PO1 
Engineering Knowledge: Apply the knowledge of mathematics, science, Engineering fundamentals, and an Engineering specialization to the solution of complex Engineering problems 
PO2 
Problem analysis: Identify, formulate, review research literature and analyze complex Engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and Engineering sciences. 
PO3 
Design/development of solutions: 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 Environmental considerations 
PO4 
Conduct investigations of complex problems: Useresearchbased knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions 
PO5 
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 the limitations. 
PO6 
The Engineer and society: Apply Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practices 
PO7 
Environment and sustainability: Understand the impact of the professional Engineering solutions in societal and Environmental contexts, and demonstrate the knowledge of, and need for sustainable development. 
PO8 
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of Engineering practice 
PO9 
Individual and team work: Functioneffectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. 
PO10 
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 
PO11 
Project management and finance: Demonstrate knowledge and understanding of 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 multidisciplinary Environments 
PO12 
Life long learning: Recognize the need for, and have the preparation and ability to engage in independent and lifelong learning in the broadest context of technological change 
PSO1 


PSO2 
Develop usable solution towards complicated Electronics and Telecommunication Engineering issues by using recent hardware and software codesign tools with appropriate analytical and managerial skills 

PSO3  Propose energy efficient solutions for various social and environmental issues in real world applications by keeping pace with new technologies 
Second Year Engineering 

Course Outcomes (COs) 
Second Year Engineering 

C301 
Engineering MathematicsIII 
C301.1 
Solve higher order linear differential equation using appropriate techniques for modelling, analyzing of electrical circuits and control systems. 
C301.2 
Apply concept of Fourier transform & Ztransform and its applications to continuous & discrete systems, signal & image processing and communication systems. 
C301.3 
Obtain Interpolating polynomials, numerically differentiate and integrate functions, numerical solutions of differential equations using single step and multistep iterative methods used in modern scientific computing. 
C301.4 
Perform vector differentiation & integration, analyze the vector fields, and apply to electromagnetic fields & wave theory. 
C301.5 
Analyze Complex functions, Conformal mappings, Contour integration applicable to electrostatics, digital filters, signal and image processing. 
C302 
Electronic Circuits 
C302.1 
Assimilate the physics, characteristics, and parameters of MOSFET towards its application as amplifier. 
C302.2 
Design MOSFET amplifiers, with and without feedback, & MOSFET oscillators, for given specifications. 
C302.3 
Analyze and assess the performance of linear and switching regulators, with their variants, towards applications in regulated power supplies. 
C302.4 
Explain internal schematic of OpAmp and define its performance parameters. 
C302.5 
Design, Build and test Opamp based analog signal processing and conditioning circuits towards various real time applications. 
C302.6 
Understand and compare the principles of various data conversion techniques and PLL with their applications. 
C303 
Digital Circuits 
C303.1 
Identify and prevent various hazards and timing problems in a digital design. 
C303.2 
Use the basic logic gates and various reduction techniques of digital logic circuit. 
C303.3 
Analyze, design, and implement combinational logic circuits. 
C303.4 
Analyze, design, and implement sequential circuits. 
C303.5 
Differentiate between Mealy and Moore machines. 
C303.6 
Analyze digital system design using PLD. 
C304 
Electronic Circuits 
C304.1 
Analyze the simple DC and AC circuit with circuit simplification techniques. 
C304.2 
Formulate and analyze driven and source free RL and RC circuits. 
C304.3 
Formulate & determine network parameters for given network and analyze the given network using Laplace Transform to find the network transfer function. 
C304.4 
Explain construction, working and applications of DC Machines / Single Phase & Three Phase AC Motors. 
C304.5 
Explain construction, working and applications of special purpose motors & understand motors used in electrical vehicles. 
C304.6 
Analyze and select a suitable motor for different applications. 
C305 
Data Structures 
C305.1 
Solve mathematical problems using C programming language. 
C305.2 
Implement sorting and searching algorithms and calculate their complexity. 
C305.3 
Develop applications of stack and queue using array. 
C305.4 
Demonstrate applicability of Linked List. 
C305.5 
Demonstrate applicability of nonlinear data structures  Binary Tree with respect to its time complexity. 
C305.6 
Apply the knowledge of graph for solving the problems of spanning tree and shortest path algorithm. 
C306 
Electronic Circuit Lab 
C306.1 
Assimilate the physics, characteristics and parameters of MOSFET towards its application as amplifier. 
C306.2 
Design MOSFET amplifiers, with and without feedback, & MOSFET oscillators, for given specifications. 
C306.3 
Analyze and assess the performance of linear and switching regulators, with their variants, towards applications in regulated power supplies. 
C306.4 
Explain internal schematic of OpAmp and define its performance parameters. 
C306.5 
Design, Build and test Opamp based analog signal processing and conditioning circuits towards various real time applications. 
C306.6 
Understand and compare the principles of various data conversion techniques and PLL with their applications. 
C307 
Digital Circuit Lab 
C307.1 
Design and Implement circuit using Multiplexer IC and Demultiplexer IC 
C307.2 
Understand Implementation of Combination logic design using different IC’s 
C307.3 
Understand Implementation of Sequential logic design using different IC’s 
C307.4 
Verify voltage and current parameters of TTL and CMOS logic families 
C308 
Electrical Circuit Lab 
C308.1 
Analyze the simple DC and AC circuit with circuit simplification techniques. 
C308.2 
Formulate and analyze driven and source free RL and RC circuits. 
C308.3 
Formulate & determine network parameters for given network and analyze the given network using Laplace Transform to find the network transfer function. 
C308.4 
Explain construction, working and applications of DC Machines / Single Phase & Three Phase AC Motors. 
C308.5 
Explain construction, working and applications of special purpose motors & understand motors used in electrical vehicles. 
C308.6 
Analyze and select a suitable motor for different applications. 
C309 
Data Structures Lab 
C309.1 
Discuss the computational efficiency of the principal algorithms such as sorting & searching. 
C309.2 
Write and understand the programs that use arrays & pointers in C 
C309.3 
Describe how arrays, records, linked structures are represented in memory and use them in algorithms. 
C309.4 
Implement stacks & queues for various applications. 
C309.5 
Understand various terminologies and traversals of trees and use them for various applications. 
C309.6 
Understand various terminologies and traversals of graphs and use them for various applications. 
C310 
Electronic Skill Development 
C310.1 
Understand electronic component working and application development using programming language. 
C310.2 
Explain Hardware Design, Fault Finding, Testing, Repair and Measurement procedures 
C310.3 
Understand assembling of mechanical part and calculate total power budget 
C401 
Signals and Systems 
C401.1 
Identify, classify basic signals, and perform operations on signals. 
C401.2 
Identify, Classify the systems based on their properties in terms of input output relation and in terms of impulse response and will be able to determine the convolution between to signals. 
C401.3 
Analyze and resolve the signals in frequency domain using Fourier series and Fourier Transform. 
C401.4 
Resolve the signals in complex frequency domain using Laplace Transform and will be able to apply and analyze the LTI systems using Laplace Transforms. 
C401.5 
Define and describe the probability, random variables and random signals. Compute the probability of a given event, model, compute the CDF and PDF. 
C401.6 
Compute the mean, mean square, variance and standard deviation for given random variables using PDF. 
C402 
Controls Systems 
C402.1 
Determine and use models of physical systems in forms suitable for use in the analysis and design of control systems. 
C402.2 
Determine the (absolute) stability of a closedloop control system 
C402.3 
Perform time domain and frequency domain analysis of control systems required for stability analysis. 
C402.4 
Perform time domain and frequency domain correlation analysis. 
C402.5 
Apply rootlocus, Frequency Plots technique to analyze control systems. 
C402.6 
Express and solve system equations in state variable form. 
C403 
Principles of Communication Systems 
C403.1 
To compute & compare the bandwidth and transmission power requirements by analyzing time and frequency domain spectra of signal required for modulation schemes under study. 
C403.2 
Describe and analyze the techniques of generation, transmission and reception of Amplitude Modulation Systems. 
C403.3 
Explain generation and detection of FM systems and compare with AM systems. 
C403.4 
Exhibit the importance of Sampling Theorem and correlate with Pulse Modulation technique (PAM, PWM, and PPM). 
C403.5 
Characterize the quantization process and elaborate digital representation techniques (PCM, DPCM, DM and ADM). 
C403.6 
Illustrate waveform coding, multiplexing and synchronization techniques and articulate their importance in baseband digital transmission. 
C404 
Object Oriented Programming 
C404.1 
Describe the principles of objectoriented programming. 
C404.2 
Apply the concepts of data encapsulation, inheritance in C++. 
C404.3 
Understand Operator overloading and friend functions in C++. 
C404.4 
Apply the concepts of classes, methods inheritance, and polymorphism to write programs C++. 
C404.5 
Apply Templates, Namespaces and Exception Handling concepts to write programs in C++. 
C404.6 
Describe and use of File handling in C++ 
C405 
Signals and Control System Lab 
C405.1 
Identify, classify basic signals and perform operations on signals. 
C405.2 
Identify, Classify the systems based on their properties in terms of input output relation and in terms of impulse response and will be able to determine the convolution between to signals. 
C405.3 
Analyze and resolve the signals in frequency domain using Fourier series and Fourier Transform. 
C405.4 
Determine and use models of physical systems in forms suitable for use in the analysis and design of control systems. 
C405.5 
Determine the (absolute) stability of a closedloop control system 
C405.6 
Apply rootlocus, Frequency Plots technique to analyze control systems. 
C406 
Principles of Communication Systems Lab 
C406.1 
Understand AM generation by graphical method and observing spectrum. 
C406.2 
Explain different pulse modulation techniques in communication system. 
C406.3 
Understand generation and detection of DM and ADM. 
C406.4 
Verify communication system using Software. 
C407 
Object Oriented Programming Lab 
C407.1 
Apply the concepts of data function overloading, inheritance in C++. 
C407.2 
Apply the concepts of Operator overloading and friend functions in C++. 
C407.3 
Understand the programming related to constructors and destructors in C++. 
C407.4 
Develop concepts for programming models to understand concepts of classes, methods inheritance and polymorphism in C++. 
C407.5 
Understand Templates, Namespaces and Exception Handling concepts to develop programming applications in C++. 
C407.6 
Understand and perform the File handling opertaions in C++ 
C408 
Data Analytics Lab 
C408.1 
Explain different packages in python. 
C408.2 
Understand various visualization libraries in python. 
C408.3 
Learn different preprocessing techniques for data mining. 
C408.4 
Analyze data using various statistical data analysis techniques. 
C408.5 
Explain relationship in data using exploratory data analysis 
C408.6 
Explore the hidden relationships in the data 
C409 
Employability Skill Development 
C409.1 
Define personal and career goals using introspective skills and SWOC assessment. Outline and evaluate shortterm and longterm goals. 
C409.2 
Develop effective communication skills (listening, reading, writing, and speaking), self management attributes, problem solving abilities and team working & building capabilities in order to fetch employment opportunities and further succeed in the workplace. 
C409.3 
Be a part of a multicultural professional environment and work effectively by enhancing interpersonal relationships, conflict management and leadership skills. 
C409.4 
Comprehend the importance of professional ethics, etiquettes & morals and demonstrate sensitivity towards it throughout certified career. 
C409.5 
Develop practically deployable skill set involving critical thinking, effective presentations, and leadership qualities to hone the opportunities of employability and excel in the professional environment. 
C410 
Project Based Learning 
C410.1 
Identify the realworld problem (possibly of interdisciplinary nature) through a rigorous literature survey 
C410.2 
Contribute to society through proposed solution by strictly following professional ethics and safety 
C410.3 
Propose a suitable solution based on the fundamentals of electronics and communication engineering by 
C410.4 
Analyze the results and arrive at valid conclusion. 
C410.5 
Use of technology in proposed work and demonstrate learning in oral and written form. 
C410.6 
Develop ability to work as an individual and as a team member. 
Third Year Engineering 

C501 
Digital Communication 
C501.1 
Understand working of waveform coding techniques and analyze their performance. 
C501.2 
Analyze the performance of a baseband and pass band digital communication system in terms of error rate and spectral efficiency. 
C501.3 
Perform the time and frequency domain analysis of the signals in a digital communication system. 
C501.4 
Design of digital communication system. 
C501.5 
Understand the random signal and processes. 
C501.6 
Understand working of spread spectrum communication system and analyze its performance. 
C502 
Digital Signal Processing 
C502.1 
Identify the characteristics different digital systems and concept of sampling theorem. 
C502.2 
Understand analog and digital systems in frequency domain analyse, realization and implementation. 
C502.3 
Understand concept of z transform and design with pole zero plot. 
C502.4 
Design and analyse different methods of IIR digital filters. 
C502.5 
Design and analyse different methods of FIR digital filters. 
C502.6 
Design and apply DSP concept in real life applications. 
C503 
Electromagnetics 
C503.1 
Correlate the concept of mathematical Coordinate System with real world problems and understand the concept of Coulombs law, Gauss’s law and its applications. 
C503.2 
Understand the work, energy, potential for different coordinate systems. Use Laplace’s and Poisson’s equation for finding Electric field intensity and different types of capacitance. 
C503.3 
Understand the Biot Savarts law and Amperes Circuital law to find out the magnetic field intensity. Use Lorentz force equation, Scalar and Vector magnetic potential in magnetostatics. 
C503.4 
Distinguish between stationery and time varying field by Faradays law and Maxwells contribution with the help of four equations for different Media. Use Poynting theorem to evaluate the power associate with EM fields. 
C503.5 
Understand to calculate the line parameters mathematically, analytically and using graphical method. 
C503.6 
Understand the different wave equations for uniform plane wave in different mediums. 
C504 
Microcontrollers 
C504.1 
Learn importance of microcontroller in designing embedded application. 
C504.2 
Learn use of hardware and software tools. 
C504.3 
Develop interfacing to real world devices. 
C505 
Mechatronics 
C505.1 
Explain key aspects of the mechatronics system and its block diagram. 
C505.2 
Understand basic working principles of Sensors and Transducers. 
C505.3 
Distinguish various categories of mechatronics system elements and its applications. 
C505.4 
Describe case study of the mechatronics system. 
C506 
Signal Processing and Communication Lab 
C506.1 
Implement various baseband and passband modulation techniques. 
C506.2 
Explore different characteristics related to Spread Spectrum Techniques 
C506.3 
Understand and simulate performance parameters of baseband and passband modulation techniques using MATLAB 
C506.4 
Understand analog and digital systems in frequency domain analyze, realization and implementation. 
C506.5 
Design and analyze different methods of IIR digital filters. 
C506.6 
Design and analyze different methods of FIR digital filters. 
C507 
Microcontroller and Mechatronics Lab 
C507.1 
Understand programming in assembly language for 8051 and interfacing of peripheral device 
C507.2 
Explain interfacing of peripheral devices using Embedded C for PIC18FXX Microcontroller 
C507.3 
Explain interfacing of peripheral devices using different communication protocol. 
C507.4 
Understand the key components of Mechatronics design method and the basic concepts of engineering system with dynamic response of the approach. 
C507.5 
Realize the models of real time interfacing and data acquisition and examine the operating principles of hydraulic and Pneumatic systems. 
C507.6 
Understanding the concepts of Mechatronics system through explanation of case studies. 
C508 
Electronics System Design 
C508.1 
Apply the fundamental concepts and working principles of electronics devices to design electronics systems. 
C508.2 
Shall be able to interpret datasheets and thus select appropriate components and devices 
C508.3 
Select appropriate transducer and signal conditioning circuit to design prototype of Data Acquisition system. 
C508.4 
Design an electronic system/subsystem and validate its performance by simulating the same. 
C508.5 
Shall be able to use an EDA tool for circuit schematic and simulation. 
C508.6 
Create, manage the database and query handling using suitable tools. 
C601 
Power Electronics 
C601.1 
Design & implement a triggering / gate drive circuit for a power device 
C601.2 
Understand, perform & analyze AC to DC converters 
C601.3 
Understand, perform & analyze DC to AC converters 
C601.4 
Understand, perform & analyze DC to DC converters 
C601.5 
Evaluate battery backup time & design a battery charger 
C601.6 
Design & implement over voltage / over current protection circuit 
C602 
Information Theory, Coding and Communication Networks 
C602.1 
Perform information theoretic analysis of communication system. 
C602.2 
Design a data compression scheme using suitable source coding technique 
C602.3 
Design a channel coding scheme for a communication system 
C602.4 
To Understand and design BCH and RS codes. 
C602.5 
Understand and apply fundamental principles of data communication and networking. 
C602.6 
Apply flow and error control techniques in communication networks. 
C603 
Business Management 
C603.1 
To get introduction to Business Management in business organizations. 
C603.2 
To learn the concept of Quality Management in business organizations. 
C603.3 
To learn the concept of Financial Management and Project Management in business organizations. 
C603.4 
To learn Human Resource Management in Business organizations. 
C603.5 
To learn Entrepreneurship 
C603.6 
To learn marketing management in Business organizations. 
C604 
Advanced Processors 
C604.1 
Describe the ARM microprocessor architectures and its feature. 
C604.2 
Describe about ARM based microcontroller LPC2148 architectures and its peripherals. 
C604.3 
Interface the peripherals to ARM based microcontroller LPC2148 to design embedded system with available resources. 
C604.4 
Interface the advanced peripherals to ARM based microcontroller LPC2148 to design embedded system with available resources. 
C604.5 
Describe the need, Architecture, and features of DSP processors. 
C604.6 
Use of DSP Processors and resources for signal processing applications. 
C605 
System Programming and Operating Systems 
C605.1 
To understand system software concepts, like the use and implementation of assembler, macros. 
C605.2 
To get acquainted with software tools for program development. To implement linker, loaders, and compiler. 
C605.3 
To study basic of Operating System and implement various processes scheduling techniques 
C605.4 
To study Inter process communication and dead lock prevention, avoidance, detection schemes in operating system. 
C605.5 
To explore memory allocation methods, input output devices and file system w. r. t. various operating system. 
C605.6 
To study Input and Output Devices, File Management and implement Disk Scheduling Algorithm 
C606 
Power and ITCT Lab 
C606.1 
To Design coding and decoding techniques of Linear Block Codes 
C606.2 
To Design coding and decoding techniques of Cyclic Codes 
C606.3 
Implement BCH and RS Codes. 
C606.4 
Design & implement a triggering / gate drive circuit for a power device 
C606.5 
Understand, perform & analyze AC to DC converters 
C606.6 
Understand, perform & analyze DC to AC converters 
C607 
Advanced Processors and System Programming Lab 
C607.1 
To understand basic instruction set of ARM 7 
C607.2 
To implement basic programs using Keil 
C607.3 
To understand basic instructions of Lpc2148 and implement basic programs for electronic circuits 
C607.4 
To understand basic Linux commands and write a shell script 
C607.5 
To write simple programs for Page Replacement Algorithm. 
C607.6 
To write simple programs for Scheduling Algorithm. 
C608 
Employability Skills and Mini Project 
C608.1 
Understand, plan and execute a Mini Project with team. 
C608.2 
Prepare appropriate Title and system block diagram of entire project 
C608.3 
Select appropriate transducer and signal conditioning circuit, ADC/DAC, microcontrollers to design prototype. 
C608.4 
Implement electronic hardware by learning PCB artwork design, soldering techniques, testing and troubleshooting etc. 
C608.5 
Prepare a technical report based on the Mini project. 
C608.6 
Deliver technical seminar based on the Mini Project work carried out. 
Final Year Engineering 

C701 
VLSI Design and Technology 
C701.1 
Write effective HDL coding for digital design. 
C701.2 
Apply knowledge of real time issues in digital design. 
C701.3 
Model digital circuit with HDL, simulate, synthesize and prototype in PLDs. 
C701.4 
Design CMOS circuits for specified applications. 
C701.5 
Analyze various issues and constraints in design of an ASIC 
C701.6 
Apply knowledge of testability in design and build selftest circuits. 
C702 
Computer Networks and Security 
C702.1 
Understand fundamental underlying principles of computer networking 
C702.2 
Describe and analyze the hardware, software, components of a network and their interrelations. 
C702.3 
Analyze the requirements for a given organizational structure and select the most appropriate networking architecture and technologies 
C702.4 
Have a basic knowledge of installing and configuring networking applications. 
C702.5 
Specify and identify deficiencies in existing protocols, and then go onto select new and better protocols. 
C702.6 
Have a basic knowledge of the use of cryptography and network security. 
C703 
Radiation and Microwave Techniques 
C703.1 
Differentiate various performance parameters of radiating elements. 
C703.2 
Analyze various radiating elements and arrays. 
C703.3 
Apply the knowledge of waveguide fundamentals in design of transmission lines. 
C703.4 
Design and set up a system consisting of various passive microwave components. 
C703.5 
Analyze tube based and solid state active devices along with their applications. 
C703.6 
Measure various performance parameters of microwave components. 
C704 
Internet of Things 
C704.1 
To Understand the various concepts, terminologies and architecture of IoT systems. 
C704.2 
Use sensors and actuators for the design of IoT. 
C704.3 
Understand and apply various protocols for design of IoT systems 
C704.4 
Use various techniques of data storage and analytics in IoT 
C704.5 
Understand various applications of IoT 
C705 
Electronic Product Design 
C705.1 
Familiar with various stages of Hardware, Software and PCB design. 
C705.2 
Identify different factors of analog, digital and mixed circuit design. 
C705.3 
Acquainted with different concerns of software design and testing methods. 
C705.4 
Get familiarized with methods of PCB design and different tools. 
C705.5 
Realize the importance of product test and test specification. 
C705.6 
Get familiarized with the process and significance of documentation. 
C706 
Lab PracticeI (CNS+RMT) 
C706.1 
Analyze various radiating elements and arrays. 
C706.2 
Design and set up a system consisting of various passive microwave components. 
C706.3 
Analyze tube based and solid state active devices along with their applications. 
C706.4 
To implement Local Area Network and study different commands. 
C706.5 
To study network analyzer tools and capture different protocols. 
C706.6 
To install IIS Web Server and create webpages using HTML. 
C707 
Lab PracticeII (VLSI+IOT) 
C707.1 
Understand implementation of various combinational and sequential circuits using HDL and simulate using EDA tool. 
C707.2 
Design and implementation of Digital Design in FPGA board. 
C707.3 
Design and implementation of CMOS Digital circuits using EDA tool. 
C707.4 
Study various IOT boards and IOT platforms. 
C707.5 
Explain interfacing of different peripherals using IOT. 
C707.6 
Understand controlling of different peripherals using IOT. 
C708 
Project StageI 
C708.1 
Employ their learned skills to describe problem statements and its purpose. 
C708.2 
Summarize abstract and synopsis for certain problems. 
C708.3 
Evaluate related research work and encapsulate in the form of literature survey. 
C708.4 
Explain their knowledge about technological tools and techniques for planning and execution of project. 
C801 
Mobile Communication 
C801.1 
Explain and apply the concepts telecommunication switching, traffic and networks 
C801.2 
Analyze the telecommunication traffic. 
C801.3 
Analyze radio channel and cellular capacity. 
C801.4 
Explain and apply concepts of GSM and CDMA system. 
C801.5 
Explore the architecture of GSM. 
C801.6 
Differentiate thoroughly the generations of mobile technologies. 
C802 
Broadband Communication Systems 
C802.1 
Understand basics of fiber optic communication system their types and applications. 
C802.2 
Carry out Link power budget and Rise Time Budget by proper selection of components and check its viability. 
C802.3 
Understand basics of WDM system, components used in FOC, amplifiers. 
C802.4 
Understand basics of satellite communications, orbital mechanics, and launchers. 
C802.5 
Understand satellite subsystems and different types of antennas. 
C802.6 
Carry out Satellite Link design for Uplink and Downlink 
C803 
Machine Learning 
C803.1 
Distinguish among various learning methods and explain the steps involved in constructing a different machine learning algorithm. 
C803.2 
Explain the use of supervised learning algorithms like regression and classification for solving real world challenges. 
C803.3 
Build unsupervised learning algorithms to explain complex problems with an interpretation of the tradeoffs engaged. 
C803.4 
Understand basic concepts of neural networks and different learning mechanisms for community applications. 
C803.5 
Explore various neural network algorithms to solve real world problems. 
C803.6 
Understand applications of Convolutional Neural Networks (CNN’s) for image recognition applications. 
C804 
Audio Video Engineering 
C804.1 
After learning the AVE course, students will benefit to learn and understand the working of reallife video systems and the different elements of video systems plus the encoding/decoding techniques. 
C804.2 
The learners will be groomed to understand different channel allocations, differences between various systems present in this world, their transmission and reception techniques. 
C804.3 
Students will get insight on functioning of individual blocks, different standards of compression and they will be acquainted with different types of analog, digital TV and HDTV systems. 
C804.4 
The students will get overview of fundamentals of Audio systems and basics Acoustics 
C804.5 
After learning the AVE course, students will benefit to learn and understand the working of reallife video systems and the different elements of video systems plus the encoding/decoding techniques. 
C805 
Wireless Sensors Networks 
C805.1 
Understand the basic concepts of wireless sensor networks and architecture. 
C805.2 
Basic concepts of radio links and analyze different protocols in WSN. 
C805.3 
Justifying ideas and concepts of wireless protocols stacks in WSN. 
C805.4 
Design and analyze different routing protocols. 
C805.5 
Find different attacks in the network and study different issues in security. 
C805.6 
Design and deploy WSN applications in real life. 
C806 
Renewable Energy Sources 
C806.1 
Interpret energy reserves of India and potential of different energy sources. 
C806.2 
Measure the solar radiation parameters and performance of different solar collectors. 
C806.3 
Calculate different parameters of the wind turbine rotor. 
C806.4 
Implicit the importance and applications of geothermal and ocean energy. 
C806.5 
Find different attacks in the network and study different issues in security. 
C806.6 
Demonstrate knowledge in the field of fuel cell and potential for power generation. 
C807 
Lab PracticeIII(MCS+BCS) 
C807.1 
Students will be able to establish the communication link between different users using the PSTN module and test various AT commands. 
C807.2 
Learners will analyze the traffic performance using Hata outdoor propagation model and calculate the bit error rate for CDMA/OFDM modulation technique. 
C807.3 
Students will understand the GSM working principle, VoIP measurement setup and Lost call system model to analyze the blocking probability of the network. 
C807.4 
Understand the functioning of optical fiber communication. 
C807.5 
Understand the theory of satellite communication. 
C807.6 
Understand the idea of satellite link design. 
C808 
Lab PracticeIV(ML+AVE) 
C808.1 
Understand the fundamental concepts in neural networks. 
C808.2 
Explain different Machine Learning algorithms to solve real world problems. 
C808.3 
Understand concepts of deep neural networks and CNN. 
C808.4 
Understand and interpret different issues of color television systems. 
C808.5 
Understand basics of television systems. 
C808.6 
Understand audio systems in television system. 
C809 
Project StageII 
C809.1 
Design solution for the problem defined. 
C809.2 
Implement the project to discover a solution which is professional. 
C809.3 
Prepare a complete report of work carried in the process of implementation of the project. 
C809.4 
Demonstrate oral, written, and practical skills acquired during the process of completion of the project. 