Institut for Forretningsudvikling og Teknologi

Ramjee Prasad

Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Standard

Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks. / Tobgay, Sonam; Olsen, Rasmus Løvenstein; Prasad, Ramjee.

I: The Mediterranean Journal of Computers & Networks, Bind 10, Nr. 1, 01.01.2014, s. 190-203.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Harvard

Tobgay, S, Olsen, RL & Prasad, R 2014, 'Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks', The Mediterranean Journal of Computers & Networks, bind 10, nr. 1, s. 190-203.

APA

Tobgay, S., Olsen, R. L., & Prasad, R. (2014). Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks. The Mediterranean Journal of Computers & Networks, 10(1), 190-203.

CBE

Tobgay S, Olsen RL, Prasad R. 2014. Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks. The Mediterranean Journal of Computers & Networks. 10(1):190-203.

MLA

Tobgay, Sonam, Rasmus Løvenstein Olsen, og Ramjee Prasad. "Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks". The Mediterranean Journal of Computers & Networks. 2014, 10(1). 190-203.

Vancouver

Tobgay S, Olsen RL, Prasad R. Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks. The Mediterranean Journal of Computers & Networks. 2014 jan 1;10(1):190-203.

Author

Tobgay, Sonam ; Olsen, Rasmus Løvenstein ; Prasad, Ramjee. / Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks. I: The Mediterranean Journal of Computers & Networks. 2014 ; Bind 10, Nr. 1. s. 190-203.

Bibtex

@article{d7e2937e048a491bb87efcdaf88aace3,
title = "Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks",
abstract = "Accessing information remotely to dynamically changing information elements cannot be avoided and has become a required functionality for various network services. Most applications require up-to-date information which is reliable and accurate. The information reliability in terms of using correct information is challenged by dynamic nature of information elements. These challenges are more prominent in case of wireless sensor network (WSN) applications, as the information that the sensor node collects are mostly dynamic in nature (say, temperature). Therefore, it is likely that there can be a mismatch of information between the one which user uses and the one which is available at the source at the same instant of time. This leads to unreliable information being used by the application user for processing. Information accessing with minimal mismatch is desired by the WSN applications especially when WSN is used for safety and security monitoring purposes. In this paper, we evaluate different access strategies to remote dynamic information and compare between achieving information reliability (mismatch probability) and the associated power consumption. Lastly, based on the models, we propose an adaptive information access mechanism and show how trade-off between energy consumption and information reliability can be achieved.",
author = "Sonam Tobgay and Olsen, {Rasmus L{\o}venstein} and Ramjee Prasad",
year = "2014",
month = "1",
day = "1",
language = "English",
volume = "10",
pages = "190--203",
journal = "The Mediterranean Journal of Computers & Networks",
issn = "1744-2397",
number = "1",

}

RIS

TY - JOUR

T1 - Adaptive Information Access on Multiple Applications Support Wireless Sensor Networks

AU - Tobgay, Sonam

AU - Olsen, Rasmus Løvenstein

AU - Prasad, Ramjee

PY - 2014/1/1

Y1 - 2014/1/1

N2 - Accessing information remotely to dynamically changing information elements cannot be avoided and has become a required functionality for various network services. Most applications require up-to-date information which is reliable and accurate. The information reliability in terms of using correct information is challenged by dynamic nature of information elements. These challenges are more prominent in case of wireless sensor network (WSN) applications, as the information that the sensor node collects are mostly dynamic in nature (say, temperature). Therefore, it is likely that there can be a mismatch of information between the one which user uses and the one which is available at the source at the same instant of time. This leads to unreliable information being used by the application user for processing. Information accessing with minimal mismatch is desired by the WSN applications especially when WSN is used for safety and security monitoring purposes. In this paper, we evaluate different access strategies to remote dynamic information and compare between achieving information reliability (mismatch probability) and the associated power consumption. Lastly, based on the models, we propose an adaptive information access mechanism and show how trade-off between energy consumption and information reliability can be achieved.

AB - Accessing information remotely to dynamically changing information elements cannot be avoided and has become a required functionality for various network services. Most applications require up-to-date information which is reliable and accurate. The information reliability in terms of using correct information is challenged by dynamic nature of information elements. These challenges are more prominent in case of wireless sensor network (WSN) applications, as the information that the sensor node collects are mostly dynamic in nature (say, temperature). Therefore, it is likely that there can be a mismatch of information between the one which user uses and the one which is available at the source at the same instant of time. This leads to unreliable information being used by the application user for processing. Information accessing with minimal mismatch is desired by the WSN applications especially when WSN is used for safety and security monitoring purposes. In this paper, we evaluate different access strategies to remote dynamic information and compare between achieving information reliability (mismatch probability) and the associated power consumption. Lastly, based on the models, we propose an adaptive information access mechanism and show how trade-off between energy consumption and information reliability can be achieved.

M3 - Journal article

VL - 10

SP - 190

EP - 203

JO - The Mediterranean Journal of Computers & Networks

JF - The Mediterranean Journal of Computers & Networks

SN - 1744-2397

IS - 1

ER -