Muhammad Essa is seeking a position in RF engineering. He has a Bachelor's degree in Telecommunication Systems from Bahauddin Zakariya University with a CGPA of 3.16/4.00. He has over 5 years of experience in 2G/3G drive testing and optimization using TEMS and MapInfo software. His responsibilities included pre- and post-drive testing clusters to resolve issues such as overshooting, pilot pollution, and undefined neighbors. He is proficient in TEMS, MapInfo, Excel, and PowerPoint and has self-studied mobile communications topics including GSM, UMTS, LTE, wireless networks and signaling.
Company Name: - Reliance Jio Infocomm Limited (Rajasthan Circle)
Current Profile: RF Planning and Optimization Expert (RF Manager)
LTE, LTE Advanced
Responsibility: To Manage RF Network of Multi Carrier Bandwidth in LTE System
Working on 2300 MHz, 1800 MHz, and 850 MHz Dual Carrier C1 C2.
PERFORMANCE OF MIMO MC-CDMA SYSTEM WITH CHANNEL ESTIMATION AND MMSE EQUALIZATIONTamilarasan N
The quality of a wireless link can be described by three basic parameters, namely transmission rate, transmission range
and transmission reliability. With the advent of multiple-input multiple-output (MIMO) assisted Multicarrier code
division multiple access (MC-CDMA) systems, the above-mentioned three parameters may be simultaneously
improved. The MC-CDMA combined with the MIMO technique, has become a core technology for future mobile radio
communication system. However, possible potential gain in spectral efficiency is challenged by the receiver’s ability to
accurately detect the symbol due to inter symbol interference (ISI). Multipath propagation, mobility of transmitter,
receiver and local scattering cause the signal to be spread in frequency, different arrival time and angle, which results in
ISI in the received signal. This will affect overall system performance. The use of MC-CDMA mitigates the problem of
time dispersion. However, still it is necessary to remove the amplitude and phase shift caused by channel. To solve this
problem, a multiple antenna array can be used at the receiver, not only for spectral efficiency or gain enhancement, but
also for interference suppression. This can be done by the, efficient channel estimation with strong equalization. This
paper proposes MIMO MC-CDMA system, Minimum mean square error (MMSE) equalization with pilot based
channel estimation. The simulation result shows improved Bit error rate (BER) performance when the sub carrier (SC)
and antenna configuration were increased
STUDY OF VANET ROUTING PROTOCOLS FOR END TO END DELAYcscpconf
Less than a century since the automobile was made affordable enough for the general public, hundreds of millions of vehicles now travel along highways and streets around the
world. Innovations in safety, comfort, and convenience have made vast improvements in
automobiles during that time, and now new technologies promise to change the face of
vehicular travel once again. Vehicular ad hoc network (VANET) is network which provides the communication between vehicle to vehicle for p r o v i d i n g i n f o r m a t i o n t o travelers with new features and applications that have never previously been possible. This paper focuses
on vehicle to vehicle (V2V) communications in VANET. Lot of research is going on for
determining route between source and destination vehicles for routing the information with
good packet delivery ratio. In this paper we provide a simulation and study of VANET Routing Protocols for end-to-end delay in V2V communication.
Study of vanet routing protocols for end to end delaycsandit
Less than a century since the automobile was made affordable enough for the general
public, hundreds of millions of vehicles now travel along highways and streets around the
world. Innovations in safety, comfort, and convenience have made vast improvements in
automobiles during that time, and now new technologies promise to change the face of
vehicular travel once again. Vehicular ad hoc network (VANET) is network which provides the
communication between vehicle to vehicle for p r o v i d i n g i n f o rma t i o n t o travelers with
new features and applications that have never previously been possible. This paper focuses
on vehicle to vehicle (V2V) communications in VANET. Lot of research is going on for
determining route between source and destination vehicles for routing the information with
good packet delivery ratio. In this paper we provide a simulation and study of VANET Routing
Protocols for end-to-end delay in V2V communication.
Company Name: - Reliance Jio Infocomm Limited (Rajasthan Circle)
Current Profile: RF Planning and Optimization Expert (RF Manager)
LTE, LTE Advanced
Responsibility: To Manage RF Network of Multi Carrier Bandwidth in LTE System
Working on 2300 MHz, 1800 MHz, and 850 MHz Dual Carrier C1 C2.
PERFORMANCE OF MIMO MC-CDMA SYSTEM WITH CHANNEL ESTIMATION AND MMSE EQUALIZATIONTamilarasan N
The quality of a wireless link can be described by three basic parameters, namely transmission rate, transmission range
and transmission reliability. With the advent of multiple-input multiple-output (MIMO) assisted Multicarrier code
division multiple access (MC-CDMA) systems, the above-mentioned three parameters may be simultaneously
improved. The MC-CDMA combined with the MIMO technique, has become a core technology for future mobile radio
communication system. However, possible potential gain in spectral efficiency is challenged by the receiver’s ability to
accurately detect the symbol due to inter symbol interference (ISI). Multipath propagation, mobility of transmitter,
receiver and local scattering cause the signal to be spread in frequency, different arrival time and angle, which results in
ISI in the received signal. This will affect overall system performance. The use of MC-CDMA mitigates the problem of
time dispersion. However, still it is necessary to remove the amplitude and phase shift caused by channel. To solve this
problem, a multiple antenna array can be used at the receiver, not only for spectral efficiency or gain enhancement, but
also for interference suppression. This can be done by the, efficient channel estimation with strong equalization. This
paper proposes MIMO MC-CDMA system, Minimum mean square error (MMSE) equalization with pilot based
channel estimation. The simulation result shows improved Bit error rate (BER) performance when the sub carrier (SC)
and antenna configuration were increased
STUDY OF VANET ROUTING PROTOCOLS FOR END TO END DELAYcscpconf
Less than a century since the automobile was made affordable enough for the general public, hundreds of millions of vehicles now travel along highways and streets around the
world. Innovations in safety, comfort, and convenience have made vast improvements in
automobiles during that time, and now new technologies promise to change the face of
vehicular travel once again. Vehicular ad hoc network (VANET) is network which provides the communication between vehicle to vehicle for p r o v i d i n g i n f o r m a t i o n t o travelers with new features and applications that have never previously been possible. This paper focuses
on vehicle to vehicle (V2V) communications in VANET. Lot of research is going on for
determining route between source and destination vehicles for routing the information with
good packet delivery ratio. In this paper we provide a simulation and study of VANET Routing Protocols for end-to-end delay in V2V communication.
Study of vanet routing protocols for end to end delaycsandit
Less than a century since the automobile was made affordable enough for the general
public, hundreds of millions of vehicles now travel along highways and streets around the
world. Innovations in safety, comfort, and convenience have made vast improvements in
automobiles during that time, and now new technologies promise to change the face of
vehicular travel once again. Vehicular ad hoc network (VANET) is network which provides the
communication between vehicle to vehicle for p r o v i d i n g i n f o rma t i o n t o travelers with
new features and applications that have never previously been possible. This paper focuses
on vehicle to vehicle (V2V) communications in VANET. Lot of research is going on for
determining route between source and destination vehicles for routing the information with
good packet delivery ratio. In this paper we provide a simulation and study of VANET Routing
Protocols for end-to-end delay in V2V communication.
1. Muhammad Esssa
Mobile: +92-3008085711
Email ID: essamallik603@gmail.com
C.N.I.C: 32304-2837420-9
S/o : Khadim Hussain
Date of Birth : 16 January, 1992
Address : P/O Miranpur Tehsil and District Muzaffar Garh.
Languages Known : English and Urdu
CAREER OBJECTIVE
Looking forward to join an organization for professional experience and can work hard long hours to meet the challenging goals in
Department of interest is RF.
EDUCATIONAL BACKGROUND
F.Sc Pre Engineering:
B.I.S.E D G Khan 77.45% marks.
BS Telecommunication Systems (2011-2014):
Bahauddin Zakariya University Multan CGPA, 3.16/4.00
EXPERIENCE
Key Responsibilities (3G/2G)
Pre DT Clusters (To Note Down Issues like Over Shootings, Pilot Pollution, & Undefined Neighbors etc) .
Site audit.
Post DT Clusters (Adjust Azimuths, Tilts, Tx Power,Add Neighbours etc to resolve Issues like Over Shootings, Pilot
Pollution, & Undefined Neighbors etc.)
Check Intra and Inter Handover in all three technology
Outdoor site SSV including GSM/WCDMA
CS, PS Test for Single site and Cluster
Perform Drive Test for Acceptance Testing for 2G/3G network by using TEMS 16.3
Knowledge of Channelization codes , Scrambling codes , HSDPA & HSUPA
2. Analyze all the 3G parameter regarding Data and I-RATS
Single site, cluster and bench mark report making.
Basic Log File analysis.
Designing and Analysis of MapInfo thematic
Indoor Walk Testing
Leading/carrying out regional Drive Test Activities for improving the Urban Network QoS in the project held
nationwide, with our region grabbing the top position
Validate drive test coverage footprint against designed coverage
Used MapInfo for making thematic diagrams to present Receive level, Receive Quality, Dropped calls, Blocked calls and
HO failures
Cluster drives and frequency scanning (idle, dedicated and GPRS mode) using Ericsson TEMS
Co channel Interference, Faulty Neighbors, External Interference, Power Control and Handover Related Issues
Drive Test at |Mobilink-ZTE Swap(May- 2015 to December -2016)
Job Description
Pre DT Clusters (To Note Down Issues like Over Shootings, Pilot Pollution, & Undefined Neighbors etc) .
Site audit.
Post DT Clusters (Adjust Azimuths, Tilts, Tx Power,Add Neighbors etc To Resolve Issues like Over Shootings, Pilot
Pollution, & Undefined Neighbors etc.)
Check Intra and Inter Handover in all three technology
Outdoor site SSV including GSM/WCDMA.
CS, PS Test for Single site and Cluster.
Perform Drive Test for Acceptance Testing for 2G/3G network by using TEMS 8.3 & TEMS 15.3.2&16.2
Knowledge of Channelization codes , Scrambling codes , HSDPA & HSUPA.
Analyze all the 3G parameter regarding Data and I-RATS.
Analyzes Pilot Coverage, CPICH, RSCP, Ec/No, Pilot Pollution, Accessibility and Mobility for Voice, PS Services .To
perform SSV and Cluster Drive and Scanner Drive on TEMS 15.3.2 &16.2
Carrying out pre/post city and redesign drive tests, analyzing them on TEMS and Mapinfo and making
benchmarking reports.
Leading/carrying out regional Drive Test Activities for improving the Urban Network QoS in the project held
nationwide, with our region grabbing the top position.
Validate drive test coverage footprint against designed coverage.
3. Used MapInfo for making thematic diagrams to present Receive level, Receive Quality, Dropped calls, Blocked calls and
HO failures.
Cluster drives and frequency scanning (idle, dedicated and GPRS mode) using Ericsson TEMS.
Co channel Interference, Faulty Neighbors, External Interference, Power Control and Handover Related Issues.
Drive Test at Telenor-ZTE Swap(january- 2016 )
Job Description
2G/3G swap
3G Infill Drive
Cell Split or Sector Addition
Audit
3G/2G SSV’s
PAC/FAC Drive
Dual Carrier
H A N D O N E X P E R I E N C E
TEMS
MapInfo
Microsoft Excel
Power Point
Google Earth
SELF STUDIED TOPICS
Mobile Communications (GSM-UMTS)
WCDMA DT Parameters and ranges
Working of channels (logical, physical, transport) in GSM and WCDMA
Cell search procedure in WCDMA
Handovers in GSM and WCDMA
Power control in WCDA
Rake receiver in WCDMA
GSM and WCDMA architecture and interfaces
Modulation, multiple accessing and multiplexing techniques
Spreading Procedure in WCDMA
Call flows in GSM and WCDMA
4. LTE basics
MAJOR WIRELESS COURSES
Analogue and Digital communication
Data Communication
Wireless networks
Wireless Communication
Transmission, Switching and Signaling
BSS Operations
PROFESSIONAL CERTIFICATES
2G and 3G(UMTS Cell Planning) from SINA Institute Islamabad
Microwave(Planning and Configuration) from SINA Institute Islamabad
RNO from HUAWEI-UET Joint Telecom And It Centre Lahore
BSS from HUAWEI-UET Joint Telecom And It Centre Lahore