Zhitao He scite author profile

Abstract-Many wireless sensor network applications must resolve the inherent conflict between energy efficient communication and the need to achieve desired quality of service such as end-to-end communication delay. To address this challenge, we propose the Real-time Power-Aware Routing (RPAR) protocol, which achieves application-specified communication delays at low energy cost by dynamically adapting transmission power and routing decisions. RPAR features a power-aware forwarding policy and an efficient neighborhood manager that are optimized for resource-constrained wireless sensors. Moreover, RPAR addresses important practical issues in wireless sensor networks, including lossy links, scalability, and severe memory and bandwidth constraints. Simulations based on a realistic radio model of MICA2 motes show that RPAR significantly reduces the number of deadlines missed and energy consumption compared to existing real-time and energy-efficient routing protocols.

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Software-based on-line energy estimation for sensor nodes

Dunkels

et al. 2007

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Energy is of primary importance in wireless sensor networks. By being able to estimate the energy consumption of the sensor nodes, applications and routing protocols are able to make informed decisions that increase the lifetime of the sensor network. However, it is in general not possible to measure the energy consumption on popular sensor node platforms. In this paper, we present and evaluate a softwarebased on-line energy estimation mechanism that estimates the energy consumption of a sensor node. We evaluate the mechanism by comparing the estimated energy consumption with the lifetime of capacitor-powered sensor nodes. By implementing and evaluating the X-MAC protocol, we show how software-based on-line energy estimation can be used to empirically evaluate the energy efficiency of sensor network protocols.

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Intraoral minor salivary gland tumors in a Chinese population: a retrospective study on 737 cases

Wang¹,

Li²,

He³

et al. 2007

Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, an

132

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An adaptive communication architecture for wireless sensor networks

Dunkels

Österlind

2007

138

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Zhitao He

Real-time Power-Aware Routing in Sensor Networks

Software-based on-line energy estimation for sensor nodes

Intraoral minor salivary gland tumors in a Chinese population: a retrospective study on 737 cases

An adaptive communication architecture for wireless sensor networks

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