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ISSN: 2278 –
1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 Implementation of Matched Filter Based DSSS Digital GPS Receiver V.SRIDHAR 1 T.NAGALAXMI2 M.V BRAMHANANDA REDDY 3 M.SUNITHA RANI4 M.RENUKA5 1 Assistant Professor, ECE, Vidya Jyothi Institute of Technology, Hyderabad 2 Assistant Professor, ECE, Vidya Jyothi Institute of Technology, Hyderabad 3 Associate professor ,CSE ,SVIST,madanapalle,CHITOOR 4 Assistant Professor, ECE, Vidya Jyothi Institute of Technology, Hyderabad 5 Assistant Professor, ECE, Vidya Jyothi Institute of Technology, Hyderabad 1 varadalasri@gmail.com,2nagalaxmi_sept07@yahoo.co.in, 3 bramhareddy999@gmail.com,4blessey.ch@gmail.com5renu_404@yahoo.com ABSTRACT: The Global Positioning System (GPS) is a satellite-based radio navigation system made up of a network of 24 satellites placed in an orbit by the US Department of Defense. GPS was originally intended for military applications, but now it is freely available to all. For anyone with a GPS receiver, the system will provide location and time. GPS provides accurate location and time information for an unlimited number of people in all weather, day and night, anywhere in the world. The GPS is made up of three parts: satellites orbiting the Earth; control and monitoring stations on Earth; and the GPS receivers owned by users. GPS satellites broadcast signals from space that are picked up and identified by GPS receivers. Each GPS receiver then provides three- dimensional location (latitude, longitude, and altitude) plus the time.GPS receivers incorporate Direct Sequence Spread Spectrum (DSSS) Techniques in their analysis. Traditionally, GPS receiver has been a chip set, consisting of two or more chips. With the advances in Integrated Circuit technology there is a trend towards a single chip solution, which is advantageous in many ways. Such a chip will help integration of a variety of applications from cell phones to wrist watches. It involves a high level of design integration. In this digital GPS signal receiver for a system on chip application is designed using VHDL aiming for FPGA synthesis. The digital GPS signal receiver takes data in digital form and performs the demodulation and dispreading of C/A code and outputs the navigational data bits. Various communication sub blocks such as C/A code generator, BPSK demodulator, correlator and threshold detector are modeled in VHDL and simulated using Modelsim. A four channel receiver is to be modeled and tested with four satellite signal mixed input added with AWGN (Additive White Gaussian Noise).All the modules functionality is verified with Modelsim simulator. Xilinx ISE tools are used for FPGA synthesis, Place & Route and timing analysis. Spartan 3E development board with Chipscope Pro tools is used for on chip analysis and debugging. Keywords: GPS, DS-SS, AWGN, BPSK, FPGA I . INTRODUCTION Global positioning system is an advanced navigation LORAN (Long-Range Navigation), OMEGA to guide aircraft and positioning system used today for various applications. and ships. These vary from GPS guided missiles for precision bombing LORAN was restricted to the United States and in the military, to peace time and civilian uses, such as Britain. OMEGA was a truly globally available positioning navigation, treasure hunt hobbies, and agriculture. system. The use of satellites in positioning and navigation was Exploration has been important to mankind which first applied in TRANSIT (Navy Navigation Satellite System), has resulted in discovery of continents and new worlds. In a project developed at the Applied Physics Laboratory at ancient times, navigation was based on the planetary and Johns Hopkins University. The Doppler frequency shifts of stellar positions. This changed to the use of magnetic compass the signals transmitted by satellites were used to determine the in the medieval times up to very recent in the past. Such satellite orbit. The receiver on the earth could determine its alternatives always had their disadvantages and misgivings position from the knowledge of the satellite orbit and the when dealing with hostile weather conditions, for example, Doppler shift measurement of the frequency. Global foggy conditions, reduced visibility, thereby hindering Positioning System, in short GPS, is a product of the United navigation. With the development of satellites and States Department of Defense. Intended for military purposes, improvements in radio signal transmission and reception, especially precise positioning for ammunition, it has been these were used for the navigation purposes as well as for demonstrated that it could be used for civilian purposes as positioning. The advantage of using radio signals is that they well. Its utilization has been demonstrated correctly during the are immune to the weather effects. Earlier systems included two Gulf war‟s where precision guided missiles have found target with a high probability destroying enemy positions. 8 All Rights Reserved © 2012 IJARCET
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ISSN: 2278 –
1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 The target‟s co-ordinates are loaded in the computer which is much higher than the bandwidth of the data signal of the missile which is guided by the satellites. and is used directly to modulate the carrier, thus directly setting the transmitted bandwidth. Apart from these military advantages civilian applications too such as navigation and surveying have found 2.2. FrequencyHoppingSpreadSpectrum (FHSS): use for GPS.Connected Car is a more recent example of how GPS can be used as a navigation aid in co-ordination with The basic principle behind the Frequency Hopping other applications and frameworks such as Microsoft .Net Spread Spectrum (FHSS) technique is that the carrier Framework, Bluetooth etc. It can be used as a guide in new frequency is periodically modified (hopped) across a specific places. GPS has been used also to land an airplane in adverse range of frequencies. The frequencies, across which the carrier weather conditions. A GPS measurement can have an error of jumps is the spreading code. The shifting pattern is 5-10 m (uncorrected) or up to 1m discrepancy (using WAAS determined by the chosen code sequence (frequency shift key and DGPS). Agriculture also has found use of the GPS - to – FSK). The amount of time spent on each hop is known as control the distribution of the chemicals and fertilizers. In the dwell time and is in the range of 3ms-100ms. conjunction with Geographic Information System (G.I.S), GPS has found more use in tracking animals, humans, and 2.3. Time Hopping Spread Spectrum(THSS): knowing the seismology of the earth at a given place. Further Time Hopping and FHSS are somewhat similar, but advances in GPS signal reception could lead to indoor in Time Hopping, the transmitted frequency is changed at coverage, in downtown areas, and under trees etc., where the each code chip time. Time Hopping can be implemented in reception is low. This is what helps GPS to be a part of the two ways. In the first technique, each binary is transmitted as emergency services. In this class of applications, another a short pulse, known as a “chirp”. The PN generator is used to popular one is pervasive computing-location awareness. GPS determine the actual interval in which the chirp is transmitted. presents a solution to this end in mobile communication By doing this, anyone attempting to intercept the signal will electronics. be uncertain as to when the next pulse will be transmitted. A lot of research goes into how to make the GPS signal more reliable, visible, and accurate. This system of 3. INTRODUCTION TO GPS : navigation uses omnipresent radio waves and relative time of arrival of signals to determine positions. The two common Global positioning system (GPS) is an advanced frequencies used today by GPS satellites to broadcast are L1 navigation and positioning system used today for various (1575.42 MHz) and L2 (1227 MHz). L1 is primarily a civilian applications. These vary from GPS guided missiles for signal while L2 is used for military purposes. L1 is also used precision bombing in the military, to peace time and civilian by the military and L2 by civilians though the civilians do not uses, such as navigation and agriculture. The Doppler have a knowledge of the codes modulating the L2 frequency. frequency shifts of the signals transmitted by satellites are From 2005 onwards, GPS satellites will be broadcasting new used to determine the satellite orbit. The receiver on the earth signals which could help eliminate positioning errors due to could determine its position from the knowledge of the Ionospheric effects. The current civilian signals will be satellite orbit and the Doppler shift measurement of the boosted by the addition of another civilian signal on L2. From frequency. This system of navigation uses omnipresent radio 2008, a new frequency band called L5 will be emitted at waves and relative time of arrival of signals to determine 1176.45 MHz which is also a civilian signal. L3 and L4 will positions. The two common frequencies used today by GPS carry non-navigation information for the military. satellites to broad-cast are L1 (1575.42 MHz) and L2 (1227 MHz). L1 is primarily a civilian signal while L2 is used for 2. Spread Spectrum Techniques: There are several military purposes. techniques currently in use for generating Spread Spectrums. 3.1 GPS Segments These include Direct Sequence Spread Spectrum (DSSS), For the GPS to function smoothly there are three Frequency Hopping Spread Spectrum (FHSS), and Time important constituents. They are: Hopping Spread Spectrum. Each technique differs in its 1. User Segment (receiving segment) implementation and has certain advantages/disadvantages. In 2. The Satellite constellation addition to the above, there are a number of hybrid techniques 3.ThecontrolSegment which offer certain advantages over, or extend the usefulness 3.1.1 Satellite Constellation: The Satellite Constellation of the other techniques. These hybrids are Frequency constitutes of 24 satellites at an altitude of about 20,000 km Hopped/Direct Sequence Modulation and Time-Frequency above the Earth‟s surface. These satellites are arranged in sets Hopping. of 4 satellites in 6 orbital planes. These orbital planes are inclined to the Earth‟s equatorial plane at an angle of 55o . 2.1.DirectSequence Spread Spectrum (DSSS):The basic The orbital plane location are defined by the longitude of the principle behind the Direct Sequence Spread Spectrum ascending node while the satellite location by the mean (DSSS) technique is the modulation of the RF carrier with a anomaly. These satellites are at such a height and in such digital code sequence. The code sequence utilizes a chip rate, orbits such that there are at-least four satellites visible to a 9 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 user at any location and at any given time. At a time one can however receive signals from 7 to 9 satellites. 3.2 GPS Receiver Channels The signal processing for satellite navigation systems 3.1.2 Control Segment: is based on a channelized structure. This is true for both GPS The Control segment consists of Master Control and Galileo. This chapter provides an overview of the concept Station at Colorado Springs, 5 Monitor Stations located of a receiver channel and the processing that occurs. Figure around the world to ensure maximum satellite coverage and 3.3 gives an overview of a channel. Before allocating a ground antennas. The functions of the Operations Control channel to a satellite, the receiver must know which satellites Segment include maintaining the satellite orbital position, and are currently visible. There are two common ways of finding monitoring the health of the satellite constellation. The health the initially visible satellites. One is referred to as warm start includes parameters like the power, fuel levels among others. and the other is referred to as cold start. The ground stations make pseudo range measurements by passively tracking the satellites. This updated information called TT&C (Telemetry, Tracking and Command) data. This information for each satellite is uploaded by a ground up link antenna when that particular satellite is in view of the antenna. Figure 3.3 One receiver channel. The acquisition gives rough estimates of signal parameters. Theseparametersarerefinedbythetwotrackingblocks.A ftertracking, the navigation data can be extracted and pseudo ranges can be computed.Warm start In a warm start, the receiver combines information in the stored almanac data and the last position computed by the receiver. The almanac data is used to compute coarse positions of all satellites at the actual time. These positions are then combined with the receiver position in an algorithm computing which satellites Figure 3.1. GPS Satellite Constellation should be visible. The warm start has at least two downsides. If the receiver has been moved far away since it was turned 3.1.3 User segment off (e.g., to another continent), the receiver position cannot be Receives satellite signals and estimates the distance trusted and the found satellites do not match the actual visible from satellite. Front end antenna and RF unit receives the satellites. Another case is that the almanac data can be signal and after sufficient level of amplification, it will be outdated, so they cannot provide good satellite positions. In digitized. either case, the receiver has to make a cold start. The digital GPS receiver applies DSSS correlation 3.2.1 Synchronization technique and extracts the base band data. GPS processor uses minimum four such channels data and calculates its location. It is the process of matching the locally generated Since the location of each GPS satellite is known, the spreading signal with the incoming receiver's location can be determined by "triangulating" the spread spectrum signal. Synchronization is a two step distances from several satellites. procedure: 1. Acquisition and 2. Tracking. 3.2.2 Acquisition An acquisition search through all possible satellites is quite time-consuming. That is, in fact, the reason why a warm start is preferred if possible. The purpose of acquisition is to identify all satellites visible to the user. 3.2.3 Tracking The main purpose of tracking is to refine the coarse values of code phase and frequency and to keep track of these as the signal properties change over time. The accuracy of the final value of the code phase is connected to the accuracy of the pseudo range computed later on. The tracking contains Figure 3.2 Triangulation two parts, code tracking and carrier frequency/phase tracking 10 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 3.3 GPS Signals 4.2: Digital GPS signal receiver The GPS signal is a Direct Sequence BPSK spread spectrum signal represented as: s(t)=A(t)c(t)d(t)sin(2π(fo+Δf)t+φ+ Δφ) where A(t): amplitude of the transmitted signal c(t): pseudo-random code(C/Acode of the satellite1.023 MHz) d(t): navigation data stream (50 Hz) f0: carrier frequency of the transmitted frequency (1.575 GHz) Δf: frequency offset due to relative position change φ: original carrier phase Δφ: carrier phase offset 4.1 GPS Reception system The following figure gives the block diagram of digital GPS reception system Figure 4.2 Digital GPS signal receiver The modules in Digital GPS signal receiver are 1. Clock distributor. 2. BPSK demodulator. 3. Serial to parallel converter. 4. Matched filter based Correlator. 5. Threshold detector 4.2.2 :BPSK demodulator The BPSK demodulator accepts the digital IF signal, and produces an output which will be used by correlator to detect the bit sequence. The block diagram of BPSK demodulator is shown in the below figure. Figure 5.1 Block diagram of GPS reception system It is to be observed that in GPS to broadcast are L1 X Accumula Scaling (1575.42 MHz) and L2 ( 1227 MHz ).L1 is primarily a civilian signal while L2 is used for military purposes. In tor ggggg commercial GPS receivers the antenna and front end antennas COS and RF units are tuned to the L2 frequency. After mixer stage device the signal is down converted to some intermediate frequency. LUT The exact intermediate frequency value changes from design to design. Then this signal is digitized using ADC with Phase + Frequency appropriate sampling rate. In our simulation we are assuming this sampling rate is 65472 KHz such that there are 64 register register Figure 5.4 BPSK demodulator samples per every one PN sequence bit which are generated with 1023 KHz frequency. The block with title “GPS 4.2.3 Serial to 1023 length parallel word converter receiver” in the above block diagram is the scope of the project. The digitized signal is taken in the GPS receiver and Since the correlator requires parallel data, this block after correlation the satellite navigational data (with data rate accepts serial BPSK demodulator output and produces parallel of 1 KHz) is produced. The internal blocks of digital GPS output word. The Block diagram of serial to parallel converter receiver are discussed in next section. is shown in the below figure. 11 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 S to P Multiply Threshold converter Accumulate detector PN Figure 4.2.3 Serial to Parallel converter sequence This configuration allows conversion from serial to parallel format. Data is input serially, once the data has been generator input, it may be either read off at each output simultaneously, or it can be shifted out and replaced Figure 4.6 Block diagram of correlator Serial to parallel converter (parallel output is used in parallel 4.2.5 Threshold detector correlator) process(rst,clk_1023KHz) Threshold detector compares the output of correlator variable temp_parallel_out:corr_input_data; with threshold value and produces detect pulse „1‟ when ever begin if rst='1' then the correlator output is above threshold value. temp_parallel_out := (others => 0); elsif clk_1023KHz'event and if(temp_corr_out > threshold) then clk_1023KHz='1' then temp_parallel_out(1022 downto 1) := flag_detect <='1'; temp_parallel_out(1021 downto 0); if (correlator_out > 0) then temp_parallel_out (0) := demod_out; out_bit <='1'; end if; else out_bit <='0'; parallel_out <= temp_parallel_out; end process; end if; else 4.2.4:Correlator flag_detect <='0'; The receiver component that demodulates a spread end if; spectrum signal; a device that measures the similarity of an incoming signal and a stored reference code. The correlator multiplies the input parallel word (parallel converted BPSK demodulator outputs) with C/A code specific to the satellite. This C/A can be changed accordingly to receive data from different satellite. One can find different types of correlators both analog/ digital and various other forms but our main interest lies in digital correlators, for which we use DSSS Figure 4.2.5 Typical GPS correlator output based correlators, and hence the project title “Digital GPS The figure showing the correlator output peaks for every 1 ms. Receiver” can be justified. It is correct as the correlator output produces data which is navigational bit which runs with 1023 KHz 12 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 5: SIMULATION RESULTS: for modulation and the SS signal with BPSK modulation can be seen. It can be observed when data bit is one the C/A code 5.1 Simulation output of Satellite Selector and the digital pattern used for modulation are same, where as if data bit is zero then C/A code bits complement is used for modulation. Figure 5.1 Satellite Selector 5.2 Simulation output of C/A Code Generator Figure 6.3 Simulation results of phase accumulator 5.4 Simulation output for Satellite data simulator The top level module satellite data simulator shows the generated SS signals from the four satellites and the sum of all such signals. The bottom waveform is the sum of four Figure 6.2 Simulated output of programmable C/A code satellite spread spectrum signals, which after addition with generator noise will be used to test the GPS receiver segment. Above figure shows the generated PN sequence for satellite- 1.It can be observed that the phase select logic integers are 2 and 6 which corresponds to the satellite-1 5.3 Phase Accumulator The simulator output for phase accumulator is shown in figure. In the figure the phase accumulator goes from 0 to 63 and again 0(corresponding to true phase sweep from 0 to 360).Correspondingly the BPSK modulated spread signals are generated as per the C/A bits. Total 4 channel signals are shown in the above figure. For each channel the navigational data bit, C/A code bit, resulting digital pattern which is used 13 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 6.6 The four satellites SS signal after adding with Gaussian noise Figure 6.4 Simulation output for Satellite data simulator Figure 6.6 The four satellites SS signal after adding with 5.5 Gaussian noise simulator Gaussian noise This module generates Gaussian noise which is 5.7 The simulation output of clock distributor added to simulated data signals and given as input for GPS signal receiver. The simulation output for Gaussian noise simulator is shown in the below figure. Figure 5.5 Gaussian Noise generator simulation results Figure 5.7 Simulation output of clock distributor 14 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 5.8 Serial to Parallel converter 5.10 Threshold detector Figure 6.8 Serial to Parallel converter 5.9 Simulation output of Correlator Figure 5.10 Simulation output of threshold detector In the above figure the receiver outputs at various stages are shown. The noisy waveform with lot of impulses is the correlator output. Whenever the C/A code at transmitter and at the receiver matches each other the correlator produces peak output. If this is a positive peak then it means it is bit 1 and if it is a negative peak means then the output is zero. This is done by the decision device. The decision device output with „1‟ or „0‟ is given in the last waveform. Figure 6.9 Simulation output of Correlator In the above figure when the correlator output crosses the threshold then the flag detect becomes „1‟ . 15 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 VII: CONCLUSION: This work outlined the implementation of a GPS Authors Biography receiver in time domain. It dealt with VHDL implementation of the digital backend of a GPS receiver. Different functional blocks and communication blocks were implemented as part of this work. The scope of this work was to develop a working code acquiring and tracking module, capable of acquiring a GPS signal and tracking it. Synthetic data was generated at the required rate and modulated the PRN sequence. This V.SRIDHAR working as Assistant transmitted data was demodulated and detected and the professor in ECE department at Vidya Jyothi Institute of expected data was recovered. Thus, a DS/SS receiver was Technology,Hyderabad from 2009. completed M.Tech implemented, in time domain, capable of acquiring and withSpecialization Wireless and mobile communication tracking a GPS C/A code signal. The receiver implementation systems from vardhaman college of engineering assumed a coherent signal acquisition and tracking. This work (AUTONOMOUS)JNTU,Hyderabad in 2011.he has also dealt with acquiring codes from multiple satellites. It used completed M.Sc (IT)from Nagarjuna University, guntur, a dedicated channel for each of the satellites being tracked. AndhraPradesh.completed Electronics and telecommunication Four satellites were continuously being acquired. engineering from vidya jyothi institute of technology,JNTU Hyderabad in 2007.His areas of research interests include For this to be integrated as an independent module, the Wireless and Mobile communications, Digital signal carrier acquisition has to be performed along with the code processing, image processing, Telecommunications, acquisition. This module has to be tested on original GPS data communication systems, signal processing.He is to validate it. The entire model has to be synthesized, to be LifetimeMember of ISTE and IETE,IAENG AND SDIWC. used in conjunction with the tour guide being developed. Low power modes and functionalities have to be incorporated. Newer algorithms to speed up the acquisition times in the time domain could be worked upon. Acquiring data from a greater number of satellites and tracking them simultaneously is another aspect for future research. Integrating this module with the analog front end to achieve proper GPS functionality is a future work. Finally, developing algorithms for using the GPS receiver indoors is an aspect of future research.. T.NAGALAXMI working as an Assistant professor in ECE department at Vidya Jyothi VIII References: institute of technology,hyderabaad from 2008 to till date. And also pursuing M.TECH(Embedded systems),affiliated [1] P. Misra and P. Enge. “Global Positioning System: Signals, college by JNTUH. She is having five years of teaching Measurements and Per formance”. Ganga-Jamuna Publishers, 2001. experience.Her areas of research interests are [2] P. Enge. Next Generation GPS Receiver. http://www.sciam.com/ embeddedsystems,VLSI,embeddedandrealtimesystems,digital signalprocessingandarchitechtures,Microprocessor&Micro [3] Press Release. Single chip GPS Module. http://www.valence.com/. controller,data communication systems. [4] Instant GPS Product Documentation. Single chip GPS Receiver. http://www.motorola.com/ies/GPS/products.html [5] WirelessDevNet.com Press Release. SONY Introduces Industry‟s First 1- ChipCMOSGPS. http://www.wirelessdevnet.com/news/2003/dec/15/news1.html [6] J. Ashjaee. GPS: Challenge of Single Chip. http://www.gpsworld.com [7] D.M. Akos. A Software Radio Approach to Global Navigation Satellite System Receiver Design. PhD thesis, Ohio University, 1997. [8] G. Martin and H. Chang. “Tutorial 2 System-on-Chip Design”. In Processings of the 4th International Conference on ASIC, pages 12–17, Oct 2001. [9] U. Kailasam. High Level VHDL Modeling of Low Power ASIC for a Tour Guide. Master‟s thesis, University of South Florida, 2004. 16 All Rights Reserved © 2012 IJARCET
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1323 International Journal of Advanced Research in Computer Engineering & Technology Volume 1, Issue 5, July 2012 M.V.Bramhananda Reddy, Assoc.Professor, in CSE DepartmentTECHNOLOGY(SVIST),SRIVISHVESWARAI AHINSTITUTEOFSCIENCEANDTECHNOLOGY,ANGAL LU,MADANAPALLE ,M.Tech in Computer Science Engineering at JNTU, Kakinada, B.Tech in CSE at JNTU, Hyderabad. He is having seven years teachning experience His areas of interest for doing the research in DATAMINGING, DIGITAL IMAGE PROCESSING, EMBADDED SYSTEMS, COMPUTER NETWORKS AND ARTIFICIAL INTELLIGENCE. M.SUNITHA RANI working as an assistant professor in ECE department Vidya jyothi instituteoftechnology.hyderabad from 2008.she is pursuing M.TECH (Embedded systems) from nethaji institute of engineering college and technology.affliated JNTUH.she is having four years experience in teaching. her areas of research interests include VLSI,embedded systems, digital signal processing, and microprocessor. M.RENUKA working as Assistant professor in ECE department vidyajyothi institute of technology hyderabad .she is persuing M.Tech (VLSI) from Mahaveer instituteofscienceandtechnologyJNTU,HYDERABAD.She worked as “hardware design engineer” in ECIL from 2007 to 2008.and also she worked as assistant trainee officer in the year 2008 to 2009.her areas of research intrests include VLSI,Embedded systems, EDC and Digital signal processing. 17 All Rights Reserved © 2012 IJARCET
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