Carnegie Mellon’s Department of Electrical and Computer Engineering is widely recognized as one of the best programs in the world. Students are rigorously trained in fundamentals of engineering, with a strong bent towards the maker culture of learning and doing blogger.com@blogger.com Faculty website. Areas of specialization. Health informatics, wireless capsule endoscopy, wearable health monitoring, smart-health, smart-city; Internet of things (IoT): design, development and deployment; IoT-drone generic infrastructure, security and cyber-physical systems; Image reconstruction in medical imaging (CT, MRI, etc.); Sensors and systems, wireless sensor MSc - Thesis route (30 credit hours) () The Master's thesis route requires students to pursue research supported by the Department of Computer Science. A fully qualified student may complete a Master's thesis route by undertaking 15 credits of coursework as well as 15 credits of thesis research together with the thesis defense
Electrical and Computer Engineering | Catalog
Returning to campus: Information, updates and vaccination requirements. Learn more. Staff Graduate Co-ordinator: Orland HoeberPhD. The Department of Computer Science offers programs of study involving interdepartmental, multi-institutional and inter-institutional collaboration that has attracted faculty members and graduate students from all over the world.
Students may pursue full-time or part-time graduate study leading towards the MSc and PhD degrees. The MSc and PhD degrees in Computer Science focus on four main areas of research: artificial intelligence; databases and information retrieval; graphics, image and audio processing; multimedia, wireless sensor networks security phd thesis, and software engineering. Specifically, active research topics conducted by faculty members include, but are not limited to:.
The Department of Computer Science maintains several research laboratories: Animation Software Design, Artificial Intelligence, Graphics, Intelligent Database System, Interactive Media, Computational Discovery, Multimedia Gaming, Open Systems, Rough Computing, Rough Music and Audio Digital Interactive aRMADILoSaskatchewan Research Network Digital Media, Software Engineering, and Web Intelligence. Both the TR and New Media Studio laboratories result from collaborative research with various partners from industry, university, and government.
The Department offers both a MSc and a PhD program in Computer Science. Areas of research specialization include Artificial Intelligence, Databases, Data Mining, Graphics, Human Computer Interaction, wireless sensor networks security phd thesis, Interactive Multi-media, Software Engineering and Uncertain Reasoning.
For fully qualified students, the MSc program provides four options for completing the degree requirements: thesis, project, co-op or course only, wireless sensor networks security phd thesis.
For the MSc, one course, at most, at the level is allowed. No more than 2 directed reading or special topics classes may be used in a program. The courses taken may include at most 2 courses outside of Computer Science. Program requirements are slightly different depending on which option is chosen. MSc and PhD students are required to do two seminar presentations that are not associated with program credit hours. The following presents the MSc program requirements for each program option.
Students must choose the MSc program option they will be following at the time of application. The Master's thesis route requires students to pursue research supported by the Department of Computer Science. A fully qualified student may complete a Master's thesis route by undertaking 15 credits of coursework as well as 15 credits of thesis research together with the thesis defense. Two non-credit CS seminar presentations are also required. MSc - Project route 30 credit hours A fully wireless sensor networks security phd thesis student may complete a Master's project route by undertaking 21 credits of coursework, 9 credits of professionally oriented project research, and project defense.
In addition, the student is required to give two non-credit CS seminar presentations. In the project route students must successfully complete a minimum of seven courses and a research project undertaken in the field together with a project report, presentation and defense, coupled with two non-credit seminar presentations.
MSc - Co-op route 36 credits program has been suspended effective The Master's co-op route requires students to pursue research areas supported by the Department of Computer Science. A fully qualified student may complete a Master's co-op route by undertaking 21 credits of coursework; 12 credits of professionally oriented project wireless sensor networks security phd thesis and 3 credits of co-op education placement project report, presentation and defense.
MSc - Course route 30 credit hours admission to this program has been suspended effective A fully-qualified student may complete a Master's course-based route by undertaking 30 credits for coursework.
In addition, the student is required to give one non-credit seminar presentations. Pre-Approved Non-Computer Science Courses The following courses have been pre-approved and will satisfy the non-CS course requirement in all CS graduate programs listed above.
Please note that this is not meant to be an exhaustive list of the non-CS courses that may be taken. Its only purpse is to itemize those courses that have already been examined and approved. Students are encouraged to consider courses not on the list that are relevant to their programs, whild being reminded that all non-CS courses not on the wireless sensor networks security phd thesis must be approved.
Please see the relative programs areas on the FGSR website for course descriptions. MSc - Data Science 30 credit hours A fully-qualified student may complete a Master's in Data Science by undertaking 30 credits of coursework.
Students in this route who are interested in pursuing the Co-op Designation must complete CS, wireless sensor networks security phd thesis,and before they can undertake any co-op work terms. A fully-qualified student may complete a Master's in Human-Centred Computing by undertaking 30 credits of coursework. After a MSc in Computer Science, the PhD program consists of at least 9 credit hours of course work and 51 credit hours of research resulting in the presentation of a substantial thesis.
Successful completion of the PhD course requires a minimum of three 3 full years. CS Graduate Co-op Report 3 The student makes a formal presentation of the report.
Note: Completion of CS and Wireless sensor networks security phd thesis are required prior to registration in CS CS Graduate Co-op Work Term I 0 This is the first one semester graduate work experience placement for graduate students wireless sensor networks security phd thesis Computer Science.
A preliminary work term report must be submitted before the end of the semester. CS Graduate Co-op Work Term II 0 This is the second one semester graduate work experience placement for graduate students in Computer Science. A final work term report must be submitted before the end of the semester. CS Software Development Fundamentals 3 Modern software development principles and practices. Topics include modern software development fundamentals and methodologies, unit testing, source code control, teamwork, and modern programming languages, frameworks, software development tools, and environments.
Note: This course is common for all streams in the MSc Course Route. Topics include Python fundamentals, object-oriented design, data modelling, advanced data structures, extract, transform, and load ETL philosophy, data-centred libraries e. CS Foundations of Data Science 3 Broad overview of the data science process lifecycle and methods. Topics include data ethics, data discovery, data preparation, model planning, machine learning model implementation, and evaluation, visualization, and delivery.
CS Applied Machine Learning 3 Machine learning approaches applied to real-world problems. Topics include classification, regression, clustering, decision trees and random forests, Bayesian networks, deep learning, face and object recognition, time-series forecasting, anomaly detection, natural language processing, and machine translation.
Topics include foundations of cloud computing, containers, micro-services, distributed file systems, MapReduce, wireless sensor networks security phd thesis, real-time data processing, scale-up, scale-out, and cloud-based machine learning.
Students will undertake a milestone-based project using Microsoft Azure, Amazon Web Services, Google Cloud, or some other cloud platform. Topics may include the latest advancements in reinforcement learning, deep learning, spatio-temporal forecasting, and natural language processing. Students will pursue real-world data science project that employs the latest machine learning methods and techniques. Topics include communication fundamentals, visualization fundamentals, data science notebooks, and visualization libraries.
Students will be expected to communicate information about a data science project in four different modes: structured abstract, poster, wireless sensor networks security phd thesis, project notebook, and oral presentation. A milestone-based project will be pursued, serving as wireless sensor networks security phd thesis capstone for the Data Science Stream. Final projects will be demonstrated and presented in a public venue. CS Human-Computer Interaction Fundamentals 3 Theory related to the design of usable software.
Topics include contexts for human computer interaction, foundations of usability, cognitive models, perceptual models, social models, physical capabilities, accessibility, interface standards, user experience, principles of good design.
CS Human-Centered Interface Design and Implementation 3 Practice of designing and implementing usable software. Topics include processes for human-centered interface development, task analysis, usability requirements, user-centred design, design patterns, prototyping, and modern graphical user interface libraries, builders, and environments.
Students will undertake a milestone-based project leading to the design and implementation of a web-based application. CS Foundations of Human-Centred Evaluation Methods 3 Methods for evaluating human-centred software. Topics include usability testing, cognitive walkthroughs, heuristic evaluations, controlled laboratory studies, naturalistic studies, and Research Ethics Board applications. Students will design and conduct a comprehensive study of a user wireless sensor networks security phd thesis. Topics include geographic and mathematical modelling, wireless sensor networks security phd thesis, image rendering and synthesis, principles of animation, and graphics and animation frameworks.
CS Mobile Computing 3 Design and implementation of software for a networked mobile environment. Topics include the benefits and limitations of modern mobile devices, network programming, sensor programming, interface design for small screens, touch-based interaction, voice-based interaction, hybrid mobile application development practices. CS Virtual and Augmented Reality 3 Design and implementation of software in virtual and augmented wireless sensor networks security phd thesis environments.
Topics include virtual reality VR and augmented reality AR technology, 3D modelling, locomotion, interaction, audio, psychological and physical effects, and telepresence. Students will undertake a milestone-based project leading to the design and implementation of a VR or AR wireless sensor networks security phd thesis. CS Information Visualization 3 Design and development of interactive visualization techniques for the analysis, comprehension, exploration, and explanation of large collections of abstract information.
Topics include principles of visual perception, information data types, visual encodings of data, representations of complex data types, and interaction methods. A milestone-based project will be pursued, serving as a capstone for the Human-Centred Computing Stream.
CS Analysis and Design of Parallel Algorithms 3 Theoretical and practical aspects of parallel algorithms; functional descriptions of various parallel models of computations; interconnection networks for multi-computers. Prior to registering in this course, students should have a background in parallel computing comparable to the senior undergraduate level. CS Computer Graphics 3 Geometric and other advanced modelling techniques; image rendering and synthesis techniques; interactive graphics; issues in computer animation.
Prior to registering in this course, students should have a background in computer graphics comparable to the senior undergraduate level. CS Interactive Hardware and Embedded Computing 3 Hardware design for physical and pervasive computing systems.
Wired and wireless communication protocols; sensors and actuators; resource constraints; location- and context -awareness. Applications include wearable computing, wireless sensor networks, robotics and automation, internet of things. Embedded hardware platforms such as ARM raspberry Pi and AVR Arduino. CS Advanced Animation Software Design 3 Principles of animation. Current research areas in animation software design. Features and architecture of animation software.
Timelines, motion pathways, parametric key framing kinematics, gaseous phenomena, and facial animation. CS Interactive Entertainment Software 3 This course surveys current research on the design and implementation of interactive entertainment software, including computer games.
Topics include: interactivity, principles of interactive entertainment, hardware platforms, current software development tools and languages, game loop, design of virtual worlds and virtual characters, real-time requirements, incorporating multimedia resources, aesthetics.
CS Theory of Computing 3 Study of fundamental concepts of computer science from the theoretical point of view; basic concepts of computational complexity theory, algorithm analysis and their relation to the set of problems which can be programmed; "good" algorithm design. Prior to registering in this course, students should have a background in introductory compiler design, or algorithm analysis comparable to the senior undergraduate level, wireless sensor networks security phd thesis.
CS Computer Vision 3 Sensing techniques; sensing data pre-processing; higher level scene descriptions; model-based recognition; motion analysis. Prior to registering in this course, students should have a background in image processing comparable to the senior undergraduate level.
CS Artificial Intelligence 3 Logics; natural language processing; knowledge representation; uncertainty reasoning; machine learning; expert systems; neural networks.
Wireless Sensor Network Security Projects - Wireless Sensor Network Security Thesis
, time: 1:34Electrical Engineering - Future graduate students - University of Saskatchewan
We would like to show you a description here but the site won’t allow blogger.com more Carnegie Mellon’s Department of Electrical and Computer Engineering is widely recognized as one of the best programs in the world. Students are rigorously trained in fundamentals of engineering, with a strong bent towards the maker culture of learning and doing Supporting Group Communication among Interacting Agents in Wireless Sensor Networks. Proceedings of the IEEE Wireless Communications and Networking Conference (WCNC ), Vol. 4, pp. , Anthony Man-Cho So, Yinyu Ye. Theory of Semidefinite Programming for Sensor Network Localization
No comments:
Post a Comment