From: route@monster.com
Sent: Tuesday, June 14, 2016 5:16 PM
To: hg@apeironinc.com
Subject: Please review this candidate for: IMS Integration
This resume has been forwarded to
you at the request of Monster User xapeix03
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ALOK KUMAR saxena_aks@yahoo.com
C (817) 697-5559 , (214) 850-1748 Skype ID:
alok.kumar8898 Visa status: US
citizen PROFESSIONAL
SUMMARY: ·
17 years of Telecom/ IT Experience
in architecture, design (system and application), development, testing,
simulation and performance analysis for wireless networks (LTE, WiMax,
EvDo, CDMA), embedded systems, networking and application domain. ·
Extensive experience in the field
of Telecom/Networking (Verizon, Cisco, Nortel, Huawei and Punjab
Communications) and Government services (Xerox- ACS) domain. ·
Played several key roles including
Designer, Architect, Team Lead ,senior system dev specialist and independent
contributor. ·
Expertise in Object oriented
programming, Network security (authentication and authorization) , MAC
layer algorithms, EPC (Evolved packet core) , schedulers, QoS for LTE
and WiMax. ·
Broad experience in commercial
software architecture, development and deployment. ·
Iterative development to fully
understand customer needs and build the best possible solution on schedule
and on budget RESPONSIBILITIES
AND EXPERTISE: ·
Well versed with entire project
lifecycle (initiate, plan, execute, monitor & control, close). ·
Strong C++/C++11 programming
experience under UNIX, LINUX, VxWorks (RTOS) and Windows. ·
Proficient in TCP/IP
protocol stack and socket programming. ·
Well versed with TCP/IP
protocols - conducted performance analysis for various TCP algorithms for
wireless networks to optimize it for high and speed data services. ·
Manage project risks and issues;
facilitate regular project status meetings; document and communicate key
project decisions; provide weekly status reports to Management; effectively
manage scope and change control, effort estimation. ·
Primary responsibilities include
architecture, design and development of commercial software products and
custom software solutions, as well as day-to-day business operations.
Development is in C++/C. ·
Review technical documentation to
verify compliance with client requirements and established architectural
standards and guidelines. ·
Ability to translate functional
requirements into technical terms relevant to the application to coordinate
and assist with the detailed technical design tasks ·
Extensive experience for Mix
traffic (data and real time traffic) schedulers, End to End QoS, inter and
Intra user QoS Scheduler for LTE, WiMax, CDMA, 1x
EvDo rev 0 and Rev A technologies. ·
Expert level embedded RTOS
development experience using VxWorks and PoS Embedded solution using Veifone
Verix Vx . ·
Have expertise in Object Oriented
Analysis and Design (using Describe and GDPro tool based on UML). ·
Experienced with Unit, Designer,
Regression and Integration Testing. TECHNICAL: PROGRAMMING C++/C++11, C, and Viual
studio c++ 2015 ( TELECOM /
Embedded/NETWORKING Device Identity
(authentication/authorization) , Mallard set top Box, PoS Embedded
development, Verix Vx, LTE, Biometric MSO300 , WiMAX,
1xEvDO, CDMA 1xRTT, VoIP, WLL, Call processing, PDSN, CTI, IVRS, MFPA, socket
programming, IPC and multithreading PROTOCOL 802.1x , EAP, TCP,
RLP, UDP, IP, SNMP, SIP, fixed wireless V5.2 Protocols, RTP/RTCP. OPERATING SYSTEMS UNIX , Cisco IOS, RTOS (VxWorks), LINUX,
Verifone Verix Vx, Windows,. WORK EXPERIENCE: 1: Verizon Wireless Inc. Irving, TX, USA(
01/2015 – continue) 2:CISCO SYSTEM, BANGALORE, INDIA (06/2012
to 09/2014) 3: XEROX-ACS INC, AUSTIN, TX USA (10/2009
to 06/2012) 4: HUAWEI TECHNOLOGIES INC, PLANO, TEXAS,
USA (09/2004 to 10/2009) 5: NORTEL NETWORKS, RICHARDSON, USA
(09/2000 to 08/2004) 6: PUNJAB COMMUNICATIONS LIMITED, MOHALI,
INDIA (08/1998 to 03/2000).
Project
Description:
Oncue
brings TV on Internet . Customer can replace their TV cable service provider
and get the same experience/features like video on demand,
program recording, captions, TV guide etc as cable and save
monthly bills. Oncue application can be run On Mallard Box( Verizon device)
or any gaming device like XBOX, Roku . Role: ·
.Design and Implemented Disaster
recovery feature which will automatically be enabled when any
critical issue raised in set top box. ·
Design and implemented remote
services like reset, reboot set top box , factory options enabled etc, ·
Implemented Auto provisioning
module for new mallard box . ·
Implemented / upgrade GUI
controllers and components ·
Ported set top box once
application on Mirosoft XBOX.
Project
Description:
The IEEE 802.1X standard defines a
client-server-based access control and authentication protocol that restricts
unauthorized devices from connecting to a LAN through publicly accessible
ports. The authentication server authenticates each client connected to a
switch port before making available any services offered by the switch or the
LAN. It prevent unauthorized devices (clients) from gaining access
to the network. As LANs extend to hotels, airports, and corporate
lobbies, insecure environments could be created. Role: ·
Participate in the design
discussions with technical team to implement new SM architecture. · Review and integrate all application requirements,
including functional, integration, security and performance. · Resolved many issues related to Dot1x, MAB and EAP
framework. · Design and implemented new features in SM UT, moved static
policy into dynamic policy and auto configuration for devices. · Completed/ reviewed all appropriate documentation required
by the programmers, testers, deployment team, and application management team
that maintains the identity module. Active
member for few releases
Project
Description:
The
goal of the Child Care Tracking System is to provide an electronic system for
accurate and timely capturing, tracking and reporting of time and attendance
data utilizing primarily biometric technology, specifically, finger imaging.
The system is not expected to provide payments to providers, but will be
expected to provide the time and attendance data information needed to
facilitate payment. The solution should provide flexibility so as to
accommodate the state’s various types of child care providers and their
equipment needs. Role: ·
Participate in design discussions
with technical architect from federal and various state governments
departments. · Review and integrate all application requirements,
including functional, integration, security, performance, quality, and
operations requirements. ·
Architect, design, implemented and
Integrate the MSO device (Bio-Metric device) with PoS Vx570/510 . ·
Architect, design and implemented
the communication module between PoS and EPPIC server, compliance with ISO
8583 standards. ·
Inform the enterprise architect,
program manager, director of any issues that may affect other areas of the
project. ·
Work with China’s development
product team to implement and enhance functionality for of EPPIC Server.
Involved in the System development, code reviewing with standard process. ·
Application Architecture and High
level technical design (HLD) to describe how the single application will
cooperate with other state governments interface to provide an integrated
solution that will achieve the architectural concept. · Managing project risk, timely issue resolution and risk
mitigation plan. · Complete/ review all appropriate documentation required by
the programmers, testers, deployment team, and application management team
that will maintain the application.
Project Description: For the
voice application, there are certain hours during a business day when the
voice traffic load is much heavier than the average so Some operators would
like to introduce a Codec adaptation mechanism that is based on cell loading
in LTE Rel’9 so that when an eNB experiences congestion during the peak
hours, the eNB can let the UEs select a more radio resource friendly Codec
rate for VoIP applications. Codec Rate Selection at Call Setup, Codec Rate
Decrease Mid Call and Codec rate Increase Mid Call. Role: ·
Discussed various solutions for
codec rate adaptation with Huawei architect and AT &T technical
team. ·
Delivered call flows and flow
charts for the Application layer (SIP message) and ECN based solution for
codec rate adaptation. · Participate in transitioning the designs to the
programmers, and ensure a clear and complete understanding of the designs of
call flows and flow charts for these solutions.
Project
Description: LTE is a
3GPP standard for wireless data communications technology and an
evolution of the GSM/UMTS standards. The goal of LTE is to increase the
capacity and speed of wireless data networks.The LTE specification provides
down-link peak data rates of 300 Mbits/s , uplink peak data rates of 75
Mbits/s and QOS provisions permitting round trip time of less than 10ms. LTE
supports dyanmic carrier bandwidths , from 1.4 MHz to 20 MHz and supports
both FDD and TDD. The architeture of the LTE network is simplified to a flat
IP based called the EPC, replaced the GPRS core networks and supports
seamless handover with older technolgies like GSM, UMTS and CDMA2000. Roles: ·
Since LTE is the evolution of
UMTS, it was considerable a big challenge to change the existing Architecture
and design. Participate in design discussions with technical architects. ·
Designed HLD and DDL for eRAN 2.0
LTE RRM which includes the architectures call flows, sequence, use case
and state diagrams for E2E QoS setup for UE and network initiated ,
data and control plane, modify and release for both mobile originated
and terminated service, context transfer and QoS transfer modification for
inter-cell mobility. ·
Designed and implemented the
admission and congestion control algorithms. ·
Designed the mapping and bearer
binding mechanism for S1, Radio and S5/S8 bearer. ·
Designed and implemented various
MAC schedulers (Uplink and Downlink) , to allocate air interface
resources optimally based on QCI (QoS) , CQI and other weighted factors. ·
Designed and implemented
various queuing mechanism like priority Queuing, class based weighted fair
and low latency ( CB –WFQ and CB-LLQ) and dropping mechanism like
WRED to control the traffic and eNodeB load.
Project
Description:
WiMax is the one of the hottest wireless broadband technology. WiMAX would
operate similar to WiFi but at higher speeds, over greater distances and for
a greater number of users. WiMAX has the ability to provide service even in
areas that are difficult for wired infrastructure to reach and the ability to
overcome the physical limitations of traditional wired infrastructure. Role:
·
Review the standards for WiMax
(IEEE 802.16). ·
Implemented dynamic and semi
persistent schedulers for data and real time services. ·
Designed and implemented QoS
schedulers and did the performance evaluation for different type of
schedulers.
Project
Description:
TCP was
initially designed for wired networks and hence performs poorly in the
presence of delay spikes which are especially more frequent in today’s
wireless mobile networks. In wired networks, BER is negligible and congestion
is the main reason for the packet loss while in wireless networks, there
could be various reasons for the packet loss like handover, Real time service
prioritization over data services etc. Role: ·
Analyzed various TCP congestion
mechanisms like slow start, TCP Tahoe, Reno, and new Reno, SACK, SNOOP and
various other algorithms with the impact of RLP to TCP. ·
Designed and implemented a TCP
stack on the BSC called MA (Mobile agent) to differentiate the traffic from
wired to wireless networks. Packets from the transmitter are copied into the
MA and if the packets are dropped due to wireless matrices, different
mechanism is used to retransmit the packet. ·
Designed the TCP stack in the
reverse direction, delayed ACK is constructed based on the feedback from
wireless matrices.
Project Description: EvDO EV-DO was
designed as an evolution of the CDMA2000 (IS-2000) standard that would
support high data rates and could be deployed alongside a wireless carrier's
voice services. It provides forward link air interface speeds of up to 2.4
Mbit/s with Rel. 0 and up to 3.1 Mbit/s with Rev. A. The reverse link rate for
Rel. 0 can operate up to 153 kbit/s, while Rev. A can operate at up to 1.8
Mbit/s. Assignments of the RLP’s, each user have a QoS Profile and identifies
as a QoS profile ID. Each Profile is associated with a particular DSCP (TOS
field in IP packet); PDSN can differentiate the packet and implements the
different policies to the different flows (delay sensitive and traffic
sensitivity flow) in the network. Role: · Designed a new Air interface state machine for the
Enhancements in QoS in Network side. · Designed and implemented RLP Assignment algorithm for
multi- flow packet application. · Design and implemented various call flows, state machines
and sequence diagrams. · Design and implemented a new dynamic buffer management
scheme to creates dynamic sizes of buffers based on the data rate in traffic
sensitive flows( TCP) and delay, jitter , packet drop QoS matrices
for delay sensitive flows( UDP) . · Analysis and simulate the calls statistics, used CBWFQ
(queuing mechanism for different type of flows and used WRED for congestion
avoidance for solving the global synchronization problem which was occurred
in existing FIFO( first in first out) mechanism.
Project Description: RLP is
the NAK based application layer Wireless protocol, meaning that forward-link
sender assumes that each transmission got through, and the receiver only NAKs
when an out-of-order segment is received. NAK based RLP is very efficient for
data services, but not much efficient for real time services. Role: ·
Designed flow diagrams and
proposed an ACK based RLP for SIP signaling messages to set up and release
call for the following reasons which reduced the call setup delay for real
time services and improved the performance. ACK based RLP can be used to
reduce the call setup time for VoIP applications. · Performed an analysis that showed ACK based RLP enables
the quicker identification of dropped signaling messages.
Project Description: In
existing CDMA 2000, there was no QoS implemented for users so resourced used
to allocate in First come first server basis. Client asked to allocate the
resources based on the some criteria. This schedule manager is
developed for the CDMA2000 for the resources allocation fairly and provides
the QoS to users based on the services registered (special, platinum, gold,
silver and bronze). Role: ·
Designed the call flows, sequence
diagram and state diagram for forward link scheduler. ·
Designed and implemented QoS
scheduling algorithm. ·
The data throughput was increased
about 18% and also resources allocated to each user fairly and when QOS
functionality is on, user gets guaranteed minimum data throughput.
Project Description and Role: · Add the SCH active set management to provide the ability
to change the SCH active Set candidates during an infinite burst. · Add a new SCH resource allocation scheme (Fair Share
Algorithm) based on users’ priority (QOS) for better use of critical
resources. Add the ability to preempt the infinite burst when there is
contention for Resources at the BTS or BSC Preempt. · Design and implemented a new interface and some bug fixing
for call origination, termination, and cancellation and call logs in
Multimedia PC client as well as in Proxy server which is used for forwarding
or responding to the request on the behalf of user agent.
Education: Master of computer application
(Hons) from M.M.M. Engineering College Gorakhpur, INDIA. |
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Languages: |
Languages |
Proficiency Level |
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English |
Fluent |
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