Anna University,Chennai Department of B.E-Electronics and Communication Engineering Eighth Semester EC Embedded System. Subject Notes. ECE DEPARTMENT · EEE DEPARTMENT · CSE Subject: EC Embedded and real time systems. Departments: 8th Sem ECE Regulation. Anna University Notes Provider. EC / EC Embedded and Real Time Systems November/December Question Paper ECE 8th Semester.
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ECE Department strives to make the students to become exemplenary professionals by providing qualitative and quantitative academic teaching in order to meet the global challenges ecc2042 par with the industry standards.
The department by virtue of its efforts and set technical standards produces university rank holders starting from the successful graduation of the first batch of students.
The Department Mission To adopt effective teaching methods in order to maximize knowledge dissemination for students. To have adequate mechanisms to enhance the understanding and implementation of theoretical concepts in practical scenarios. To provide state-of-the-art infrastructure and facilities to the students and faculty members by creating a conducive ambience for excellence in engineering education.
To produce Electronics and Communication Engineering graduates with good ethical skills and managerial skills to blossom as successful professionals and entrepreneurs. To promote Industry Institute interaction in Electronics and Communication Engineering department for the students to involve in research activities. To excel in professional career and higher education by acquiring knowledge in the area of Electronics and Communication Engineering. To produce graduates with a professional outlook who can communicate effectively and interact responsibly in their profession.
To pursue lifelong learning by adapting present and future trends to render service to the society Program Outcomes POs Engineering Graduates will be able to: Apply knowledge of mathematics, science and Electronics and Communication Engineering fundamentals on the solutions of complex engineering problems. Identify, formulate and analyse complex Electronics and Communication Engineering problems. Design solutions for complex problems and design systems or processes for a specific need with real time constraints.
Conduct experiments as well as design, analysis and acquire results for complex Electronics and Communication problems. Conduct investigations of complex problems.
Select and apply proper techniques and modern engineering tools which are relevant to Electronics and Communication Engineering applications. Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and consequent responsibilities relevant to the professional engineering practice. The engineer and society. Examine the impact of engineering solutions in social and environmental context and apply knowledge for continuous development.
Develop consciousness of professional and ethical responsibilities in the field of Electronics and Communication Engineering. Apply skill to function as an individual and as a member or a leader in a multidisciplinary team. Individual and team work.
Communicate effectively on complex Electronics and Communication Engineering activities with the engineering community and with society at large, such as, being notds to comprehend and write effective reports and design documentation, make effective presentations. Manage Projects and finance in multidisciplinary environment as a member or leader in a team using engineering and management nots.
Project management and finance. Recognize the need to engage in lifelong learning. An ability to apply creativity in design and development of electronic circuits, equipment, components and systems. An ability to apply contextual knowledge of microprocessor, micro controller, DSP processor and software tools in embedded ec2402.
Skill on Software and Hardware Interfacing. An ability to comprehend the knowledge of wired, wireless communication networks in telecommunication industries. Knowledge on Communication Systems. Electronics and Communication Engineering department has a total of 1, square meter land area for laboratories.
There are separate labs for each of the Semester that includes. Compensation Offered Per Annum. Detection and classification of Microcalcification using shearlet wave transform. Automatic defect detection of steel products using supervised classifier.
Andriod phone controlled voice, Gesture and touch screen operated smart wheelchair with home automation options. Corrosion Inspection of Pipeline Networks by using Digital image processing. Relay Selection improves the security reliability Tade Off in Cognitive radio systems.
Performance analysis of image compression using discrete wavelet transform for different wavelets. Contact less Palm vein Recognition using a canny edge detection. Remote Authenitication Via Biometrics: A steganographic Mechanism using Secure Force Algorithm. Ship Detection from satellite image using support vector machine. An efficient traffic management protocol based on IEEE Dual Sensor Railway Track surveying controlled by wireless communications.
Non Invasive device for measurement of Gulucose in hemoglobin in blood. LED based street light with auto intensity controller using solar power. An Integer Wave let transform based high secured image stegnography Technic. Portable camera based assistive text and product label reading from hand held objects for blind people. Heart rate evaluation from Face reflection using Hilbert Huang Transform. Encroachement System for Boats using Double Encryption method.
Color object tracking robot by using Raspberry Pi with open CV.
Download EC2042 Embedded and Real Time Systems Lecture Notes (1)
Research – Team Dronix. Prathipa, Associate Professor Mrs. Jeya Ramya, Associate Professor Mrs. Jeya Ramya, Assosiate Professor Mrs. Jeya Ramya, Assosiate Professor. Imparting quality education to compete with global standards and evolve as a centre of excellence in Electronics and Communication Engineering with social commitment. To adopt effective teaching methods in order to maximize knowledge dissemination for ec22042.
To pursue lifelong learning by adapting present and future trends to render service to the society. Engineering Graduates will be able to: Conduct investigations of complex problems PO5: Modern tool usage PO6: The engineer and society PO7: Environment and sustainability PO8: Individual and team work PO Project management and finance PO Hardware designing skill PSO2: Morris Associate Professor Ph.
EC2042 Embedded and real time systems
Prathipa Associate Professor ME 9. Ashok Kumar Associate Professor M. Navarajan Associate Notew ME Kalaiarasi Assistant Professor M. Saranya Assistant Professor ME Jayashree Assistant Professor ME Sasikala Assistant Professor ME Krishnaveni Assistant Professor ME Banumathi Assistant Professor ME Arun Assistant Professor ME Jeyakannan Assistant Professor ME Indira Assistant Professor ME Gurupandi Assistant Professor ME Jansirani Assistant Professor ME Ranjana Ec242 Professor ME Poonguzhali Assistant Professor ME Prakash Assistant Professor ME Ashok Assistant Professor ME Rajeswari Assistant Professor ME Rajesh Assistant Professor ME Swetha Assistant Professor ME.
Download EC Embedded and Real Time Systems Lecture Notes (1) –
The Department Laboratory Electronics and Communication Engineering department has a total of 1, square meter land area for laboratories. There are separate labs for each of the Semester that includes There are separate labs for each of the Semester that includes: Name dc2042 the Floor Name of the Lab Area sq. Ground Floor Microprocessor and Microcontroller lab-I First Floor Optical and Microwave Lab Second Floor Digital Lab Linear Integrated Circuits Lab Electron devices and circuits Lab