Qualification: 
B-Tech
sangeethk@amritapuri.amrita.edu

Sangeeth Kumar currently serves as a Research Associate at the Amrita Center for Wireless Networks & Applications (Amrita WNA), Amritapuri Campus. 

Publications

Publication Type: Book Chapter

Year of Conference Publication Type Title

2016

Book Chapter

Sangeeth K., Preeja Pradeep, Rekha, P., P., D., Arya Devi R. D., and Dr. Maneesha V. Ramesh, “Over the Air Programming Method for Learning Wireless Sensor Networks”, K. J. Kim and Joukov, N., Eds. ICISA 2016, Vietnam: Springer Singapore, 2016, pp. 555–566.

Publication Type: Conference Paper

Year of Conference Publication Type Title

2015

Conference Paper

Sangeeth K., Preeja Pradeep, P., D., Rekha, P., Arya Devi R. D., L., S., and Dr. Maneesha V. Ramesh, “A Remote Code Editing Framework for AMRITA Remote Triggered WSN Laboratory”, in 5th International Conference on IT Convergence and Security (ICITCS), Malaysia, 2015.[Abstract]


Our AMRITA remote triggered lab (RT Lab) for wireless sensor networks (WSN) offer the students and researchers, an easy, efficient, interactive and user friendly environment to trigger their inquisitiveness by providing them with the sensors, equipments, hardwares and study materials for conducting the lab experiments. RT Lab offers a web-based e-learning platform for the registered users to perform experimentation and coding remotely based on the provided study materials which are shared to them virtually. The users can learn nesC programming language and conduct the coding by means of the code editing interface. The sensor nodes in the WSN testbed, deployed in indoor and outdoor environment, undergoes remote reconfiguration and the sensor data's are collected by the WSN gateway. The users can observe the experimentation result such as the plotted sensor data and physical representation of the sensor network along with the remote video through the visualization tool. The paper details the design and implementation of remote code editing platform for RT Lab.

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PDF iconA-Remote-Code-Editing-Framework-for-AMRITA-Remote-Triggered-WSN-Laboratory.pdf

2015

Conference Paper

Preeja Pradeep, P., D., Arya Devi R. D., Rekha, P., Sangeeth K., Tinu Vinod, and Dr. Maneesha V. Ramesh, “An Energy Aware Schedule Based Remote Triggered Wireless Sensor Network Laboratory”, in 5th International Conference on IT Convergence and Security (ICITCS), Malaysia, 2015.[Abstract]


Over the past decade, experimentation for wireless sensor network (WSN) has been widely used to enrich the learning experience of educators and learners. Our remote triggered WSN laboratory is a multi-set, multi-group, WSN experimental setup that provides an intuitive web-based interface to carry out remote experimentation as well as code editing by registered users. This paper presents a multi-level time based scheduling algorithm for our lab which provides optimum utilization, performance and service. Our WSN testbed consists of more than 150 sensor nodes deployed in indoor and outdoor environment. Energy efficiency and delay optimization of WSN testbed are ensured in the design which employs TDMA and state transition schemes. We have implemented and tested two approaches for energy efficiency namely an on demand scheduling and a TDMA based approach which incorporates state transition and CDMA. The performance evaluation result shows that 78% power consumption has been reduced in second approach compared to first. The paper details the implementation of energy efficiency with dynamic scheduling for our real-time remote triggered WSN.

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PDF iconAn-Energy-Aware-Schedule-Based-Remote-Triggered-Wireless-Sensor-Network-Laboratory.pdf

Publication Type: Journal Article

Year of Conference Publication Type Title

2013

Journal Article

Dr. Maneesha V. Ramesh, Preeja Pradeep, P., D., Arya Devi R. D., Sangeeth K., and V, R. Y., “AMRITA Remote Triggered Wireless Sensor Network Laboratory Framework(poster)”, SenSys 2013 Italy, 2013.[Abstract]


In this paper, we present a real time remote triggered laboratory which has multi-set, multi-group of wireless sensor network experimental setup which is envisioned to provide a practical experience of designing and implementing wireless sensor networks’ algorithms in both indoor and outdoor conditions. The architecture provides a remote code editing mechanism using deluge protocol that offers the user a flexible environment for the experimentation. Central and local authentication agents serve a two level security mechanism which makes the system robust to security threats. The lab is accessible for all the students in the world through internet and it will provide an intuitive web-based interface, where registered users can access the code and do code editing.

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PDF iconPoster-Abstract-AMRITA-Remote-Triggered-Wireless-Sensor-Network-Laboratory-Framework.pdf

Publication Type: Conference Proceedings

Year of Conference Publication Type Title

2013

Conference Proceedings

Dr. Maneesha V. Ramesh, Preeja Pradeep, P., D., Arya Devi R. D., Rekha, P., Sangeeth K., and YV, R., “AMRITA Remote Triggered Wireless Sensor Network Laboratory Framework”, Proceedings of the 11th ACM Conference on Embedded Networked Sensor Systems (SenSys). ACM, Italy, 2013.[Abstract]


In this paper, we present a real time remote triggered laboratory which has multi-set, multi-group of wireless sensor network experimental setup which is envisioned to provide a practical experience of designing and implementing wireless sensor networks' algorithms in both indoor and outdoor conditions. The architecture provides a remote code editing mechanism using deluge protocol that offers the user a flexible environment for the experimentation. Central and local authentication agents serve a two level security mechanism which makes the system robust to security threats. The lab is accessible for all the students in the world through internet and it will provide an intuitive web-based interface, where registered users can access the code and do code editing.

More »»
PDF iconPoster-Abstract-AMRITA-Remote-Triggered-Wireless-Sensor-Network-Laboratory-Framework.pdf
Faculty Research Interest: