition and evaluation of design requirements Consideration of the human and ergonomic factors in the design process CAD based drawings and models via CAD tools Realisation of CAD models using computer numerical control manufacturing machines View full module details.
CO - Introduction to Object-Oriented Programming This module provides an introduction to object-oriented software development. CO - Further Object-Oriented Programming This module builds on the foundation of object-oriented design and implementation found in CO to provide both a broader and a deeper understanding of and facility with object-oriented program design and implementation. EL - Computer Interfacing Group Project The module consists of a practical group project involving both hardware and software.
Learn feedback concepts and controller design Get practical techniques for implementing and tuning controllers Use feedback "design patterns" for common control scenarios Maintain a caches "hit rate" by automatically adjusting its size Respond to web traffic by scaling server instances automatically Explore ways to use feedback principles with queueing systems Learn how to control memory consumption in a game engine Take a deep dive into feedback control theory.
Bolton ,00 TL. Charles L. Mazidi Rolin D. McKinlay ,00 TL.
Microcontroller Technology: The 68hc11 ,00 TL. Basic Heat and Mass Transfer A. Mills ,00 TL.