Michał Grabia - Academia.edu (original) (raw)
Books by Michał Grabia
MARELITT Baltic Report 3, 2019
This report is a summary of the work carried out by the Lukasiewicz - Institute of Logistics and ... more This report is a summary of the work carried out by the Lukasiewicz -
Institute of Logistics and Warehousing under the Marelitt Baltic project. The introduction to the research conducted in the Laboratory of Identification Technologies of the Institute is a description of fishing gears used on the Baltic Sea and introduction to radio identification technologies (RFID). As part of the project, the Institute dealt with eveloping a solution that would allow marking all fishing gears available and used on the Baltic Sea. In the course of the works, ready-made solutions on the market were verified, enabling the marking of gears used in difficult conditions (up to 100 m below sea level) in connection with existing net elements (floats of different types and sizes), however their cost had a significant impact on the price of fishing gears. As a result of these arrangements, in consultation with project partners
and experts cooperating with the project team, Identification Technology
Laboratory committed to develop prototypes enabling mass marking of
fishing gears while maintaining a low cost of this solution. In further
laboratory work, the aforementioned prototypes were developed (both 3D projects as well as physical implementations of these projects using various techniques - 3D printing or polyurethane foam molding). Prepared prototypes were then subjected to laboratory tests and after their positive results, also sea trials, in real environment and most importantly in real fishing processes (both with the use of gillnets and trawl nets). The obtained results confirmed the resistance of prototypes to unfavorable working conditions and the possibility of keeping inventories of fishing nets continuously, during the implementation of fishing processes (during casting or pulling out the nets and during operations in the port).
As a result of the works carried out, solutions were proposed that were
accepted by the assessment of the project team for the mass implementation and recommendation of appropriate legal solutions. The method of identification of the owner of a given fishing gear remains an open question, and as a basis, the project team proposed using global identifiers and standardization compliant with GS1 standards (e.g. GRAI or GIAI identifier developed on their basis in cooperation with the GS1 organization).
The result of the project are both 3D prototype projects, prototypes made in the project, as well as this report constituting both the technical
documentation of the proposed solution as well as a description of the
research and development works carried out.
MARELITT Baltic Report 3, 2019
This report is a summary of the work carried out by the Lukasiewicz - Institute of Logistics and ... more This report is a summary of the work carried out by the Lukasiewicz -
Institute of Logistics and Warehousing under the Marelitt Baltic project. The introduction to the research conducted in the Laboratory of Identification Technologies of the Institute is a description of fishing gears used on the Baltic Sea and introduction to radio identification technologies (RFID). As part of the project, the Institute dealt with eveloping a solution that would allow marking all fishing gears available and used on the Baltic Sea. In the course of the works, ready-made solutions on the market were verified, enabling the marking of gears used in difficult conditions (up to 100 m below sea level) in connection with existing net elements (floats of different types and sizes), however their cost had a significant impact on the price of fishing gears. As a result of these arrangements, in consultation with project partners
and experts cooperating with the project team, Identification Technology
Laboratory committed to develop prototypes enabling mass marking of
fishing gears while maintaining a low cost of this solution. In further
laboratory work, the aforementioned prototypes were developed (both 3D projects as well as physical implementations of these projects using various techniques - 3D printing or polyurethane foam molding). Prepared prototypes were then subjected to laboratory tests and after their positive results, also sea trials, in real environment and most importantly in real fishing processes (both with the use of gillnets and trawl nets). The obtained results confirmed the resistance of prototypes to unfavorable working conditions and the possibility of keeping inventories of fishing nets continuously, during the implementation of fishing processes (during casting or pulling out the nets and during operations in the port).
As a result of the works carried out, solutions were proposed that were
accepted by the assessment of the project team for the mass implementation and recommendation of appropriate legal solutions. The method of identification of the owner of a given fishing gear remains an open question, and as a basis, the project team proposed using global identifiers and standardization compliant with GS1 standards (e.g. GRAI or GIAI identifier developed on their basis in cooperation with the GS1 organization).
The result of the project are both 3D prototype projects, prototypes made in the project, as well as this report constituting both the technical
documentation of the proposed solution as well as a description of the
research and development works carried out.