Mike Eichhorn scite author profile

Mike Eichhorn

5Publications

159Citation Statements Received

81Citation Statements Given

How they've been cited

157

159

How they cite others

Affiliations

Technische Universität Ilmenau, Ingenieurgesellschaft Auto und Verkehr (Germany), Community Sector Council Newfoundland and Labrador

Publications

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A new concept for an obstacle avoidance system for the AUV “SLOCUM glider” operation under ice

Eichhorn¹

2009

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Abstract-This paper presents a concept for a control system for an autonomous underwater vehicle under ice using a "SLOCUM" underwater glider. The project concept, the separate working tasks for the next one-and-a-half years and the first results will be presented. In this context the structure of the obstacle avoidance system and a simulator structure with a sensor and environment simulation as well as the interfaces to the glider hardware will be discussed. As a first result of the main research, a graph-based algorithm for the path planning in a time-varying environment (variable ocean field, moving obstacles) will be described.

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A mission planning system for the AUV “SLOCUM Glider” for the Newfoundland and labrador shelf

Eichhorn¹,

Williams²,

Bachmayer³

et al. 2010

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Abstract-This paper presents a system for mission planning for an autonomous underwater vehicle in time-varying ocean currents. The mission planning system is designed for the AUV "SLOCUM Glider" to collect oceanographic data along the Newfoundland and Labrador Shelf. The data will be used in conjunction with a numerical ocean model currently under development by the Department of Fisheries and Oceans Canada. This allows for the validation and the modification of existing ocean current and climate models as well as the design of new models with the aim of improving the accuracy of forecasts. The use of the ocean current forecast data in netCDF format in an ocean current model, the algorithms which consider glider-specific behaviour, details of the program's technical implementation in C++, and, preliminary results will be described.

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Solutions for practice-oriented requirements for optimal path planning for the AUV “SLOCUM Glider”

Eichhorn¹

2010

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Abstract-This paper presents a few important practiceoriented requirements for optimal path planning for the AUV "SLOCUM Glider" as well as solutions using fast graph based algorithms. These algorithms build upon the TVE (time-varying environment) search algorithm. The experience with this algorithm, requirements of real missions along the Newfoundland and Labrador Shelf and the idea to find the optimal departure time are the motivation to address the field of research, which is described in this paper. The main focus of this paper is a discussion of possible methods to accelerate the path planning algorithm, without deterioration of the results.

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Modular AUV System with Integrated Real-Time Water Quality Analysis

Eichhorn

Ament

Jacobi

et al. 2018

Sensors

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This paper describes the concept, the technical implementation and the practical application of a miniaturized sensor system integrated into an autonomous underwater vehicle (AUV) for real-time acquisition of water quality parameters. The main application field of the presented system is the analysis of the discharge of nitrates into Norwegian fjords near aqua farms. The presented system was developed within the research project SALMON (Sea Water Quality Monitoring and Management) over a three-year period. The development of the sensor system for water quality parameters represented a significant challenge for the research group, as it was to be integrated in the payload unit of the autonomous underwater vehicle in compliance with the underwater environmental conditions. The German company -4H- JENA engineering GmbH (4HJE), with experience in optical in situ-detection of nutrients, designed and built the measurement system. As a carrier platform, the remotely operated vehicle (ROV) “CWolf” from Fraunhofer-Institut für Optronik, Systemtechnik und Bildauswertung - Institutsteil Angewandte Systemtechnik (IOSB-AST) modified to an AUV was deployed. The concept presented illustrates how the measurement system can be integrated easily into the vehicle with a minimum of hard- and software technical interfaces.

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First testing of an AUV mission planning and guidance system for water quality monitoring and fish behavior observation in net cage fish farming

Karimanzira¹,

Jacobi²,

Pfuetzenreuter³

et al. 2014

Information Processing in Agriculture

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Recently, underwater vehicles have become low cost, reliable and affordable platforms for performing various underwater tasks. While many aquaculture systems are closed with no harmful output, open net cage fish farms and land-based fish farms can discharge significant amounts of wastewater containing nutrients, chemicals, and pharmaceuticals that impact on the surrounding environment. Although aquaculture development has often occurred outside a regulatory framework, government oversight is increasingly common at both the seafood quality control level, and at baseline initiatives addressing the basic problem of pollution generated by culture operations, e.g. the European marine and maritime directives. This requires regular, sustainable and cost-effective monitoring of the water quality. Such monitoring needs devices to detect the water quality in a large sea area at different depths in real time. This paper presents a concept for a guidance system for a carrier (an autonomous underwater vehicle) of such devices for the automated detection and analysis of water quality parameters

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Mike Eichhorn

A new concept for an obstacle avoidance system for the AUV “SLOCUM glider” operation under ice

A mission planning system for the AUV “SLOCUM Glider” for the Newfoundland and labrador shelf

Solutions for practice-oriented requirements for optimal path planning for the AUV “SLOCUM Glider”

Modular AUV System with Integrated Real-Time Water Quality Analysis

First testing of an AUV mission planning and guidance system for water quality monitoring and fish behavior observation in net cage fish farming

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Mike Eichhorn

A new concept for an obstacle avoidance system for the AUV &#x201C;SLOCUM glider&#x201D; operation under ice

A mission planning system for the AUV &#x201C;SLOCUM Glider&#x201D; for the Newfoundland and labrador shelf

Solutions for practice-oriented requirements for optimal path planning for the AUV &#x201C;SLOCUM Glider&#x201D;

Modular AUV System with Integrated Real-Time Water Quality Analysis

First testing of an AUV mission planning and guidance system for water quality monitoring and fish behavior observation in net cage fish farming

Contact Info

Product

Resources

About

A new concept for an obstacle avoidance system for the AUV “SLOCUM glider” operation under ice

A mission planning system for the AUV “SLOCUM Glider” for the Newfoundland and labrador shelf

Solutions for practice-oriented requirements for optimal path planning for the AUV “SLOCUM Glider”