PROGRAMME EDUCATIONAL OBJECTIVES (PEOs):

B.E (ECE) graduates of SMIT are able to:

PEO1: To provide the students with a strong foundation in the required sciences in order to pursue studies in Electronics and Communication Engineering.

PEO2: To gain adequate knowledge to become good professional in electronic and communication engineering associated industries, higher education and research.

PEO3:  To develop attitude in lifelong learning, applying and adapting new ideas and technologies as their field evolves.

PEO4: To prepare students to critically analyze existing literature in an area of specialization and ethically develop innovative and research oriented methodologies to solve the problems identified.

PEO5:To inculcate in the students a professional and ethical attitude and an ability to visualize the engineering issues in a broader social context.

 

PROGRAMME OUTCOMES:

UG Engineering students by the time of graduation will be able to:

1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
2. Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineeringsciences.
3. Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmentalconsiderations.
4. Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide validconclusions.
5. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of thelimitations.
6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineeringpractice.
7. Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainabledevelopment.
8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineeringpractice.
9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinarysettings.
10. Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
11. Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one‘s own work, as a member and leader in a team, to manage projects and in multidisciplinaryenvironments.
12. Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

PROGRAM SPECIFIC OBJECTIVES (PSOs)

1. To design, develop and analyze electronic systems through application of relevant electronics, mathematics and engineering principles
2. To Design, develop and analyze communication systems through application of fundamentals from communication principles, signal processing, and RF System Design & Electromagnetics.
3. To adapt to emerging electronics and communication technologies and develop innovative solutions for existing and newer problems

Contribution             1:     Reasonable                    2: Significant             3:  Strong

SEMESTER I

C101 – PROFESSIONAL ENGLISH – I (HS3152)

C101.1	To use appropriate words in a professional context
C101.2	To gain understanding of basic grammatic structures and use them in right context.
C101.3	To read and infer the denotative and connotative meanings of technical texts
C101.4	To write definitions, descriptions, narrations and essays on various topics

 

C102 – MATRICES AND CALCULUS (MA3151)

C102.1	Use the matrix algebra methods for solving practical problems.
C102.2	Apply differential calculus tools in solving various application problems.
C102.3	Able to use differential calculus ideas on several variable functions.
C102.4	Apply different methods of integration in solving practical problems.
C102.5	Apply multiple integral ideas in solving areas, volumes and other practical problems.

 

C103 – ENGINEERING PHYSICS (PH3151)

C103.1	Understand the importance of mechanics.
C103.2	Express their knowledge in electromagnetic waves.
C103.3	Demonstrate a strong foundational knowledge in oscillations, optics and lasers.
C103.4	Understand the importance of quantum physics.
C103.5	Comprehend and apply quantum mechanical principles towards the formation of energy bands.

 

C104 – ENGINEERING CHEMISTRY (CY3151)

C104.1	To infer the quality of water from quality parameter data and propose suitable treatment methodologies to treat water.
C104.2	To identify and apply basic concepts of nanoscience and nanotechnology in designing the synthesis of nanomaterials for engineering and technology applications.
C104.3	To apply the knowledge of phase rule and composites for material selection requirements.
C104.4	To recommend suitable fuels for engineering processes and applications.
C104.5	To recognize different forms of energy resources and apply them for suitable applications in energy sectors.

 

C105 – PROBLEM SOLVING AND PYTHON PROGRAMMING (GE3151)

C105.1	Develop algorithmic solutions to simple computational problems.
C105.2	Develop and execute simple Python programs.
C105.3	Write simple Python programs using conditionals and loops for solving problems.
C105.4	Decompose a Python program into functions.
C105.5	Represent compound data using Python lists, tuples, dictionaries etc.
C105.6	Read and write data from/to files in Python programs.

 

C106 – தமிழர்மரபு /Heritage of Tamils (GE3152)

C106.1	Gain a deep knowledge of the political, social, and economic history of the Tamil people, from ancient Tamil kingdoms to modern-day Tamil Nadu and the Tamil diaspora.
C106.2	Develop an understanding of the distinctive features of Tamil art forms, temple architecture, music, and dance, and their role in shaping Tamil identity.
C106.3	Introduce to the richness of classical Tamil literature, such as the Sangam texts, and understand the evolution of the Tamil language over centuries.
C106.4	Explore major Tamil religious practices, philosophies, and contributions to Hinduism, Jainism, Buddhism, and Christianity, highlighting their influence on Tamil culture and society.
C106.5	Examine the historical and contemporary contributions of Tamil communities around the world, understanding their role in global trade, politics, and cultural exchange throughout history.

 

C107 – PROBLEM SOLVING AND PYTHON PROGRAMMING LABORATORY (GE3171)

C107.1	Develop algorithmic solutions to simple computational problems
C107.2	Develop and execute simple Python programs.
C107.3	Implement programs in Python using conditionals and loops for solving problems.
C107.4	Deploy functions to decompose a Python program.
C107.5	Process compound data using Python data structures.
C107.6	Utilize Python packages in developing software applications.

 

C108 – PHYSICS AND CHEMISTRY LABORATORY (BS3171)

PHYSICS LABORATORY
C108.1	Understand the functioning of various physics laboratory equipment.
C108.2	Use graphical models to analyze laboratory data.
C108.3	Use mathematical models as a medium for quantitative reasoning and describing physical reality.
C108.4	Access, process and analyze scientific information.
C108.5	Solve problems individually and collaboratively.
CHEMISTRY LABORATORY
C108.6	To analyse the quality of water samples with respect to their acidity, alkalinity, hardness and DO.
C108.7	To determine the amount of metal ions through volumetric and spectroscopic techniques
C108.8	To analyse and determine the composition of alloys.
C108.9	To learn simple method of synthesis of nanoparticles
C108.10	To quantitatively analyse the impurities in solution by electroanalytical techniques

 

C109 – ENGLISH LABORATORY (GE3172)

C109.1	To listen to and comprehend general as well as complex academic information
C109.2	To listen to and understand different points of view in a discussion
C109.3	To speak fluently and accurately in formal and informal communicative contexts
C109.4	To describe products and processes and explain their uses and purposes clearly and accurately
C109.5	To express their opinions effectively in both formal and informal discussions

 

SEMESTER II

 

C110 – PROFESSIONAL ENGLISH –II (HS3252)

C110.1	To compare and contrast products and ideas in technical texts.
C110.2	To identify and report cause and effects in events, industrial processes through technical texts
C110.3	To analyse problems in order to arrive at feasible solutions and communicate them in the written format.
C110.4	To present their ideas and opinions in a planned and logical manner
C110.5	To draft effective resumes in the context of job search.

 

C111 – STATISTICS AND NUMERICAL METHODS (MA3251)

C111.1	Apply the concept of testing of hypothesis for small and large samples in real life problems.
C111.2	Apply the basic concepts of classifications of design of experiments in the field of agriculture.
C111.3	Appreciate the numerical techniques of interpolation in various intervals and apply the numerical techniques of differentiation and integration for engineering problems.
C111.4	Understand the knowledge of various techniques and methods for solving first and second order ordinary differential equations.
C111.5	Solve the partial and ordinary differential equations with initial and boundary conditions by using certain techniques with engineering applications.

 

C112 –  PHYSICS FOR ELECTRONICS ENGINEERING (PH3254)

C112.1	Know basics of crystallography and its importance for varied materials properties
C112.2	Gain knowledge on the electrical and magnetic properties of materials and their applications
C112.3	Understand clearly of semiconductor physics and functioning of semiconductor devices
C112.4	Understand the optical properties of materials and working principles of various optical devices
C112.5	Appreciate the importance of nanotechnology and nanodevices.

 

C113 – ELECTRICAL AND INSTRUMENTATION ENGINEERING (BE3254)                                           

C113.1	Explain the working principle of electrical machines
C113.2	Analyze the output characterizes of electrical machines
C113.3	Choose the appropriate electrical machines for various applications
C113.4	Explain the types and operating principles of measuring instruments
C113.5	Explain the basic power system structure and protection schemes

 

C114 – ENGINEERING GRAPHICS (GE3251)

C114.1	Use BIS conventions and specifications for engineering drawing.
C114.2	Construct the conic curves, involutes and cycloid.
C114.3	Solve practical problems involving projection of lines.
C114.4	Draw the orthographic, isometric and perspective projections of simple solids.
C114.5	Draw the development of simple solids.

 

C115 – CIRCUIT ANALYSIS (EC3251)

C115.1	Apply the basic concepts of circuit analysis such as Kirchoff’s laws, mesh current and node voltage method for analysis of DC and AC circuits.
C115.2	Apply suitable network theorems and analyze AC and DC circuits
C115.3	Analyze steady state response of any R, L and C circuits
C115.4	Analyze the transient response for any RC, RL and RLC circuits and frequency response of parallel and series resonance circuits.
C115.5	Analyze the coupled circuits and network topologies

 

C116 – TAMILS AND TECHNOLOGY (GE3252)

C116.1	Learn how technology has evolved in Tamil society, from ancient innovations in agriculture, architecture, and maritime trade to modern advancements in science and engineering.
C116.2	Highlight contributions made by Tamil scholars, engineers, and scientists in fields like mathematics, medicine, and space research, emphasizing their global impact.
C116.3	Explore how modern technology, such as software, AI, and digital platforms, plays a role in preserving and promoting Tamil language and literature in the digital era.
C116.4	Examine how advancements in communication, media, and transportation have influenced Tamil culture, including cinema, music, and social practices in Tamil communities worldwide.
C116.5	Introduced to emerging technologies, such as AI, machine learning, andblockchain, and their potential application in addressing challenges and opportunities specific to Tamil society, such as in education, agriculture, and governance.

 

C117 – ENGINEERING PRACTICES LABORATORY (GE3271)

C117.1	Draw pipe line plan; lay and connect various pipe fittings used in common household plumbing work; Saw; plan; make joints in wood materials used in common household wood work.
C117.2	Wire various electrical joints in common household electrical wire work.
C117.3	Weld various joints in steel plates using arc welding work; Machine various simple processes like turning, drilling, tapping in parts; Assemble simple mechanical assembly of common household equipments; Make a tray out of metal sheet using sheet metal work.
C117.4	Solder and test simple electronic circuits; Assemble and test simple electronic components on PCB.

 

C118 – CIRCUIT ANALYSIS LABORATORY (EC3271)

C118.1	Design RL and RC circuits.
C118.2	Verify Thevinin & Norton theorem KVL & KCL, and Super Position Theorems.

 

C119 – COMMUNICATION LABORATORY (GE3272)

C119.1	Speak effectively in group discussions held in formal/semi formal contexts.
C119.2	Discuss, analyse and present concepts and problems from various perspectives to arrive at suitable solutions
C119.3	Write emails, letters and effective job applications.
C119.4	Write critical reports to convey data and information with clarity and precision
C119.5	Give appropriate instructions and recommendations for safe execution of tasks

 

SEMESTER III

 

C201 -RANDOM PROCESSES AND LINEAR ALGEBRA (MA3355)

C201.1	Explain the fundamental concepts of advanced algebra and their role in modern mathematics and applied contexts.
C201.2	Demonstrate accurate and efficient use of advanced algebraic techniques.
C201.3	Apply the concept of random processes in engineering disciplines.
C201.4	Understand the fundamental concepts of probability with a thorough knowledge of standard distributions that can describe certain real-life phenomenon.
C201.5	Understand the basic concepts of one and two dimensional random variables and apply them to model engineering problems.

 

C202 – C PROGRAMMING AND DATA STRUCTURES (CS3353)

C202.1	Develop C programs for any real world/technical application.
C202.2	Apply advanced features of C in solving problems.
C202.3	Write functions to implement linear and non–linear data structure operations.
C202.4	Suggest and use appropriate linear/non–linear data structure operations for solving a given problem.
C202.5	Appropriately use sort and search algorithms for a given application.
C202.6	Apply appropriate hash functions that result in a collision free scenario for data storage and retrieval.

 

C203 – SIGNALS AND SYSTEMS (EC3354)

C203.1	Determine if a given system is linear/causal/stable
C203.2	Determine the frequency components present in a deterministic signal
C203.3	Characterize continuous LTI systems in the time domain and frequency domain
C203.4	Characterize discrete LTI systems in the time domain and frequency domain
C203.5	Compute the output of an LTI system in the time and frequency domains

 

C204 – ELECTRONIC DEVICES AND CIRCUITS (EC3353)

C204.1	Explain the structure and working operation of basic electronic devices.
C204.2	Design and analyze amplifiers.
C204.3	Analyze frequency response of BJT and MOSFET amplifiers
C204.4	Design and analyze feedback amplifiers and oscillator principles.
C204.5	Design and analyze power amplifiers and supply circuits

 

C205 – CONTROL SYSTEMS (EC3351)

C205.1	Compute the transfer function of different physical systems.
C205.2	Analyse the time domain specification and calculate the steady state error.
C205.3	Illustrate the frequency response characteristics of open loop and closed loop system response.
C205.4	Analyse the stability using Routh and root locus techniques.
C205.5	Illustrate the state space model of a physical system and discuss the concepts of sampled data control system.

C206 – DIGITAL SYSTEMS DESIGN (EC3352)

C206.1	Use Boolean algebra and simplification procedures relevant to digital logic.
C206.2	Design various combinational digital circuits using logic gates.
C206.3	Analyse and design synchronous sequential circuits.
C206.4	Analyse and design asynchronous sequential circuits.
C206.5	Build logic gates and use programmable devices

C207 – ELECTRONIC DEVICES AND CIRCUITS LABORATORY (EC3361)

C207.1	Characteristics of PN Junction Diode and Zener diode.
C207.2	Design and Testing of BJT and MOSFET amplifiers.
C207.3	Operation of power amplifiers.

  

C208 – C PROGRAMMING AND DATA STRUCTURES LABORATORY (CS3362)

C208.1	Use different constructs of C and develop applications
C208.2	Write functions to implement linear and non-linear data structure operations
C208.3	Suggest and use the appropriate linear / non-linear data structure operations for a given problem
C208.4	Apply appropriate hash functions that result in a collision free scenario for data storage and Retrieval
C208.5	Implement Sorting and searching algorithms for a given application

  

C209 – PROFESSIONAL DEVELOPMENT (GE3361)

C209.1	Use MS Word to create quality documents, by structuring and organizing content for their day to day technical and academic requirements
C209.2	Use MS EXCEL to perform data operations and analytics, record, retrieve data as per requirements and visualize data for ease of understanding
C209.3	Use MS PowerPoint to create high quality academic presentations by including common tables, charts, graphs, interlinking other elements, and using media objects.

 

SEMESTER IV

C210 – ELECTROMAGNETIC FIELDS (EC3452)

C210.1	Relate the fundamentals of vector, coordinate system to electromagnetic concepts
C210.2	Analyze the characteristics of Electrostatic field
C210.3	Interpret the concepts of Electric field in material space and solve the boundary conditions
C210.4	Explain the concepts and characteristics of Magneto Static field in material space and solve boundary conditions.
C210.5	Determine the significance of time varying fields

 

C211 – NETWORKS AND SECURITY (EC3401)

C211.1	Explain the Network Models, layers and functions.
C211.2	Categorize and classify the routing protocols.
C211.3	List the functions of the transport and application layer.
C211.4	Evaluate and choose the network security mechanisms.
C211.5	Discuss the hardware security attacks and countermeasures.

 

C212 – LINEAR INTEGRATED CIRCUITS (EC3451)

C212.1	Design linear and nonlinear applications of OP – AMPS
C212.2	Design applications using analog multiplier and PLL
C212.3	Design ADC and DAC using OP – AMPS
C212.4	Generate waveforms using OP – AMP Circuits
C212.5	Analyze special function ICs

 

C213 – DIGITAL SIGNAL PROCESSING (EC3492)

C213.1	Apply DFT for the analysis of digital signals and systems
C213.2	Design IIR and FIR filters
C213.3	Characterize the effects of finite precision representation on digital filters
C213.4	Design multirate filters
C213.5	Apply adaptive filters appropriately in communication systems

 

C214 – COMMUNICATION SYSTEMS (EC3491)

C214.1	Gain knowledge in amplitude modulation techniques
C214.2	Understand the concepts of Random Process to the design of communication systems
C214.3	Gain knowledge in digital techniques
C214.4	Gain knowledge in sampling and quantization
C214.5	Understand the importance of demodulation techniques

 

C215 – ENVIRONMENTAL SCIENCES AND SUSTAINABILITY (GE3451)

C215.1	To recognize and understand the functions of environment, ecosystems and biodiversity and their conservation.
C215.2	To identify the causes, effects of environmental pollution and natural disasters and contribute to the preventive measures in the society.
C215.3	To identify and apply the understanding of renewable and non-renewable resources and contribute to the sustainable measures to preserve them for future generations.
C215.4	To recognize the different goals of sustainable development and apply them for suitable technological advancement and societal development.
C215.5	To demonstrate the knowledge of sustainability practices and identify green materials, energy cycles and the role of sustainable urbanization.

 

C216 – COMMUNICATION SYSTEMS LABORATORY (EC3461)

C216.1	Design AM, FM & Digital Modulators for specific applications.
C216.2	Compute the sampling frequency for digital modulation.
C216.3	Simulate & validate the various functional modules of Communication system.
C216.4	Demonstrate their knowledge in base band signaling schemes through implementation of digital modulation schemes.
C216.5	Apply various channel coding schemes & demonstrate their capabilities towards the improvement of the noise performance of Communication system.

 

C217 – LINEAR INTEGRATED CIRCUITS LABORATORY (EC3462)

C217.1	Analyze various types of feedback amplifiers
C217.2	Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators
C217.3	Design and simulate feedback amplifiers,oscillators, tuned amplifiers, wave- shaping circuits and multivibrators, filters using SPICE Tool.
C217.4	Design amplifiers, oscillators, D-A converters using operational amplifiers.
C217.5	Design filters using op-amp and perform an experiment on frequency response

 

SEMESTER V

C301 – WIRELESS COMMUNICATION (EC3501)

C301.1	Understand The Concept And Design Of A Cellular System.
C301.2	Understand Mobile Radio Propagation And Various Digital Modulation Techniques.
C301.3	Understand The Concepts Of Multiple Access Techniques And Wireless Networks
C301.4	Characterize a wireless channel and evolve the system design specifications
C301.5	Design a cellular system based on resource availability and traffic demands.

 

C302 – VLSI AND CHIP DESIGN (EC3552)

C302.1	In depth knowledge of MOS technology
C302.2	Understand Combinational Logic Circuits and Design Principles
C302.3	Understand Sequential Logic Circuits and Clocking Strategies
C302.4	Understand Memory architecture and building blocks
C302.5	Understand the ASIC Design Process and Testing.

 

C303 – TRANSMISSION LINES AND RF SYSTEMS (EC3551)

C303.1	Explain the characteristics of transmission lines and its losses.
C303.2	Calculate the standing wave ratio and input impedance in high frequency transmission lines.
C303.3	Analyze impedance matching by stubs using Smith Charts.
C303.4	Comprehend the characteristics of TE and TM waves.
C303.5	Design a RF transceiver system for wireless communication

 

C304 – WIRELESS SENSOR NETWORK DESIGN (CEC365) [PROFESSIONAL ELECTIVE I]

C304.1	To be able to design solutions for WSNs applications
C304.2	To be able to develop efficient MAC and Routing Protocols
C304.3	To be able to design solutions for 6LOWPAN applications
C304.4	To be able to develop efficient layered protocols in 6LOWPAN
C304.5	To be able to use Tiny OS and Contiki OS in WSNs and 6LOWPAN applications

 

C305 – IOT BASED SYSTEMS DESIGN (CEC368) [PROFESSIONAL ELECTIVE II]

C305.1	Articulate the main concepts, key technologies, strength and limitations of IoT.
C305.2	Identify the architecture, infrastructure models of IoT.
C305.3	Analyze the networking and how the sensors are communicated in IoT .
C305.4	Analyze and design different models for IoT implementation.
C305.5	Identify and design the new models for market strategic interaction.

 

C306 – OPTICAL COMMUNICATION & NETWORKS(CEC345) [PROFESSIONAL ELECTIVE III]

C306.1	Realize Basic Elements In Optical Fibers, Different Modes And Configurations.
C306.2	Analyze The Transmission Characteristics Associated With Dispersion And Polarization Techniques.
C306.3	Design Optical Sources And Detectors With Their Use In Optical Communication System.
C306.4	Construct Fiber Optic Receiver Systems, Measurements And Techniques.
C306.5	Design Optical Communication Systems And Its Networks.

 

C307 – DISASTER RISK REDUCTION AND MANAGEMENT (MX3084) [MANDATORY COURSE-I]

C307.1	To impart knowledge on the concepts of Disaster, Vulnerability and Disaster Risk reduction (DRR)
C307.2	To enhance understanding on Hazards, Vulnerability and Disaster Risk Assessment prevention and risk reduction
C307.3	To develop disaster response skills by adopting relevant tools and technology
C307.4	Enhance awareness of institutional processes for Disaster response in the country
C307.5	Develop rudimentary ability to respond to their surroundings with potential 195 Disaster response in areas where they live, with due sensitivity

 

C308 – VLSI LABORATORY (EC3561)

C308.1	Write HDL code for basic as well as advanced digital integrated circuit
C308.2	Import the logic modules into FPGA Boards
C308.3	Synthesize Place and Route the digital Ips
C308.4	Design, Simulate and Extract the layouts of Digital & Analog IC Blocks using EDA tools
C308.5	Test and Verification of IC design

 

SEMESTER VI

C309 – EMBEDDED SYSTEMS AND IOT DESIGN(ET3491)

C309.1	Explain the architecture and features of 8051.
C309.2	Develop a model of an embedded system.
C309.3	List the concepts of real time operating systems.
C309.4	Learn the architecture and protocols of IoT.
C309.5	Design an IoT based system for any application.

 

C310 – ARTIFICIAL INTELLIGENCE AND MACHINE LEARNING (CS3491)

C310.1	Use appropriate search algorithms for problem solving
C310.2	Apply reasoning under uncertainty
C310.3	Build supervised learning models
C310.4	Build ensembling and unsupervised models
C310.5	Build deep learning neural network models

 

C311 – RENEWABLE ENERGY SYSTEM (OEE351) [OPEN ELECTIVE I]

C311.1	Attained knowledge about various renewable energy technologies
C311.2	Ability to understand and design a PV system.
C311.3	Understand the concept of various wind energy system.
C311.4	Gained knowledge about various possible hybrid energy systems
C311.5	Attained knowledge about various application of renewable energy technologies

 

C312 – SATELLITE COMMUNICATION (OEE351) [PROFESSIONAL ELECTIVE VI]

C312.1	Identify the satellite orbits
C312.2	Analyze the satellite subsystems
C312.3	Evaluate the satellite link power budget
C312.4	Identify access technology for satellite
C312.5	Design various satellite applications

 

C313 – ANALOG IC DESIGN (CEC334) [PROFESSIONAL ELECTIVE VII]

C313.1	Design amplifiers to meet user specifications.
C313.2	Analyse the frequency and noise performance of amplifiers.
C313.3	Design and analyse feedback amplifiers and one stage op amps .
C313.4	Analyse stability of op amp.
C313.5	Testing experience of logic circuits.

 

C314 – INDUSTRIAL SAFETY (MX3089) [MANDATORY COURSES II]

C314.1	Understand the basic concept of safety.
C314.2	Obtain knowledge of Statutory Regulations and standards.
C314.3	Know about the safety Activities of the Working Place.
C314.4	Analyze on the impact of Occupational Exposures and their Remedies
C314.5	Obtain knowledge of Risk Assessment Techniques.

 

SEMESTER VII

C401 – HUMAN VALUES AND ETHICS (GE3791)

C401.1	Identify the importance of democratic, secular and scientific values in harmonious functioning of social life
C401.2	Practice democratic and scientific values in both their personal and professional life.
C401.3	Find rational solutions to social problems.
C401.4	Behave in an ethical manner in society
C401.5	Practice critical thinking and the pursuit of truth.

 

C402 – PRINCIPLES OF MANAGEMENT(GE3751) [ELECTIVE – MANAGEMENT]

C402.1	Upon completion of the course, students will be able to have clear understanding of managerial functions like planning, organizing, staffing, leading & controlling.
C402.2	Have same basic knowledge on international aspect of management.
C402.3	Ability to understand management concept of organizing.
C402.4	Ability to understand management concept of directing.
C402.5	Ability to understand management concept of controlling.

 

C403 – RESOURCE MANAGEMENT TECHNIQUES(OIE352) [OPEN ELECTIVE – II]

C403.1	Understand to formulate linear programming problems and solve LPP using simple algorithm
C403.2	Understand to solve networking problems
C403.3	Understand to formulate and solve integer programming problems
C403.4	Understand to solve Non Linear programming problems
C403.5	Understand to understand and solve project management problems

 

C404 – SENSORS (OMR353) [OPEN ELECTIVE – IV]

C404.1	Understand various sensor effects, sensor characteristics, signal types, calibration methods and obtain transfer function and empirical relation of sensors. They can also analyze the densor response.
C404.2	Analyze and select suitable sensor for displacement, proximity and range measurement.
C404.3	Analyze and select suitable sensor for force, magnetic field, speed, position and direction measurement.
C404.4	Analyze and Select suitable sensor for light detection, pressure and temperature measurement and also familiar with other miniaturized smart sensors.
C404.5	Select and design suitable signal conditioning circuit with proper compensation and linearizing element based on sensor output signal.

 

C405 – SUMMER INTERNSHIP (EC3711)

C405.1	System-level design processes, verification and validation techniques, manufacturing and production processes in the firm or research facilities in the laboratory/research institute
C405.2	Analysis of industrial / research problems and their solutions
C405.3	Documentation of system specifications, design methodologies, process parameters, testing parameters and results
C405.4	Preparing of technical report and presentation

 

SEMESTER VIII

C406 – PROJECT WORK/ INTERNSHIP (EC3811)

C406.1	Formulate and analyze problem / create a new product/ process.
C406.2	Design and conduct experiments to find solution
C406.3	Analyze the results and provide solution for the identified problem, prepare project report and make presentation.