ARVIND KUMAR SINGH.

MOBILE NO: 093********/093********.

E-MAIL ID: adri3h@r.postjobfree.com

adri3h@r.postjobfree.com

adri3h@r.postjobfree.com

I am an enthusiastic creative and entrepreneurial person in the field of teaching profession having

a 18 plus year of experience in this field. Now I am in the position to utilize my skill in the

Electronics, Advance technology of Electronics and give my best in the field of electrical and

computer .I can give my best in the professional growth and industrial afford while being

resourceful, innovative and flexible

I have also a experience of 10 years as lead engineer in college and industries

OBJECTIVES:

To join in Engineering institution to devote my Knowledge between student and taught about the

given topic. I can also help them in practical and project aspects.

PROFESSIONAL COMPETENCIES:

Ability to handle the class in well manner way. Strong skill in subject and competitive environment. Take full responsibility in the case of college result and do my best. Give new idea in the progress of institution.

EXPERIENCE:

1 . ASSOCIATE PROFESSOR (ECE) IN SHREE VENKATESWARA UNIVERSITY GAJRAULA U.P ( 28 AUG 15 TO TILL DATE) Nature of Job- HOD and Academic Dean of the college .Guided M.Tech Student for their Final Dissertation. Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

2. ASSOCIATE PROFESSOR (ECE) IN OJASWINI INSTITUTE OF MANAGEMENT & TECHNOLOGY DAMOH ( 14 JULY 14 TO 31 JULY 15) Nature of Job- HOD and Academic Dean of the college .Guided M.Tech Student for their Final Dissertation. Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

3. ASSOCIATE PROFESSOR (ECE) IN LAXMI NARAIN COLLEGE OF TECHNOLOGY Jabalpur (01 JULY 12 TO 30 JUNE 14) Nature of Job-Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

4. ASSOCIATE PROFESSOR (ECE) IN SHRIRAM INSTITUTE OF SCIENCE & TECHNOLOGY Jabalpur (11 AUG 11 TO 30 JUNE 12) Nature of Job-Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

5. ASST PROFESSOR (ECE) IN VINDYA INSTITUTE OF TECHNOLOGY & SCIENCE Jabalpur (01 AUG 10 TO 10 AUG 11) Nature of Job-Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

6. ASST PROFESSOR (ECE) IN GYAN GANGA INSTITUTE OF TECHNOLOGY & SCIENCE Jabalpur (17 AUG 09 TO 31 JULY 10) Nature of Job-Teach student up to B.TECH & M.TECH Specially in VLSI TECHNOLOGY, CMOS VLSI, Embedded System, RTOS, COMPUTER NETWORK, ATM, MICROPROCESSOR & ITS PERIPHERAL

7. ASSISTANT LECTURER (E.C.E) IN I.T.M GIDA GKP (23 JUNE 2003 TO 31 JULY 2007) Nature of Job- Take classes & tutorial classes of B.Tech student and help them in lab work and guide them doing project work

8. ASST LECTURER (E.C.E) IN DR K.N.M.I.E.T.MODINAGER (18 DEC 2001 TO 22 JUNE 2003). Nature of Job-Take classes & tutorial classes of B.Tech student and help them in lab work and guide them doing project work.

9. ASST CHEMIST IN JYOTI CAPSULE KANPUR ( 01JULY 1999 TO 30 SEP 1999) Nature of Job- Preparation of medicine gelatin and testing of sample of medicine

10. SUPW TEACHER IN KENDRIYA VIDYALAYA C.W.S JAYANT SIDHI (M.P) ( 08 JULY 1993 TO 30 APRIL 1994) Nature of Job-Teach student up to class 12 basic electronics and electrical with small project related them. Also teach Physics and Maths

11. SUPW TEACHER IN KENDRIYA VIDYALAYA C.W.S JAYANT SIDHI (M.P) ( 17 AUG 1992 TO 30 APRIL 1993) Nature of Job-Teach student up to class 12 basic electronics and electrical with small project related them. Also teach Physics and Maths.

12. SUPW TEACHER IN KENDRIYA VIDYALAYA LAITKOREPEAK SHILLONG MEGHALA ( 15 FEB 1991 TO 12 APRIL 1991) Nature of Job-Teach student up to class 12 basic electronics and electrical with small project related them. Also teach Physics and Maths

TECHNICAL QUALIFICATION: GATE (2007) PASSED

1. M.TECH (VLSI &EMBB SYS) DAYANANDA SAGER COLLEGE OF ENGG BANGALORE-78 FIRST CLASS

2. POST GRADUATE DIPLOMA IN COMPUTER NETWORK FROM M.M.M ENGG COLLEGE GORAKHPUR IN 2002 FIRST CLASS DISTINTION.

3. A.M.I.E (INDIA) (E.C.E) FROM INSTITUTION OF ENGG KOLCATA IN 2006

4 DIPLOMA IN ELECTRONICS ENGG FROM U.P TECH BOARD LUCKNOW IN 1990

5. DIPLOMA IN RAIL TRANSPORT MANAGEMENT FROM RAIL BHAWAN NEW DELHI IN 1998.

EDUCATIONAL QUALIFICATION:

B.A (MATHS) FROM OSAMANIA UNIVERSITY IN 1996 MATHS, APP MATHS& STATISTICS.

INTER (P.C.M) FROM UP BOARD IN 1986

HIGH SCHOOL FROM KENDRIYA VIDAYALAYA IN 1984

TRAINING: (AUG2008 T0 FEB 09)

EMBEDDED SYSTEM FROM VECTOR INDIA HYDERABAD

(UNIX, SOCKET PROGRAMMING, VXWORK, EMBEDDED C, MICROCONTROLLER, TCP/IP, ARM)

SOFTWARE EXPERIENCE

1.C Language 8 YEARS

2.UNIX 2 YEARS

3.SOCKET 2 YEARS

4.VXWORK 2 YEARS

5.EMBEDDED C 6 YEARS

6.TCP/IP 6 YEARS

7.RTOS 6 YEARS

COMPUTER SKILLS:

ASSEMBLY LANGUAGE: 8085, 8086, 8051, Advance processor Programming in the above processor.

HARDWARE: Repair and Maintenance of SMPS, installation and assembling of computer.

COMPUTER NETWORK: Idea about how to work in LAN environment.

PROJECT:

BLOWN FUSE INDICATOR: This project work helps in finding the fuse fault in industry by blown of

bulb and beep sound to save the appliances and fault can be easily found out.

SMPS: This project helps to establish the smps and work on regulated power supply.

TCP/IP: In this project I have use encryption and decryption by triple DES. It helps to send message for transmission through Secret code

USB MASS STORAGE DEVICE IMPLEMENTATION: This project is based on ARM 7 processor. The Mass Storage (MS) class is an extension to the USB specification which defines how mass storage devices, such as a hard disk, a disk-on-key or a USB floppy drive should operate on the USB. Using the USB for a mass storage device has two advantages. First, software development is much faster, since most operating systems include a fully functional driver for the MSD class. The USB mass storage does not require any particular file system to be used on the devices. The Multimedia Card (MMC) is a flash memory card standard. Typically, an MMC is used as storage media for a portable device, in a form that can easily be removed for access The MMC card interfaces with the micro controller SPI. Most of the MCUs have hardware support for Serial Peripheral Interface (SPI), which is a three-wire, synchronous, serial protocol. USB mass-storage devices use SCSI commands defined by various SCSI standards.

NATIONAL LEVEL PAPER

CARBON NANO TUBE FET: The ac performance of carbon nanotube field-effect transistors (CNFETs) has been characterized using two approaches involving: 1) time- and 2) frequency-domain measurements. A high input impedance measurement system was used to demonstrate time-domain switching of CNFETs at frequencies up to 100 kHz. The low level of signal crosstalk in CNFETs fabricated on quartz

substrates enabled frequency-domain measurements of the ac response of CNFETs in the megahertz

range, over five orders of magnitude higher in frequency than previously reported ac measurements

of CNFET devices.

CARBON NANOTUBES AS A R.F.CIRCUIT: Semi conducting carbon nano tubes (CNT) have gained immense popularity as possible successors to silicon as the channel material for ultra high performance field effect transistors. Carbon nano tubes (CNTs) are allotropes of carbon. This results in a nano structure where the length-to-diameter ratio exceeds 1,000,000. Such cylindrical carbon molecules have novel properties that make them potentially useful in many applications in nanotechnology, electronics, optics and other fields of materials science. The discovery of carbon nanotubes that exhibits wire like properties has given rise to a paradigm shift in the modeling of contact resistance. Unlike interactions between metal contacts and metal interconnects, contact resistance at the metal-CNT junction dominate the electrical performance of CNT wires.

DATA ACQUISTION SYSTEM Data acquisition system design which based on the USB and MMC.According a USB's chip correlation hardware information, USB protocol, DA systematic structure and single chip computer information, a hardware development solution was come out in the design. This solution consists of the data acquisition module hardware development design, single chip computer data acquisition program development, USB's installation interface design and debug, embedded software (SW) and file system design. Finally we achieve the DA system which is more speedily, without delay and more dependable.

APPLICATION OF USB PORT IN ARM PROCESSOR: The design of USB is standardized by the USB Implementers Forum (USB-IF), an industry standards body incorporating leading companies from the computer and electronics industries. Additional USB hubs may be included in the tiers, allowing branching into a tree structure with up to five tier levels. A USB host may have multiple host controllers and each host controller may provide one or more USB ports. Up to 127 devices, including the hub devices may be connected to a single host controller. USB devices are linked in series through hubs. There always exists one hub known as the root hub, which is built in to the host controller. So-called sharing hubs, which allow multiple computers to access the same peripheral device(s), also exist

and work by switching access between PCs, either automatically or manually. They are popular in small-office environments. In network terms, they converge rather than diverge branches. USB device communication is based on pipes (logical channels). Pipes are connections from the host controller to a logical entity on the device named an endpoint. A USB device can have up to 32 active pipes, 16 into the host controller and 16 out of the controller. Each endpoint can transfer data in one direction only, either into or out of the device, so each pipe is uni-directional. Endpoints are grouped into interfaces and each interface is associated with a single device function. An exception to this is endpoint zero, which is used for device configuration and which is not associated with any interface. The host controller polls the bus for traffic, usually in a round-robin fashion, so no USB device can transfer any data on the bus without an explicit request from the host controller.

NANA: A SCALE ACTIVE NETWORK ARCHITECTURE This paper explains the architectural challenges introduced by emerging bottom-up fabrication of nano electronic circuits. In the specific nano technology we describe the patterned DNA nanostructures as a scaffold for the placement and interconnection of carbon nano tube or silicon nano rod FETs to create a limited size circuit (node). Three characteristics of this technology that significantly impact architecture are 1) limited node size, 2) random node interconnection, and 3) high defect rates. We present and evaluate an accumulator-based active network architecture that is compatible with any technology that presents these three challenges. This architecture represents an initial, unutilized solution for understanding the implications of DNA-guide self-assembly. Our goal is to develop an appropriate architecture that can be implemented in any technology with these characteristics. We also enumerate several important issues to address during architectural development.

VERIFICATION OF WUSB DEVICE USING SYSTEM VERILOG Universal serial bus (USB) technology has been a popular connection type for PCs and it's migrating into consumer electronic (CE) and mobile devices. Wireless USB is a logical evolution of USB. Applying the wireless technology to USB frees the user from worrying about cables. The goal is that end users view it as the same as wired USB, just without the wires. The user can imagine if all the devices in home, office such as printers, scanners and digital camera could be connected to your PC without a single wire. Wireless USB is a short range, high bandwidth wireless radio communication protocol that supports data exchange between a host device (typically a PC) and a wide range of simultaneously accessible End Devices. The attached peripherals share bandwidth through a host scheduled, TDMA-based protocol

SYNTHESIS OF LOW-POWER HETROGENEOUS DISTRIBUTED SYSTEMS IN RTOS: This paper presents for automating the synthesis of embedded systems, i.e., special-purpose computers. In addition, it describes a method for analyzing the manner in which real-time operating system use influences embedded system power consumption. We present an adaptive multi objective genetic algorithm for hardware-software co-synthesis of distributed embedded systems. This algorithm, and its associated software implementation, solves the hardware-software co-synthesis problem or, more formally, the heterogeneous multi-rate distributed system synthesis problem with communication synthesis and data-dependent tasks.

PERSONAL DISCRIPTIONS:

NAME: ARVIND KUMAR SINGH

FATHER S NAME: SHRI ISHWAR CHANDRA SINGH

DATE OF BIRTH: 26.03.69

SEX: MALE

MARITAL STATUS: MARRIED

NATIONALITY: INDIAN

PERMANENT ADDRESS: H.NO. 8-S NEAR NEPALI HOSTEL,

IN FRONT OF NEENA THAPA INTER COLLEGE

KUNRAGHAT GORAKHPUR (U.P)

PHONE NO 055*-*******

PIN NO 273008

PRESENT ADDRESS: ARVIND KUMAR SINGH

121 SAI SUBAH PRASHIR

DURGA COLONY SNAJEEVANI NAGER GARHA JABALPUR

E-MAIL ID adri3h@r.postjobfree.com

: adri3h@r.postjobfree.com

LANGUAGE KNOWN: ENGLISH, HINDI

REFRENCES

1. Prof B.P.SINGH

Ex-HEAD OF DEPARTMENT

ELECTRONICS & COMMUNICATION ENGG

M.M.M.E.C GORAKHPUR (U.P)

2. Prof M.J.S.SHANTI PRASAD

HEAD OF DEPARTMENT

ELECTRONICS &COMMUNICATION ENGG

DAYANANDA SAGER COLLEGE OF ENGG

BANGALORE-78

Last Salary drawn-Rs 60,000 PM OR 7.2 LAKHS PA

Expected Salary Rs 100,000 PM OR 12 LAKS PA

DECLARATION: I HERE BY DECLARE THAT THE ABOVE WRITTEN PARTICULARS ARE TRUE TO THE BEST OF MY KNOWLEDGE AND BELIEF

DATE-

PLACE- Jabalpur

ARVIND KUMAR SINGH

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