Peter Wägemann scite author profile

Recent advances in animal tracking technology have ushered in a new era in biologging. However, the considerable size of many sophisticated biologging devices restricts their application to larger animals, whereas older techniques often still represent the state-of-theart for studying small vertebrates. In industrial applications, low-power wireless sensor networks (WSNs) fulfill requirements similar to those needed to monitor animal behavior at high resolution and at low tag mass. We developed a wireless biologging network (WBN), which enables simultaneous direct proximity sensing, high-resolution tracking, and long-range remote data download at tag masses of 1 to 2 g. Deployments to study wild bats created social networks and flight trajectories of unprecedented quality. Our developments highlight the vast capabilities of WBNs and their potential to close an important gap in biologging: fully automated tracking and proximity sensing of small animals, even in closed habitats, at high spatial and temporal resolution.

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Worst-Case Energy Consumption Analysis for Energy-Constrained Embedded Systems

Wägemann

Distler

Hönig

et al. 2015

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Abstract-The fact that energy is a scarce resource in many embedded real-time systems creates the need for energy-aware task schedulers, which not only guarantee timing constraints but also consider energy consumption. Unfortunately, existing approaches to analyze the worst-case execution time (WCET) of a task usually cannot be directly applied to determine its worstcase energy consumption (WCEC) due to execution time and energy consumption not being closely correlated on many stateof-the-art processors. Instead, a WCEC analyzer must take into account the particular energy characteristics of a target platform.In this paper, we present 0g, a comprehensive approach to WCEC analysis that combines different techniques to speed up the analysis and to improve results. If detailed knowledge about the energy costs of instructions on the target platform is available, our tool is able to compute upper bounds for the WCEC by statically analyzing the program code. Otherwise, a novel approach allows 0g to determine the WCEC by measurement after having identified a set of suitable program inputs based on an auxiliary energy model, which specifies the energy consumption of instructions in relation to each other. Our experiments for three target platforms show that 0g provides precise WCEC estimates.

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BATS: Adaptive Ultra Low Power Sensor Network for Animal Tracking

Duda

Nowak

Hartmann

et al. 2018

Sensors

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In this paper, the BATS project is presented, which aims to track the behavior of bats via an ultra-low power wireless sensor network. An overview about the whole project and its parts like sensor node design, tracking grid and software infrastructure is given and the evaluation of the project is shown. The BATS project includes a lightweight sensor node that is attached to bats and combines multiple features. Communication among sensor nodes allows tracking of bat encounters. Flight trajectories of individual tagged bats can be recorded at high spatial and temporal resolution by a ground node grid. To increase the communication range, the BATS project implemented a long-range telemetry system to still receive sensor data outside the standard ground node network. The whole system is designed with the common goal of ultra-low energy consumption while still maintaining optimal measurement results. To this end, the system is designed in a flexible way and is able to adapt its functionality according to the current situation. In this way, it uses the energy available on the sensor node as efficient as possible.

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Benchmark Generation for Timing Analysis

Wägemann

Distler

Eichler

et al. 2017

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TACLeBench: A Benchmark Collection to Support Worst-Case Execution Time Research

Falk

Altmeyer

Hellinckx

et al. 2016

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Peter Wägemann

Thinking small: Next-generation sensor networks close the size gap in vertebrate biologging

Worst-Case Energy Consumption Analysis for Energy-Constrained Embedded Systems

BATS: Adaptive Ultra Low Power Sensor Network for Animal Tracking

Benchmark Generation for Timing Analysis

TACLeBench: A Benchmark Collection to Support Worst-Case Execution Time Research

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