Engineer Software
Resume:
CURRICULUM VITAE
To succeed in an environment of growth and excellence, creating a sound
position in the corporate world which provides me job satisfaction and self- development, thereby assisting me to achieve personal and organizational goals.
• Quick learner
• Determined and proactive team player
• Positive attitude
• Good written and verbal communication skills
1 I am working and have HANDS-ON experience with PBIT MANAGER
(ALL Sub-System) of ITCM, SLCM and NIRBHAY, developing MFCC-MASTER software.
2 I worked and have HANDS-ON experience with ELTA RADAR (MMR and AESA) of LCA TEJAS and LCA TEJAS-MK-1A, developing OAC-MASTER software for ELTA RADAR of TEJAS and TEJAS-MK-1A.
3 I was an engineer in Research and development of Mission Management Software (MMS) under Avionics and Weapon System Directorate (A&WS) of Aeronautical Development Agency, Ministry of Defence, Central Government of India for LCA TEJAS and LCA TEJAS-MK-1A. 4 I am an engineer in Research and development of Unmanned Aerial Vehicle (UAV) under Software Engineering Department (SED) of Aeronautical Development Establishment, Ministry of Defence, Central Government of India for ITCM, SLCM and NIRBHAY.
5 I was selected twice in All India for, The Indian Navy, 33 SSB in Bhopal Batch No.: UTEN 45345 and USTN 45375, being the second difficult interview in India.
6 I have cleared CDS exam being the second difficult exam in India. 7 I was First RANK HOLDER in the department of CSE for all 8 semesters. 8 I was awarded as the Best Programmer in the department of CSE. 9 I was awarded a Certificate of Presenting a Paper entitled Deep Neural Network used as a Supervised Image Classifier with Noise Recognition, ISSN: 2319-6890 Volume No.5 Issue: Special 4, pp: 790-991 in Objective
Personal Traits
Achievements
SAVIER SOUNDARAJ S V
S/o S F VINCENT
Email:
r ajsavier3 5 @gmail.com
ssrurs35 @gmail.com
Mobile:
+91 - 974*******
Permanent Address:
No.34/B, BLESSINGTON,
PATEL RAMAIAH LAYOUT,
SADHASHIVA ROAD,KOTHANUR
BANGALORE - 56007 7
Personal Data:
DOB : 26 Sep 1993
Gender : Male
Nationality : Indian
Marital Status : Single
the Third International Conference on Convergent Innovative Technologies ICCIT-2016, organized by Cambridge Institute of Technology, Bangalore.
10 I was awarded a Certificate of exhibiting the project entitled rLRRml: A Method of Automatic Face Detection and Recognition in the National Students’ Project Exhibition-2016 organized by the Alpha College of Engineering, Bangalore.
11 I was awarded a Certificate of Presenting a Paper entitled Reducing the Number of Base Stations and Replacing them with SDN-Controller in Clouds at the International Conference on Computer Science and Mechanical Engineering (ICCSME) held by IRAJ RESEARCH FORUM in association with INSTITUTE OF RESEARCH AND JOURNALS ICCSME, PAPER ID: IR-CSME-BGLR-11096-380. 12 I was awarded a Certificate of Presenting a Paper which was selected as the best, in ICCSME entitled Reducing the Number of Base Stations and Replacing them with SDN-Controller in Clouds and this paper was published on International Journal of Advances in Computer Science and Cloud Computing
(IJACSCC): Volume-4, Issue-2.
13 I was awarded a Certificate of Participation in the Intercollegiate Climate Change Quiz 2014, organized by the Indian Institute of Science, Bangalore.
14 I was awarded a Certificate of Participation in the Recent Trends in Data Mining Techniques, organized by the Society of Information Processing, Bangalore and Vijaya Vittala Institute of Technology, Bangalore.
Work Experience:
1 Working in Aeronautical Development Establishment, Ministry of Defence, Central Government of India as a software engineer and developer for with PBIT MANAGER (ALL Sub-System) of ITCM, SLCM and NIRBHAY from July 2020 to present.
• PBIT MANAGER (ALL Sub-System) developer with key responsibility for designing, analysing, implementing ADA codes in the MFCC software.
• Implementing the PBIT MANAGER (ALL Sub-System) codes as per the ICD and requirement.
• Implementing and converting ADA codes into MATLAB codes for flight data analysis and research.
• Implementing and converting ADA codes into C++ codes for Code interface analysis and research.
• Interpreting and capturing the bus data of 1553B and verifying with respect to the ICD.
• Unit (CSU) level testing using LDRA software tool.
• Preparation of SRS for the Sub-System.
2 Worked in Aeronautical Development Agency, Ministry of Defence, Central Government of India as a software engineer and developer for ELTA RADAR (MMR and AESA) of TEJAS from July 2019 to July 2020.
• ELTA RADAR (MMR and AESA) developer with key responsibility for designing, analysing, implementing ADA codes in the OAC software.
• Implementing the ELTA RADAR (MMR and AESA) codes in Sensor Sub-System as per the ICD and requirement.
• Understanding the LRU’s that is ELTA RADAR (MMR and AESA), core logic and working code implemented in the sub-layer of the Rational Sub-System.
• Commanding the ELTA RADAR (MMR and AESA) from the Cockpit controls through the OAC software.
• Extending and implementing the commanding logic of ELTA RADAR (MMR and AESA) to other LRU’s and Sub-System.
• Implementing and converting ADA codes into MATLAB codes for flight data analysis and research.
• Implementing and converting ADA codes into C++ codes for Code interface analysis and research.
• Interpreting and capturing the bus data of 1553B and verifying with respect to the ICD.
• Unit (CSU) level testing using RTRT software tool.
• Execute integration level testing in the test RIG and Avionics Integrating RIG (AIR).
• Burning or Flashing of the OAC-MASTER DAT file onto the OAC in the test RIG and Avionics Integrating RIG (AIR).
• Basic understanding of the RIG setup, connecting and shifting of OAC and MF-UFCP.
• Preparation of SRS for the Sub-System.
3 Worked in Sundane FMS IT as an Optimization Scientist and developer from 6th Feb 2017 to 30th March 2019.
• Optimization developer with key responsibility for designing, analysing, implementing heuristic (LPP), optimization algorithms and machine learning for the projects taken by the company.
• Converting the created Heuristics into Programming Codes.
• Error management team member.
• Internal Quality check buddy for junior team members. 4 Freelancer- Teacher from 2015 to 2017 for students from 10th STD up to Engineering in Computer
(Science and Applications), Mathematics and Physics. Internship, Workshops:
1. I was awarded a Certificate of Participation in the Big Leap – A Live Marketing Challenge 2015, organized by Philips.
2. I was awarded a Certificate of Participation in the A-to-Z Cloud Workshop (Hands-on) 2016, organized by Tekinar.
3. I was awarded a Certificate of Participation in the 0-to-100 Website Creation and Entrepreneurship Workshop (Hands-On) 2016, organized by Tekinar.
Educational Qualification:
COURSE NAME OF THE INSTITUTE YEAR OF PASSING AGGREGATE B. E[Computer Science
and Engineering]
Vijaya Vittala Institute of
Technology
2016 71.93%
Intermediate (10+2)
(PCMC)
Jyothi Composite PU-College
2012
70.13%
ICSE
St. Joseph’s Boys’ High School 2010
77.44%
Technical Summary:
Programming Languages ADA, SPARK-ADA, MATLAB, C, C++, Core Java. Developed Algorithms RADAR FLATNESS RATIO & RADAR TARGET SQUARE Hardware
OAC, MMR, AESA, MF-UFCP, LDP, MFD, HUD, HOTAS,
AHCP,SSP, FSP, FCC
HIS test facility OAC-RIG(MMS Lab), AIR-RIG
Tools
Apex-ADA, AdaMULTI - Green Hills, LDRA, Rational Test Real Time, MATLAB, CODEBLOCK, DEV-C++
Operating Systems Windows XP/7/8.1/10, Ubuntu, Linux, Fedora. RTOS Tornado, VxWorks
Avionics Standards DO-178B
Protocols MIL-STD-1553B
Design Language UML
Other Tools/Applications MS Office, Excel
Projects:
Major Project-1 for ADE:
MFCC software:
Project Description: Design, analysis, implementation and testing of MFCC software for commanding of PBIT MANAGER (ALL Sub-System) of ITCM, SLCM and NIRBHAY. Role: software engineer developer and Tester of MFCC software PBIT MANAGER (ALL Sub-System) of ITCM, SLCM and NIRBHAY.
Team size: 1 member
Roles- SRS, Development, Testing and Flight data analysis of MFCC for PBIT MANAGER (ALL Sub-System) of ITCM, SLCM and NIRBHAY.
Tools and S/W skills used: UML, AdaMULTI - Green Hills, LDRA, SPARK-ADA, C++, MATLAB, Data Structures and Algorithms.
Role- PBIT MANAGER (ALL Sub-System), the primary Built-In-Test of the ITCM, SLCM and NIRBHAY in its air/sea defence role, will be a key determination of the operational effectiveness of the missile. Its role is to process and perform the Built-In-Test pre-launch phase in order to verify and to check if all the LRU’s are in perfect condition for the launch and it is used to get the complete flight data pre-launch that is compared with current mission data. The MFCC-Software is used to command and control all the LRU’s. The Master has Manager structured system that follows DO-178B standards. The MFCC controls all the LRU’s by communicating via a bus called 1553B a notable feature of this scheme is the usage of this bus, dual redundant data bus for communication between various LRU’s like sensors, Actuators and TVC. Major Project-2 for ADA:
OAC software:
Multi-Mode RADAR/Mechanically Scanned Array (MMR/MSA): Project Description: Design, analysis, implementation and testing of OAC-MASTER software for commanding of ELTA RADAR (MMR) of TEJAS.
Role: software engineer and developer of OAC-MASTER software for ELTA RADAR (MMR) of TEJAS. Team size: 1 member
Roles- SRS, Development, Testing and Flight data analysis of OAC-MASTER for ELTA RADAR (MMR) of TEJAS.
Tools and S/W skills used: UML, Apex-ADA, RTRT, MATLAB, SPARK-ADA, C++, Data Structures and Algorithms.
Role- ELTA RADAR (MMR), the primary mission sensor of the LCA Tejas in its air defence role, will be a key determination of the operational effectiveness of the fighter. Its capabilities caters to RADAR functions under multiple target environment. Its role is to process the RADAR received output, detect and locate targets, create ground map, and provide contour map when selected, the special feature of signal processor is its real time configurability to adapt to requirements depending on the selected mode of operation and enabling the sub modes with respect to the selected mode of operation. The OAC-Software is divided into two parts OAC-MASTER and OAC-DS, The master is used to command and control all the LRU’s from the cockpit controls and DS (Display System) is used to display the multiple pages respect to the LRU’s in the cockpit. The Master and DS have seven relaxed layer system that follows DO-178B standards, each layer containing sub-layers with respect to the LRU’s. The OAC controls all the LRU’s by communicating via a bus called 1553B a notable feature of this scheme is the usage of this bus, dual redundant data bus for communication between various LRU’s like sensors, CCDS and SMS. Active Electronically Scanned Array (AESA) RADAR:
Project Description: Design, analysis, implementation and testing of OAC-MASTER software for commanding of ELTA RADAR (AESA) of TEJAS-MK-1A.
Role: software engineer and developer of OAC-MASTER software for ELTA RADAR (AESA) of TEJAS. Team size: 1 member
Roles- SRS, Development, Testing and Flight data analysis of OAC-MASTER for ELTA RADAR (AESA) of TEJAS. Tools and S/W skills used: UML, Apex-ADA, RTRT, SPARK-ADA, C++, MATLAB, Data Structures and Algorithms.
Role- ELTA RADAR (AESA), the primary mission sensor of the LCA Tejas-MK-1A in its air defence role, will be a key determination of the operational effectiveness of the fighter. Its capabilities caters to RADAR functions under multiple target environments and it is a fused LRU of three components the AESA RADAR, RWR and IFFT. Its role is to process the RADAR received output, detect and locate targets, create ground map, and provide contour map when selected, the special feature of signal processor is its real time configurability to adapt to requirements depending on the selected mode of operation and enabling the sub modes with respect to the selected mode of operation and dual/interleaved modes. LDP Masking ID:
Project Description: Design, analysis, implementation and testing of OAC-MASTER software for LDP masking ID.
Role: software engineer and developer of OAC-MASTER software for LDP masking ID. Team size: 1 member
Roles- SRS, Development, Testing and Flight data analysis of OAC-MASTER for LDP masking ID of TEJAS. Tools and S/W skills used: UML, Apex-ADA, RTRT, SPARK-ADA, C++, MATLAB, Data Structures and Algorithms.
Role- LDP (Laser Designated Pod), the primary priority sensor of the LCA Tejas in its air defence role, will be a key determination of the operational and weapon system effectiveness of the fighter. In this algorithm the LDP is used to identify the masking ID as per the weapon store data (SMS (Store management System)), it allows the LDP to have a complete view and not get blocked, based on this masking ID weapons may or may not be fired.
Mark and Update Functionality:
Project Description: Design, analysis, implementation and testing of OAC-MASTER software for Mark and Update functionalities.
Role: software engineer and developer of OAC-MASTER software for Mark and Update functionalities. Team size: 4 members
Roles- SRS, Development, Testing and Flight data analysis of OAC-MASTER for LDP masking ID of TEJAS. Tools and S/W skills used: UML, Apex-ADA, RTRT, SPARK-ADA, C++, MATLAB, Data Structures and Algorithms.
Role- The mark and update functionality, uses all the sensors based on the priority (LRAZ (LDP, RADAR, RADALT, BARO)) over oblique/overfly, HUD (sensor based), RADAR and LDP. This functionality is used to mark a point of interest using the designation marker with respect to the FRL (FOV (Field OF View) Reference Line) during mark function and the update is used to update the marked point where the SP cross (Steer Point cross) follows the DM (Designation Marker) when the SP sits on the DM the Point is updated.
Major Project-3 for Sundane FMS IT:
Sea Routing:
Material Transportation: Destination given by the clients Project Description: Routing of the ship with the help of GPS technologies Role: Optimization Developer
Team size: 7member
Roles- Creating heuristics and converting them into codes as per client requirement. Tools used: C, C++, Data Structures, Algorithms, Visual Basics, Java Number of projects: 4
Project 1: Routing of ships for Iron (C++: - Data Structures and algorithms). Mar-Sept 2017 Project 2: Routing of ships for Petroleum Product (C++: - Data Structures and algorithms). Oct- Jun 2018 Project 3: Routing of ships for Petroleum Product (Java: - Data Structures and algorithms). Jun- Dec 2018 Project 4: Routing of ships for Iron and Stainless Steel (Java: - Data Structures and algorithms). Jan 2019 Role- Creating heuristics depends on the load capacity of the ships (containers), number of containers, weight of the materials, number of destinations, silo capacity, inventory, weight of the ship before and after loading and unloading, shortest path to the next destination without fuel wastage- meeting the demands at that destination, forecasting of cost, time, fuel price, consignment cost and demand, then the path of all containers are set so that none of the containers land up in the same destination and meet all demands at the right time, the shortest path algorithm is set appropriate maximizations are done to get a result over the of complete routing of all ships, these heuristics are the converted in codes as asked by the clients in order to simulate the entire process and even visual graphics are introduce to provide exact simulations.
Mini Project
Title: 5G: Coordinated MultiPoint Transmission with Incomplete Information Domain: Networking with Precoder Design.
Team Size: 1
Description:
• This seminar is to demonstrate the involved three parties namely the Central Coordinated node (CCN), Base Station (BS), and Cell-edge users located at the cluster centre.
• The CoMP in the FDD system shows downlink pilots from the UEs.
• The CSI being fed back by the UEs to the serving BSs, typically the strongest BS.
• CSI transported from the BS to the CCN.
• The UE data is transported to the corresponding BSs based on the precoding weights.
• The actual UE data is transmitted to a cluster of UEs at the cell-edge users. Project Duration: February – May 2016
Project
This project was worked upon a part of the academic curriculum in partial fulfilments of requirements for the completion of the degree “Bachelor of Engineering in Computer Science and Engineering.”
Title: rLRRml: A Method of Automatic Face Detection and Recognition. Domain: Artificial Intelligence.
Technology and Tools: MATLAB and MATLAB 2013a.
Team Size: 4
Description:
• Given a collection of images, where images contains faces, is associated with few names. The goal of face naming is to match the correct name for each face. We propose two methods first, an rLRR as combined with LRR utilizes the weak supervision from image captions called as Discriminative Affinity Matrix for the trained images, using which sub- features can be reconstructed.
• Second, an ASML is used to create a kernel matrix for the test image which is a Discriminative Affinity Matrix based on Mahalanobis.
• The ASML compares the two matrix using an iterative scheme to infer the name of each face.
Project Duration: February – June 2016
Hobbies:
Cooking (Molecular Gastronomy), Japanese Anime, Horology, Aquarium maintenance, Direction, Script-writing, Acting, Gardening, Dancing, Painting, Terrarium, Yoga, Mono-acting, Sports and Games.
Declaration:
All the details furnished above are true and correct to the best of my knowledge. PLACE: BANGALORE SAVIER SOUNDARAJ S V
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