Qualification: 
M.Tech
Email: 
p_sivraj@cb.amrita.edu

Mr. Sivraj P joined Amrita School of Engineering in the year 2010. He is presently working as Assistant Professor in the Department of Electrical & Electronics Engineering at Amrita Vishwa Vidyapeetham, Ettimadai, Coimbatore. His areas of research include Wireless Sensor Networks, Smart Grid, Robotics, Embedded System Design, RTOS and Automotive Electronics.

He obtained his B. Tech. degree in Electrical and Electronics Engineering in the year 2007 from Mahatma Gandhi University, Kerala (Saintgits College of Engineering) and M. Tech. degree in Embedded Systems in the year 2010 from Amrita Vishwa Vidyapeetham, Coimbatore. He is currently pursuing his Ph.D. from Amrita Vishwa Vidyapeetham in the area of Sensor Networks applied to Smart Grid. 

He has visited ICS Department of KTH University, Stockholm, Sweden from 20th May 2013 to 20th June 2013 and from 16th January 2014 to 31st January 2014 as part of the Indo-Swedish collaborative project between Amrita Vishwa Vidyapeetham and KTH University funded by DST and VINNOVA in the area of Energy Management in Smart Grid using Embedded Systems. 

He has guided 14 M.Tech. and 13 batch of B.Tech. students till now. He has to his credit 19 International Conference/ Journal publications. He has served as the steering committee member for the International Conference on Embedded Systems – ICES 2014, held at Amrita School of Engineering, Coimbatore. He has served as the reviewer for the various National and International events like TI-India-ADC 2011, TIIADC 2012-13, TIIEC 2013, TIIC-IADC 2014, ICES 2014, etc. 

He has delivered several expert lectures and conducted many faculty development programs and student workshops in the area of Micro-controllers like PIC Series, ARM based, etc., and RTOS platforms like Windows XP Embedded, Windows CE 6.0 etc., and software platforms like MATLAB, LABVIEW, etc.

He has mentored various student teams who have achieved laurels in many national level competitions like

  • “Low-cost conversion kit for automobiles” – by H. Sivaramakrishnan, Shanoop Padmanabhan and Sabarish Balakrishnan received Certificate of Appreciation and fourth place in ELECRAMA 2012, sponsored by the Ministries of Power; Commerce & Industry and Heavy Industries & Public Enterprises, where around 800 student teams from the IITs, NITs, other engineering colleges as well as polytechnic institutions participated.
    https://www.amrita.edu/news/btech-eee-students-win-honors
  • “Wireless 3D Robotic Arm with Force Quantification using EMG” – by Akshayakrishna U., Dhananjayan P. S., Lohit L., Sabarinath S. and Shiva D secured third place (second runner-up) in the nation-wide Texas Instruments India Analog Design Contest 2011, where around 150 teams from other colleges across the nation participated. 
    Laurels in Analog Design Contest
    http://e2e.ti.com/group/universityprogram/w/contests/2436.contest-winners#3
  • “Digital Human Action Copying Robot” – by B Anand, S Harishankar, TV Hariskrishna, KP Sudharsan, U Vignesh secured a place as one among the best 23 teams out of 357 teams in the nationwide Texas Instruments India Analog Design Contest 2012-13.
  • “GSM Controlled Topple Resistant Spybot” – by G Pratyush, B Jaganath, L Prithivin, V Kavi secured a place as one among the 40 consolation prize winners out of 357 teams in the nationwide Texas Instruments India Analog Design Contest 2012-13.

List of Projects Guided

Year Details
2016-2017 Teaching & Learning modular robotic arm – K. Jhanavi, M.Tech. Embedded Systems
2016-2017 Automatic Guided Vehicle based restaurant food delivery automation – Albin Antony, M.Tech. Embedded Systems
2016-2017 Pedestrian Detection for Advanced Driver Assistance System – Rahul Pathak, M.Tech. Automotive Electronics
2016-2017 Visual Programming Language tool for MSP430G2231/MSP430G2553 microcontrollers – Mahesh M., M.Tech. Embedded Systems
2016-2017 Configurability and Scalability of BLUEZ – Mahesh M., M.Tech. Embedded Systems
2016-2017 Development of an infusion pump control system – Tom T. Thomas, M.Tech. Embedded Systems
2015-2016 Home Area Network for Advanced Metering Infrastructure using Sensor Networks – Sreelakshmi S., M. Tech. Embedded Systems
2015-2016 Smart Home Controller with Net Metering and Bidirectional Communication Capabilities – Tania Tony, M. Tech. Embedded Systems
2015-2016 Sensor Networks for message passing in Smart Cities – Elizabeth J., M. Tech. Embedded Systems
2014-2015 Wide Area Measurement System for Real Time Data Collection in Smart Microgrid – Varna C. Prakash, M.Tech. Embedded Systems
2014-2015 Sensor Network for Message Passing in Smart Metering in Smart Microgrid– Smitha P. K., M.Tech. Embedded Systems
2014-2015 Wide Area Control Systems (WACS) Implementation Based on Sensor Network Concepts in Smart Microgrid – Neeraja P., M.Tech. Embedded Systems
2014-2015 Cloud Based Resource Management in Smart Microgrid – Aleena G., M.Tech. Embedded Systems
2013-2014 Development of Smart Grid Communication Framework Based On Wireless Sensor Network for Inter PMU Communication – Sarath T. V., M.Tech. Embedded Systems
2013-2014 Design and implementation of a Phasor Data Concentrator (PDC) and inter PDC communication network – Aslam Ahamed, M.Tech. Embedded Systems
2013-2014 EMG Triggered Exoskeleton for Upper Limbs – Mahima K. M., M.Tech. Biomedical Engineering
2013-2014 Design And Fabrication of a Hexapod Robot - Abhilash Krishna, Krishna Nandanan, S.S Pradeep Kumar, Srihari K.S, B.Tech. EEE
2013-2014 Efficient Charging of Battery and Production of Power from Solar Energy - K.P.Sudharsan, S.Harishankar, T.Viveknath, B.Tech. EEE
2013-2014 Smart Soldier Assistance using WSN - M. Pranav Sailesh*, C.Vimal Kumar, B.Cecil, B.M. Mangal Deep, B.Tech. EEE
2013-2014 Workflow for Email-Marketing – Vignesh Umashankar, B.Tech. EEE
2013-2014 Implementation of AUTOSAR (AUTomotive Open System ARchitecture) R4.1.1 Socket Adaptor (SoAd) module – Aslam Ahamed, M.Tech. Embedded Systems
2012-2013 Adaptive real time traffic control system using image processing – Aditya Singh Gosain, M.Tech. Embedded Systems
2012-2013 Design and development of robot arm for material assortment using Image processing – Rahul Sankar, M.Tech. Embedded Systems
2012-2013 Digital Human Action Copying Robot – B. Anand, S. Harishankar, T.V. Hariskrishna, K. P. Sudharsan, U. Vignesh, B.Tech.
2012-2013 GSM Controlled Topple Resistant Spybot –G. Pratyush, B. Jaganath, L. Prithivin, V. Kavi, B.Tech.
2012-2013 Development of Phasor Measurement Unit for Concurrent Data Acquisition in a Smart Microgrid Environment - Badami Srinivas P.K., Harun Sharma, Richy Antrio J., Sarath Chandar R., B.Tech. EEE
2012-2013 Power Generation from Foot Steps – Pavitra J., Mounika J., Sreejith Nair, B.Tech. EEE
2012-2013 Automated Energy Management System for Corporate Office - Manoj Arun, Rakesh Radhakrishnan, Reddy Sai Suraj, Sreejith Viswanath, B.Tech. EEE
2011-2012 Automatic Attendance Marking System Using Face Recognition and Zigbee – Kumaravel M., M.Tech. Embedded Systems
2011-2012 Low-cost conversion kit for automobiles – by H. Sivaramakrishnan, Shanoop Padmanabhan, Sabarish Balakrishnan, B.Tech. EEE
2011-2012 Wireless 3D Robotic Arm with Force Quantification using EMG – by Akshayakrishna U., Dhananjayan P. S., Lohit L., Sabarinath S., Shiva D., B.Tech. EEE
2011-2012 Automobile Suspension using Magnetic Levitation - Akhil Joseph, Ashwin C.,  Midhunjith R.,  Nithin C.N., B.Tech. EEE
2011-2012 Effective Load Management and Power Switching using a Smart Embedded Controller - Ajay Padmakumar, M. Karthik, Siddharth Sarma, Suryanaranan, B.Tech. EEE

Publications

Publication Type: Journal Article

Year of Publication Publication Type Title

2016

Journal Article

V. C. Prakash, Sivraj, P., and Sasi, K. K., “Communication network of wide area measurement system for real-time data collection on smart micro grid”, Advances in Intelligent Systems and Computing, vol. 394, pp. 163-172, 2016.[Abstract]


This paper deals with communication architecture employing appropriate communication technologies for distribution side Wide Area Measurement System (WAMS). The different communication technologies like WiredLAN, WLAN, ZigBee protocol are simulated in ns2 considering a 5-bus smart micro-grid topology and the performance metrics are compared and analysed based on the standard requirements in order to suggest the apt technology. The study shows that in comparison with a homogeneous network, a heterogeneous network provides a better result considering the operational demands at different levels of the smart distribution grid architecture.

More »»

2015

Journal Article

P. Sivraj and K., S. K., “Selection of communication technology for smart distribution grid”, International Journal of Applied Engineering Research, vol. 10, pp. 1303-1308, 2015.[Abstract]


The paper suggests selection of communication technology for a smart micro grid, which needs to perform a variety of power system control actions based on real time data, through ns2 simulation of available technologiesand validation on hardware simulator. The simulation results suggest a heterogeneous network for communication. The paper also puts forth the steps required in the design of communication architecture for smart distribution grid. The smart micro grid hardware used for the study is also described.

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2015

Journal Article

S. P.K., Sivraj, P., and K.K., S., “Zigbee based communication network for smart meter message passing”, International Journal of Applied Engineering Research, vol. 10, pp. 18480-18484, 2015.[Abstract]


Smart metering was introduced as part of automating the grid, where the meters automatically send the meter readings to the central utility. Unlike the existing system of GSM based single hopping transmission that involves huge traffic and costs, a meter-to-meter multi hopping data transmission network is proposed here. The selection of communication technology in smart meter network is very crucial. In this paper, a smart meter network with random topology is taken and, based on the literature survey and taking the advantages into account, ZigBee is selected for home-to-home network and also for communication between data collecting node and central station. Analysis of the selected network is done based on the performance metrics like throughput, delay, packet delivery ratio and number of repeater nodes. The multi hopping smart meter network is implemented in hardware and received data is made accessible in the system via GUI.

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2015

Journal Article

A. G.S., Sivraj, P., and Dr. Sasi K. K., “Resource Management on Smart Micro Grid by Embedded Networking”, Procedia Technology, vol. 21, pp. 468–473, 2015.[Abstract]


Smart Grid, the next generation electric grid offers continuous monitoring and control which needs management of resources like measured data, control information, relays, switches etc. These resources will increase as the grid emerges and management of these scattered, bulk and highly complicated data will become difficult with conventional data storing and resource management mechanisms, which makes the cloud model of resource management relevant and significant. This paper deals with the formation of an embedded networking with six systems. Graphical User Interfaces (GUI) are created for different stake holders like consumers, energy traders, operators etc. through which they can access and control the grid assets. The proposed system will improve the performance of the grid by enabling various functionalities such as: analyzing energy usage, managing peak usage, demand management, trading of electricity between smart grid stakeholders such as consumers, operators, generators etc., which ensure efficient operation and management of the smart micro grid.

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2015

Journal Article

T. P. Neeraja, Sivraj, P., and Dr. Sasi K. K., “Wide Area Control Systems (WACS) Implementation Based on Sensor Network Concepts”, Procedia Technology, vol. 21, pp. 303–309, 2015.[Abstract]


Wide Area Control Systems (WACS) are introduced to respond to the real time control requirements of a smart grid. The control messages in smart grid can be of different levels of criticality. Therefore priority based routing, depending on criticality of messages, is very essential in control message communication. The topology of the system considered, involves control units connected to five buses in a smart micro grid. The performance metrics are identified and threshold values are fixed. Different communication technologies are simulated and the performance is compared. Multi hopping communication is established between the nodes and heterogeneous communication architecture is implemented. The need for dynamic routing protocol in the grid, as the traffic on the network changes over time, is also met. A communication scenario which dynamically routes the control message from central station to control units depending on priority, through the shortest path available, is identified here.

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2012

Journal Article

M. Kumaravel, S Karthik, K. S., Sivraj, P., and Soman, K. P. K. P., “Human Face Image Segmentation using Level Set Methodology”, International Journal of Computer Applications, vol. 44, pp. 16–22, 2012.[Abstract]


Face segmentation plays an important role in various applications such as human computer interaction, video surveillance, biometric systems, and face recognition for purposes including authentication and authorization. The accuracy of face classification system depends on the correctness of segmentation. Robustness of the face classification system is determined by the segmentation algorithm used, and the effectiveness in segmenting images of similar kind. This paper explains the level set based segmentation for human face images. The process is done in two stages: In order to get better accuracy, binarization of the image to be segmented is performed. Next, segmentation is applied on the image. Binarization is the process of setting pixel intensity values greater than some threshold value to “on” and the rest to “off”. This process converts the input image into binary image which is used for segmentation. Second process is image segmentation for eliminating the background portion from the binarized image which is obtained after the binarization of the original image. Conventional approaches use separate methods for binarization and segmentation. In this paper we investigate the use of recently introduced convex optimization methods, selective local/global segmentation (SLGS) algorithm [16] for simultaneous binarization and segmentation. The approach is tested in MATLAB and satisfactory results were obtained. More »»

2011

Journal Article

S. Abraham, Sivraj, P., and Pillay, R., “Hardware Implementation of an Improved Resource Management Scheme for Fault Tolerant Scheduling of a Multiprocessor System”, International Journal of Computer Applications (0975-8887), vol. 27, 2011.[Abstract]


Safety-critical systems have to be fault tolerant and also meet stringent temporal constraints. Various redundancy strategies are built into such mission-critical applications to ensure the overall success of the mission. This paper implements a fault tolerant scheduling scheme on a dual processor system, wherein the redundancy is made at the task level. The system continues to function with graceful degradation under failure conditions. The redundancy management employed in the proposed scheme enhances the performance capability of the system. Based on this approach, the scheme is implemented with hardware simulation using LPC-2148 development boards. This simulation when used for implementing any practical safetycritical application can contribute to efficient utilization of computing resources and can prove to be highly cost effective as the number of processors increase. More »»

Publication Type: Conference Paper

Year of Publication Publication Type Title

2016

Conference Paper

T. Tony, Sivraj, P., and Sasi, K. K., “Net energy meter with appliance control and bi-directional communication capability”, in 2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI), 2016.[Abstract]


Various energy management strategies include distributed generation of electricity using renewable resources, distributed storage, effective control of smart appliances leading to energy conservation etc. The concepts like net zero energy buildings, roof top renewable generation and affordable storage schemes demand intelligent devices with net metering, appliance control and bi-directional communication capabilities. This paper, proposes a smart home controller which is capable of doing net metering, smart appliance control and bi-directional communication with utility and user. Smart Home Controller (SHC) is implemented using LPC2148 microcontroller, in which the net meter value is computed by offsetting the energy consumed from grid with the energy send back to the grid. RF communication module is interfaced to the controller so as to communicate with the room controllers for appliance control. Utility as well as consumers can access this device through GSM messages; providing consumer integration to grid.

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2016

Conference Paper

S. S. Lekshmi, Sivraj, P., and Sasi, K. K., “Selection of routing protocols for advanced metering infrastructure”, in 2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI), 2016.[Abstract]


Smart meter network supports various smart grid applications like demand response, dynamic pricing, time based tariff, etc., and so numerous messages flow through this network. Routing protocols are necessary for the efficient delivery of such messages and effective implementation of these applications. This paper discusses the scope of message routing in Advanced Metering Infrastructure (AMI) and studies the possibility of using wireless sensor network routing protocols in AMI. The metrics that decide the selection of routing protocols for a futuristic AMI scenario are brought out and also analysed. The performances of routing protocols like AODV, DSR, DSDV and AOMDV are compared based on selected metrics in a futuristic AMI scenario through simulation in ns2. More »»

2016

Conference Paper

E. Jacob and Sivraj, P., “Performance analysis of MANET routing protocols in smart city message passing”, in 2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI), 2016.[Abstract]


A city wide communication network, catering various applications, can be established using wireless sensor networks which collect data, process it and take relevant actions to provide solutions for smart city implementation. Challenges faced in a smart city network include variation in area covered by the network for different applications, non-uniform node distribution, increase in the number of messages passed, use of multiple communication technologies and also heterogeneity in nodes and messages. The various domains of smart city are studied and a few applications were implemented in each of them. The paper, through survey provides a summary of various sensor network solutions in smart city. The paper brings out challenges in message passing by considering applications like cab sharing, ambulance services and other emergency services of various domains that use real time traffic data service provided by smart traffic domain to navigate efficiently. Message passing for this service is simulated in ns2 using MANET routing protocols and their effectiveness is studied. More »»

2016

Conference Paper

N. S, K, S. K., and Sivraj, P., “Smart Microgrid Simulator”, in International Conference on Smart Grid and Smart Cities , India , 2016.

2016

Conference Paper

N. S, K, S. K., and Sivraj, P., “Aggregation of Smart Facilities in a Smart City – A case study”, in International Conference on Smart Grid and Smart Cities – India Smart Grid Week, India, 2016.

2014

Conference Paper

P. M Sailesh, C Kumar, V., Cecil, B., Deep, M., and Sivraj, P., “Smart soldier assistance using WSN”, in Embedded Systems (ICES), 2014 International Conference on, 2014.[Abstract]


The paper presents the development of a system which will help wirelessly monitor the health parameters of a soldier and also send and receive messages wirelessly from the base station computer. The system must also detect reduced vitals and alert the base station along with the GPS location so that a rescue team can be sent. The system comprises of a biosensor signal conditioning module, a GPS module, a keypad and a LCD. These are interfaced with the Stellaris LM4F120XL Launchpad, which in turn broadcasts messages wirelessly via the EZ430-RF2500 wireless module. These messages are sent to all the EZ430-RF2500 modules in the locality. A LabVIEW program has been developed to act as the central commanding station. This will process all the data from the individual soldiers, display the data and perform the functions mentioned. This will help in strategic planning of military missions and also to reduce casualties

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2014

Conference Paper

N. S., Sivraj, P., Dr. Sasi K. K., and Lagerstöm, R., “Development of a Real Time Data Collection Unit for distribution network in a smart grid environment”, in 2014 POWER AND ENERGY SYSTEMS: TOWARDS SUSTAINABLE ENERGY, 2014, pp. 1-5.[Abstract]


This paper proposes a Real Time Data Collection Unit (RTDCU) to be used in the distribution side of a smart grid for real time data collection. The RTDCU unit uses Discrete Fourier Transform (DFT) based approach to compute the voltage and current phasors and frequency of the power system signals. The design, development and testing of such a system is done for a 5-bus micro grid simulator which represents a scaled down model of approximately 25km2 grid with a peak demand of 15MW. The RTDCU unit is first simulated and tested in MATLAB environment using synthetic signals and the correctness is ensured. The unit is then implemented in hardware in a dsPIC30f4011 microcontroller and tested for different loads. The future scope of the unit and the ways to improve the performance and synchronized data collection are also discussed. More »»

2014

Conference Paper

S. T. V and Sivraj, P., “Simulation and Analysis of Communication Technology for a Smart Grid Framework”, in International Conference on Communication and Computing, 2014.[Abstract]


The concept of smart grid arises in order to address the issues prevailing in present power grid. The process of embedding smartness into the grid requires a lot of research work. To make existing power grid smart, bidirectional data and power flow is essential. There are complications with communication architecture, selection of a feasible communication technology, economy and merging concepts of wireless sensor networks (WSN) into power grid. This paper deals with finding a communication technology for a five bus smart micro power grid simulator through simulation in ns2 for protocols like IEEE 802.11, IEEE 802.15.4 and a heterogeneous network with IP and WLAN through comparison and analysis of performance metrics.

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2013

Conference Paper

B. Anand, Harishankar, S., Hariskrishna, T. V., Sudharsan, K. P., Vignesh, U., and Sivraj, P., “Digital Human Action Copying Robot”, in India Educators' Conference (TIIEC), 2013 Texas Instruments, 2013.[Abstract]


Though various methods for controlling the robot have evolved over the last few years, an easy solution for this problem can be obtained by using human gestures as a mode of control for the robot. Gestures are the most significant means of interaction among humans, therefore the most intuitive solution for problem of controlling the robot lies in imitation, where the user adopts the role of a master and his/her actions are replicated by the robot, slave. Our mobile robot (slave) has two arms that can mimic the actions of human (master). The navigation is controlled using a joystick and the arm is controlled by the human actions.

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2013

Conference Paper

A. Singh Gosain and Sivraj, P., “Image processing technique used in real time traffic light controlling”, in 4th International Conference, Confluence 2013: The Next Generation Information Technology Summit on the theme: Mega Trends of IT, 2013.[Abstract]


The traffic problems in the cities across the globe have worsened with the increase in population. Traffic light plays an important role to control the traffic on the road. Hence there is requirement for the better traffic light controlling system. So to improve the traffic light control various techniques have been introduced like fixed timer based systems, using electric and magnetic sensors to detect the vehicle, and neural networks based systems. But all these technique or methods have not given good result due to many problems like difficulty in the installation and maintenance of these equipment’s. So in order to overcome the above problems, researchers introduced vision-based system for collecting and analyzing road traffic data. Image processing technique proved to be the better technique so far because of low cost and low maintenance required. This paper proposes a system which uses canny edge detection technique for identifying the density of the traffic. Simulation results are used to show how canny edge detection technique gives better result compared to other edge detection technique for calculating the traffic parameters.

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2010

Conference Paper

P. Sivraj, ShanmughaSundaram, R., and Adarsh, S., “Design & Implementation of Windows CE 6.0 Based Vehicle Management System GUI”, in International Conference in Embedded Systems, CIT, Oklahoma University, 2010.[Abstract]


Real-Time Operating System (RTOS) is a multitasking operating system intended for real-time applications in the embedded domain which includes robotics, automotive, industrial control and security, and scientific research equipments. The evolution of embedded systems paved way for the development of first, generic RTOS and then gradually application specific RTOS. In this paper the design and implementation of a vehicle dashboard system, called Vehicle Management System is made with eBOX 4300 as the embedded hardware platform and Windows CE 6.0 RTOS, is discussed. The application for vehicle dashboard is developed in Visual Basic.Net. As future work the performance of this WINCE based system is analyzed using standard remote debugging tools in Visual Studio 2005. The same Vehicle Management System is to be implemented in some other RTOS based embedded unit and the performance of both systems is to be compared. Based on the comparison, the evolution of RTOS from generic to application specific nature can be understood and finally the need and advantages of application specific RTOS for given application can be brought out.

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Publication Type: Conference Proceedings

Year of Publication Publication Type Title

2014

Conference Proceedings

H. Suresh, Baskaran, A., Sudharsan, K. P., Vignesh, U., Viveknath, T., Sivraj, P., and Vijith, K., “Efficient charging of battery and production of power from solar energy”, Embedded Systems (ICES), 2014 International Conference on. IEEE, pp. 231-237, 2014.[Abstract]


This paper presents a solution for existing power crisis by implementing state of art techniques to tap power from solar energy. The use of Maximum Power Point Tracking (MPPT) technique along with the efficient charge control of the battery helps attaining a maximum output. A digitally controlled DC-DC Buck-boost converter was implemented and connected to Solar PV Array. State of Charge (SOC) of battery is continuously monitored to decide the charging rate of the battery at every instant. Moreover, the dynamic response and SOC are also evaluated using a user-friendly GUI interface which is capable of controlling the system and computing the SOC. An inverter connected to the battery produces an AC voltage which is stepped up to power the domestic load.

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2014

Conference Proceedings

A. Krishna, Nandanan, K., Kumar, S. S. Pradeep, Srihari, K. S., and Sivraj, P., “Design and fabrication of a hexapod robot”, Embedded Systems (ICES), 2014 International Conference on. IEEE, 2014.[Abstract]


The paper focuses on design and fabrication of a hexapod robot that is capable of performing primary tasks such as walking forward, backward, turning right and left, rotating about its position by 180° and traversing on uneven surfaces. The six legged design gives it an added advantage over wheeled robots in terms of stability and flexibility. Each limb is structured to have three degrees of freedom. This robot will serve as a platform onto which additional sensory components can be added for surveillance and autonomous navigation on rugged surfaces. This paper discusses in detail the hardware design of the structure, selection of all parts and components used and software design controlling all activities including the walking style of the robot and balancing on uneven surfaces.

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2013

Conference Proceedings

G. Pratyush, Jaganath, B., Prithivin, L., Sivraj, P., and V, K., “GSM Controlled Topple Resistant Spybot”, India Educators' Conference (TIIEC), 2013 Texas Instruments. IEEE, Bangalore, pp. 237-242, 2013.[Abstract]


Hostage crisis has become a common act by terrorists. Recent siege in Algeria has shook the world and the death toll still remains uncertain. Algerian Prime Minister, Abdelmalek Sellal, said 37 foreign nationals from eight countries and one Algerian died in the siege with five more people unaccounted for. Soldiers need to act spontaneously and contain the situation. They need to have a rough picture about the situation. RC controlled planes move fast and cannot go inside the buildings without being noticed. And also during battles on hilly terrains, spying becomes a difficult task and few examples mentioned above will not be able to do the task. Anything that helps soldiers survive and do their jobs better is certainly welcome. An autonomous robotic vehicle is an excellent choice as it meets the requirements. The vehicle should be able to spy in areas where human access is restricted and also it should not topple when spying on rough terrain and could be controlled from anywhere without range restrictions. In future there might be a time when all the human soldiers are replaced with robots.

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