Naveen Narasimhaiah is seeking a full-time position utilizing his technical and analytical skills. He has a Master's degree in Electrical Engineering from UMKC with a 3.9 GPA and Bachelor's degree in Electronics and Communication Engineering from India. His experience includes internships performing LTE testing, developing wireless devices, and providing IT support. He has skills in wireless communications standards, networking protocols, and programming languages. His projects involve analyzing RF propagation, dynamic spectrum allocation, and routing protocols.
My updated resume for (UMTS, WCDMA, LTE-Advanced 4G and 5G, SDN and NVF) wireless engineering.
Please feel free to contact me if you have any questions.
My updated resume for (UMTS, WCDMA, LTE-Advanced 4G and 5G, SDN and NVF) wireless engineering.
Please feel free to contact me if you have any questions.
Capable electrical engineer, with a profound knowledge of engineering terminology, principles, theories and client-management strengths, dedicated and dynamic with an outstanding professional and technical skills necessary for engineering innovative designs and applications.
CHARACTERIZATION OF USER-PERCEIVED QUALITY OF SERVICE (QOS) IN MOBILE DEVICES...ijwmn
This paper presents a user-centric and application-specific QoS assessment methodology for cellular
communication networks. Specifically, it uses the Analytic Hierarchy Process (AHP) to evaluate QoS as a
multi-criteria decision problem that represents how well cellular networks’ data services are perceived
given particular sets of application classes and relative to other networks servicing in the same area. As
part of the methodology, drive testing is performed to collect objective measurements associated with
identified QoS criteria for data services. Once drive testing is performed and data collected, multiple
networks are compared to determine the network that provides higher QoS based on users’ perception of
quality. The selection of the best performing network is based on the output provided by the AHP
approach, which is used as unified measurement of the perceived QoS by users on different networks. In
order to determine application-specific priorities, the approach presented uses three different application
classes, including Emergency, Business, and Personal. For each class, the relative importance of each
quality evaluation criteria is adjusted in the AHP procedure to reflect the priorities of the services
expected. Through several case studies, the approach is proven successful in providing a way for
analyzing user-centric QoS for application-specific scenarios.
This presentation was used in a Talk that I gave in First CSE Festival at KUET in 2012
This talk covered "Research in the Computing Industry" to inspire students of the undergrad program and to familiarize them with research in the industry.
7 th International Conference on Signal Processing and Pattern Recognition (...ijcseit
7
th International Conference on Signal Processing and Pattern Recognition (SIPR 2021) is a
forum for presenting new advances and research results in the fields of Digital Processing and
Pattern Recognition. The conference will bring together leading researchers, engineers and
scientists in the domain of interest from around the world.
Authors are solicited to contribute to the conference by submitting articles that illustrate research
results, projects, surveying works and industrial experiences
Capable electrical engineer, with a profound knowledge of engineering terminology, principles, theories and client-management strengths, dedicated and dynamic with an outstanding professional and technical skills necessary for engineering innovative designs and applications.
CHARACTERIZATION OF USER-PERCEIVED QUALITY OF SERVICE (QOS) IN MOBILE DEVICES...ijwmn
This paper presents a user-centric and application-specific QoS assessment methodology for cellular
communication networks. Specifically, it uses the Analytic Hierarchy Process (AHP) to evaluate QoS as a
multi-criteria decision problem that represents how well cellular networks’ data services are perceived
given particular sets of application classes and relative to other networks servicing in the same area. As
part of the methodology, drive testing is performed to collect objective measurements associated with
identified QoS criteria for data services. Once drive testing is performed and data collected, multiple
networks are compared to determine the network that provides higher QoS based on users’ perception of
quality. The selection of the best performing network is based on the output provided by the AHP
approach, which is used as unified measurement of the perceived QoS by users on different networks. In
order to determine application-specific priorities, the approach presented uses three different application
classes, including Emergency, Business, and Personal. For each class, the relative importance of each
quality evaluation criteria is adjusted in the AHP procedure to reflect the priorities of the services
expected. Through several case studies, the approach is proven successful in providing a way for
analyzing user-centric QoS for application-specific scenarios.
This presentation was used in a Talk that I gave in First CSE Festival at KUET in 2012
This talk covered "Research in the Computing Industry" to inspire students of the undergrad program and to familiarize them with research in the industry.
7 th International Conference on Signal Processing and Pattern Recognition (...ijcseit
7
th International Conference on Signal Processing and Pattern Recognition (SIPR 2021) is a
forum for presenting new advances and research results in the fields of Digital Processing and
Pattern Recognition. The conference will bring together leading researchers, engineers and
scientists in the domain of interest from around the world.
Authors are solicited to contribute to the conference by submitting articles that illustrate research
results, projects, surveying works and industrial experiences
1. Naveen Narasimhaiah
5116 Baltimore Avenue, Kansas City, Missouri - 64112
Email: nnf34@mail.umkc.edu. Phone: 816-835-8707
Objective:
To secure a full-time employment using my technical and analytical skills, enabling growth and learning
opportunities in a creative, fast-paced and forward-thinking organization.
Education:
Universityof Missouri – Kansas City, Kansas City, MO.
Master of Science in Electrical Engineering
Current GPA– 3.9. Member of HKN Honour Society – Eta Kappa Nu.
Worked with Dr.Cory Beard on text book “Wireless Communication Networks and Systems”.
Master’s Thesis: “Demonstrate the need for effective LTE simulator for analysis of 4G network in order to
achieve highly reliable communications and cost effective deployment of LTE network“.
-- The 3GPP’s Long Term Evolution (LTE) has claimed its own stand in the field of Telecommunications.
Here we study the effect of scheduling schemes, CoMP and MIMO features on RAN side for HetNets and
Macro network with focus on identifying and analysing the KPI’s, Optimization, link budget and testing the
systems performance with various conditions that not only help in achieving reliable communications over
LTE but also assist in the analysing the performance of network before actual deployment in real world.
Dr. Ambedkar Institute of Technology, Bangalore, Karnataka, India.
Bachelor of Engineering in Electronics and Communication Engineering. GPA - 3.8 Aug 2012
Technical Skills:
1.5 years of industry experience with extensive knowledge on GSM, CDMA, UMTS, LTE, IEEE, RF
Design, Planning and Link budget, 802.11 a/b/g/n/ac and other technologies.
3GPP wireless standards: Radio access, Physical layer, Interfaces and Protocols.
Understanding of LTE Network architecture, call flows, IMS, VoLTE, CSFB, eHRPD, VOIP and
Wi-Fi technologies with knowledge of Cisco controllers, routers and switches.
Skills: MapInfo, Vienna LTE Simulator, QXDM, Tems, Intelliagent, Wireshark, RF-BASICS,
OPNET, Lab VIEW, MATLAB, CodeWarrior, Synapticad, Mini-IDE, CAD [Solid edge], Xilinx,
Modelsim simulator, Cadence – Virtuoso.
Protocols: SIP, SDP, RTP, RTCP, Diameter, RIP, OSPF, BGP and others.
Languages: Python [Learning], Embedded C, Assembly level language, Verilog/VHDL.
Package and tools: MS Office, MS Excel, MS Access, Adobe illustrator, Adobe Animator,
Windows Family(98/XP/Vista/7,8).
Excellent Data analysis, Debugging, troubleshooting and Mathematical skills.
Excellent written and verbal communication skills, including ability to develop and present a
comprehensive technical briefing in professional manner.
Professional Experience:
ORCHESTRATECHNOLOGY July 2015 – Aug 2015
Summer Intern: Test Engineer II.
Perform testing with various LTE Core Networks with understanding of LTE Network architecture.
Test and provide engineering support for the Intelliagent test tool in customer networks and
translate the new customer requirements into new business opening.
Create test specifications and test devices through data analysis by creating test plans, test cases,
test reports, feature specification, instructions, etc. according to customer requirements.
RF Drive testing, data processing and analysis of drive data logs.
Provide project management support to troubleshoot and resolve issues and escalations.
INNOVATING SOLUTIONS LLC
Summer Intern: RF and Systems Engineer. June 2014 – Aug 2014
Testing the working of primary product “TAPPECUE“, a temperature monitoring system.
2. Research, Develop, Design, test and document the WIFI chips and Microcontrollers.
Testing the operation of the WIFI on the device and other communication parameters.
Test and Update the firmware on the WI-FI module.
UNIVERSITY OF MISSOURI – KANSAS CITY.
Student Assistant –Information Service Lab. [Technical level II] Sep 2013 to present
Customer service, communicating with technical staff, supervisors and co-workers.
Performing basic troubleshooting of lab computers and computer software.
MULTITECH ENGINEERING COMPANY.
Technical Engineer Aug 2012 - May 2013
It is an Electro-Mechanical company where we Design, manufacture and test laboratory
apparatuses used in engineering departments.
Place the thermocouples in position according to the design and connect them to temperature
indicator based on the mode of operation.
Assemble the equipment’s required, mount it on a mechanical frame do the electrical wiring for the
same and ensure that system is functioning according to the desired specification.
Academic Projects:
RF PROPAGATION PATH GAIN, BIT ERROR RATE AND EFFECTS OF MULTIPATH IN WIRELESS
COMMUNICATION. Sept. 2014
Investigate the effect of multipath, far field and near field effect on Bit Error Rate.
The Empirical and Analytical methods are explored by performing a comparative analysis.
Validation using MATLAB.
Propagation model tuning and link budget.
DYNAMIC SPECTRUM ALLOCATION IN COGNITIVE RADIO NETWORKS. May 2014
Explaining the need for dynamic spectrum allocation, the principle of Cognitive Radio networks was
studied and presented by simulating the allocation of spectrum using Matlab. The idea of assigning
priority among the secondary users was highlighted.
ROUTER CONFIGURATION PROJECT AND SIMULATION OF ROUTING PROTOCOLS IN OPNET AND
PROJECTS IN WIRESHARK. March 2014
Configured the CISCO routers to operate on different routing protocols such as RIP, EIGRP, BGP,
OSPF and OSPF with multiple areas.
WIRESHARK projects of analysing IP, TCP, DNS, Ethernet, HTTP, UDP.
DESIGN OF ENCODER AND DECODER USING VERILOG CODING TECHNIQUE. Sept. 2013
Encoding of the data is a process of transforming the data by the use of protocols as agreed by the
sender and receiver in order to ensure the secure transmission of the data over the transmission
line. Encoder and decoder were designed in this project using Verilog code.
RFID BASED LIBRARY MANAGEMENT SYSTEM AND AUTOMATION. April 2012
Developed a Management system that is efficient, fast and provides an easy way to access the
library inventory providing security and other features using the RFID detectors and RFID tags
using embedded c programming.
INTERNSHIP PROJECT:“CONTINUOUS CAPTURING AND ANALYSIS OF SIGNALS”
-- BHARATH ELECTRONICS LIMITED. Jan 2012 – March 2012
Developed a GUI to analyze the captured signal of the SONAR reflected from the underwater
objects and obtained the intensity, power spectral density, power spectrum and other parameters
that help in determining position and other characteristics of objects.
Course work:
Digital Communication, Wireless Communication, Microwave and Radar, RF Engineering.
Network architecture and Network routing, Digital signal processing, Computer Arithmetic.
Advanced principles of VHDL/VERILOG - Programming and project using SynaptiCAD.
Analog and digital electronic circuits, Logic Design, VLSI – projects using Cadence.
Microcontrollers and Microprocessors, Advanced Embedded Systems [Code warrior and Mini-IDE].
Control systems and automation, Concepts of Electrical engineering, Power electronics.